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WO2021175075A1 - 提示方法、洗涤电器及存储介质 - Google Patents

提示方法、洗涤电器及存储介质 Download PDF

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Publication number
WO2021175075A1
WO2021175075A1 PCT/CN2021/075189 CN2021075189W WO2021175075A1 WO 2021175075 A1 WO2021175075 A1 WO 2021175075A1 CN 2021075189 W CN2021075189 W CN 2021075189W WO 2021175075 A1 WO2021175075 A1 WO 2021175075A1
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WO
WIPO (PCT)
Prior art keywords
washing
blocks
storage
storage tube
appliance
Prior art date
Application number
PCT/CN2021/075189
Other languages
English (en)
French (fr)
Inventor
卢振亮
刘日超
李翔
许平平
Original Assignee
佛山市顺德区美的洗涤电器制造有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 佛山市顺德区美的洗涤电器制造有限公司 filed Critical 佛山市顺德区美的洗涤电器制造有限公司
Publication of WO2021175075A1 publication Critical patent/WO2021175075A1/zh

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Classifications

    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47LDOMESTIC WASHING OR CLEANING; SUCTION CLEANERS IN GENERAL
    • A47L15/00Washing or rinsing machines for crockery or tableware
    • A47L15/42Details
    • A47L15/44Devices for adding cleaning agents; Devices for dispensing cleaning agents, rinsing aids or deodorants
    • A47L15/4436Devices for adding cleaning agents; Devices for dispensing cleaning agents, rinsing aids or deodorants in the form of a detergent solution made by gradually dissolving a powder detergent cake or a solid detergent block
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47LDOMESTIC WASHING OR CLEANING; SUCTION CLEANERS IN GENERAL
    • A47L15/00Washing or rinsing machines for crockery or tableware
    • A47L15/42Details
    • A47L15/4251Details of the casing
    • A47L15/4257Details of the loading door
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47LDOMESTIC WASHING OR CLEANING; SUCTION CLEANERS IN GENERAL
    • A47L2401/00Automatic detection in controlling methods of washing or rinsing machines for crockery or tableware, e.g. information provided by sensors entered into controlling devices
    • A47L2401/02Consumable products information, e.g. information on detergent, rinsing aid or salt; Dispensing device information, e.g. information on the type, e.g. detachable, or status of the device
    • A47L2401/023Quantity or concentration of the consumable product
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47LDOMESTIC WASHING OR CLEANING; SUCTION CLEANERS IN GENERAL
    • A47L2401/00Automatic detection in controlling methods of washing or rinsing machines for crockery or tableware, e.g. information provided by sensors entered into controlling devices
    • A47L2401/04Crockery or tableware details, e.g. material, quantity, condition
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47LDOMESTIC WASHING OR CLEANING; SUCTION CLEANERS IN GENERAL
    • A47L2401/00Automatic detection in controlling methods of washing or rinsing machines for crockery or tableware, e.g. information provided by sensors entered into controlling devices
    • A47L2401/34Other automatic detections
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47LDOMESTIC WASHING OR CLEANING; SUCTION CLEANERS IN GENERAL
    • A47L2501/00Output in controlling method of washing or rinsing machines for crockery or tableware, i.e. quantities or components controlled, or actions performed by the controlling device executing the controlling method
    • A47L2501/07Consumable products, e.g. detergent, rinse aids or salt
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47LDOMESTIC WASHING OR CLEANING; SUCTION CLEANERS IN GENERAL
    • A47L2501/00Output in controlling method of washing or rinsing machines for crockery or tableware, i.e. quantities or components controlled, or actions performed by the controlling device executing the controlling method
    • A47L2501/36Other output

Definitions

  • the invention relates to a washing appliance, in particular to a prompt method, a washing appliance and a storage medium.
  • washing appliances such as dishwashers usually use devices with automatic dispensing functions to dispense cleaning consumables.
  • devices with automatic dispensing functions in the related art, during the process of dispensing cleaning consumables, the number of dispensing cleaning consumables may be insufficient, which is not conducive to the use of washing appliances by users.
  • the embodiment of the present invention provides a prompt method, a washing appliance and a storage medium.
  • the reminding method according to the embodiment of the present invention is used for washing electrical appliances, the washing electrical appliances include a dispensing device, the dispensing device includes a storage tube, the storage tube is used to store a plurality of washing blocks, the reminding method includes:
  • the storage tube is used to store a plurality of washing blocks, and then the quantity of washing blocks in the storage tube is obtained, and the quantity of the obtained washing blocks is prompted.
  • the user can clearly understand the quantity of washing blocks in the storage tube.
  • the number of washing blocks when the number of washing blocks is insufficient, the washing blocks are added to the storage tube, so as to prevent the shortage of the number of washing blocks put in, which is beneficial for users to use washing appliances.
  • the dispensing device includes a weight sensor arranged in the storage tube, and the acquiring the number of washing blocks in the storage tube includes:
  • the number of the washing blocks is calculated according to the ratio of the weight obtained by the weight sensor and the weight of each washing block.
  • the storage tube is strip-shaped so that the plurality of washing blocks are arranged in the storage tube sequentially, and the obtaining the number of washing blocks in the storage tube includes:
  • the number of the washing blocks is determined according to the arrangement position.
  • the washing appliance includes a display device, and the prompt of the number of washing blocks includes:
  • the prompt method includes:
  • the dispensing device is controlled to dispense a predetermined amount of the washing block.
  • the washing instruction is generated according to the following steps:
  • the washing instruction is generated according to the quantity of the tableware.
  • the washing instruction is generated according to the following steps:
  • the washing instruction is generated according to the received input.
  • the prompt method includes:
  • the washing appliance includes a feeding device and a controller.
  • the feeding device includes a storage tube.
  • the storage tube is used to store a plurality of washing blocks.
  • the controller is used to obtain the information of the washing blocks in the storage tube. The quantity, and the quantity used to remind the washing block. .
  • the storage tube is used to store a plurality of washing blocks, and then the quantity of washing blocks in the storage tube is obtained, and the quantity of the obtained washing blocks is prompted. In this way, the user can clearly understand the quantity of washing blocks in the storage tube.
  • the number of washing blocks when the number of washing blocks is insufficient, the washing blocks are added to the storage tube, so as to prevent the shortage of the number of washing blocks put in, which is beneficial for users to use washing appliances.
  • the dispensing device includes a weight sensor arranged in the storage tube, the number of washing blocks in the storage tube is obtained, and the controller is configured to obtain the weight according to the weight sensor. The ratio of the weight of each of the washing blocks is calculated to obtain the number of the washing blocks.
  • the storage tube is strip-shaped so that the plurality of washing blocks are sequentially arranged in the storage tube, and the number of washing blocks in the storage tube is obtained, and the The controller is used to obtain the arrangement position of the washing blocks in the storage pipe, and is used to determine the number of the washing blocks according to the arrangement position.
  • the washing appliance includes a display device, and the controller is used to control the display device to display the number of the washing blocks.
  • the controller is used to obtain a washing instruction, and to control the dispensing device to put a predetermined amount of the washing block according to the washing instruction.
  • the controller is used to obtain the quantity of tableware to be washed, and is used to generate the washing instruction according to the quantity of the tableware.
  • the controller is used to obtain the input received by the washing appliance, and used to generate the washing instruction according to the received input.
  • the controller is used for judging whether the dispensing device is abnormal during the operation of the washing appliance, and for issuing an alarm when the dispensing device is abnormal.
  • An embodiment of the present invention is a non-volatile computer-readable storage medium containing computer-executable instructions.
  • the processors are caused to perform any of the foregoing implementations. Prompt method of the way.
  • the storage tube is used to store a plurality of washing blocks, and then obtains the number of washing blocks in the storage tube, and prompts the number of the obtained washing blocks. In this way, the user can clearly understand the number of washing blocks in the storage tube.
  • the number of washing blocks when the number of washing blocks is insufficient, the washing blocks are added to the storage tube, so as to prevent the shortage of the number of washing blocks put in, which is beneficial for users to use washing appliances.
  • FIG. 1 is a schematic diagram of the structure of a dispensing device according to an embodiment of the present invention
  • Fig. 2 is a schematic plan view of a dispensing device according to an embodiment of the present invention.
  • Fig. 3 is another schematic plan view of the dispensing device according to the embodiment of the present invention.
  • FIG. 4 is another schematic plan view of the dispensing device according to the embodiment of the present invention.
  • Fig. 5 is another schematic plan view of the dispensing device according to the embodiment of the present invention.
  • Fig. 6 is another schematic plan view of the dispensing device according to the embodiment of the present invention.
  • Fig. 7 is an enlarged schematic diagram of part I in Fig. 6;
  • FIG. 8 is a schematic plan view of the storage channel and the pushing part of the dispensing device according to the embodiment of the present invention.
  • FIG. 9 is another schematic plan view of the storage channel and the pushing part of the dispensing device according to the embodiment of the present invention.
  • FIG 10 is another schematic plan view of the storage channel and the pushing part of the dispensing device according to the embodiment of the present invention.
  • FIG. 11 is another schematic plan view of the storage channel and the pushing part of the dispensing device according to the embodiment of the present invention.
  • FIG. 12 is another schematic plan view of the storage channel and the pushing part of the dispensing device according to the embodiment of the present invention.
  • FIG. 13 is a schematic diagram of the structure of the door assembly of the embodiment of the present invention.
  • Figure 14 is a schematic plan view of a door assembly according to an embodiment of the present invention.
  • Fig. 15 is another schematic plan view of the door assembly according to the embodiment of the present invention.
  • FIG. 16 is a schematic structural diagram of a washing appliance according to an embodiment of the present invention.
  • FIG. 17 is another structural schematic diagram of the washing appliance according to the embodiment of the present invention.
  • FIG. 18 is a flowchart of a control method of a dispensing device according to an embodiment of the present invention.
  • Figure 20 is a schematic plan view of a storage tube according to an embodiment of the present invention.
  • FIG. 21 is another flowchart of the control method of the placing device according to the embodiment of the present invention.
  • FIG. 22 is still another flowchart of the control method of the placing device according to the embodiment of the present invention.
  • FIG. 23 is another flowchart of the control method of the placing device according to the embodiment of the present invention.
  • FIG. 24 is another flowchart of the control method of the dispensing device according to the embodiment of the present invention.
  • Washing appliance 1000 cavity 1001, accommodating space 1002, door body assembly 100, door body 101, throwing device 10, storage tube 11, storage channel 111, inlet 112, outlet 113, cover 114, Pushing portion 12, perforation 121, first drive assembly 13, first drive motor 131, first transmission assembly 132, first push rod 133, first tooth portion 1331, feeding channel 14, feeding opening 141, movable assembly 15 ,
  • an embodiment of the present invention provides a dispensing device 10.
  • the dispensing device 10 includes a storage tube 11 and a pushing part 12.
  • the storage pipe 11 is formed with a storage channel 111, and the storage channel 111 is used to store a plurality of washing blocks.
  • the pushing part 12 is arranged to move relative to the storage tube 11.
  • the pushing part 12 can move between the first position and the second position. When the pushing part 12 is in the first position, the pushing part 12 blocks the washing block from the material storage channel. When the pushing part 12 is in the second position, the pushing part 12 causes at least one washing block to fall out of the material storage channel 111 from the material storage channel 111.
  • the storage tube 11 can be used to store a plurality of washing blocks, and then the pushing part 12 is moved to realize the dispensing of the washing blocks. In this way, the number of times the user adds washing blocks to the dispensing device 10 can be reduced. , Provides convenience for users, enables users to use the placing device 10 more conveniently, and improves user experience.
  • the user can store a plurality of washing blocks in the storage channel 111 of the storage tube 11, and then control the pushing part 12 to move between the first position and the second position, so as to realize the placing of the washing blocks.
  • the user does not need to put the washing block into the putting device 10 every time when using the putting device 10, which can reduce the number of times the user adds washing blocks to the putting device 10, which provides convenience for the user and enables the user to compare It is convenient to use the placing device 10, which improves the user experience.
  • the storage tube 11 can be made of plastic.
  • Plastic has the characteristics of economical price, easy acquisition, and easy processing. This can reduce the manufacturing cost of the storage tube 11, which is beneficial to the mass production of the storage tube 11, and in turn, is beneficial to the mass production of the feeding device 10. In addition, such a configuration can reduce the overall weight of the placing device 10, so that the user can use the placing device 10 more conveniently, and the user experience is improved.
  • the storage tube 11 may also be made of other materials, and the specific material of the storage tube 11 may be set according to actual conditions.
  • the storage tube 11 can also be made of stainless steel, iron, or other materials. The specific material of the storage tube 11 is not determined here.
  • the washing block may be circular, rectangular, polygonal, or the like.
  • the specific shape of the washing block can be set according to different situations. There is no limitation here.
  • the storage tube 11 includes a feed port 112 and a discharge port 113. Both the feed port 112 and the discharge port 113 are in communication with the storage channel 111, and the pushing part 12 is located
  • the discharging port 113 is arranged in such a way that when the pushing part 12 moves between the first position and the second position, the washing block can be controlled to fall, and the structure is simple and easy to implement.
  • a cover 114 may be hinged to the feed port 112, and the cover 114 is configured to open or close the feed port 112 when rotated. In this way, the user can turn the cover 114 to achieve feeding. Opening and closing of port 112 is convenient and quick.
  • the cover 114 can also be used to open or close the feed port 112 in other ways.
  • the cover 114 may be movably disposed at the feed port 112, so that the feed port 112 is opened or closed during the movement of the cover 114. It can be selected according to different situations. There is no limitation here.
  • cover plate 114 may be provided with a sealing ring (not shown in the figure). In this way, when the cover plate 114 closes the feed port 112, the sealing effect of the material storage channel 111 is better, thereby preventing external air from entering The storage channel 111 causes the washing block in the storage channel 111 to be contaminated. Conducive to the storage of washing blocks.
  • the storage channel 111 has a strip shape, and the storage channel 111 is used to arrange a plurality of washing blocks in sequence.
  • the storage channel 111 may allow a plurality of washing blocks to be arranged sequentially from top to bottom.
  • Such a configuration is beneficial to the sequential arrangement of the washing blocks, so that the storage channel 111 can store more washing blocks.
  • the strip shape of the storage channel 111 is also conducive to the falling of the washing block under the action of gravity, thereby preventing the washing block from clogging in the storage channel 111.
  • the cross-sectional area of the storage channel 111 is rectangular.
  • the washing block can be designed as a rectangle.
  • the cross-sectional area of the storage channel 111 may also have other shapes. It can be set according to different situations. It should be pointed out that when the material storage channel 111 has other shapes, the shape of the washing block can also be changed accordingly, so that the washing block can form a better fit with the material storage channel 111.
  • the number of storage channels 111 is multiple, and the plurality of storage channels 111 are arranged side by side.
  • a corresponding storage channel At least one washing block in 111 drops from the storage channel 111 to the outside of the storage channel 111.
  • the dispensing device 10 can store more washing blocks. In this way, the user does not need to add washing blocks to the storage channel 111 from time to time, which reduces the number of times the user adds washing blocks to the dispensing device 10. Convenience is provided for the user, so that the user can use the placing device 10 more conveniently, and the user experience is improved.
  • a plurality of storage channels 111 are arranged side by side, specifically, a plurality of storage channels 111 are arranged side by side along the length direction of the feeding device 10, so that it is beneficial for the pushing part 12 to control the washing block when moving. It can be dropped, and the thickness of the dispensing device 10 can be reduced, which is beneficial to the thin and light design of the dispensing device 10.
  • the number of the storage tube 11 is one, and a plurality of storage channels 111 are formed in the storage tube 11.
  • the number of the storage tubes 11 may be multiple, and each storage tube 11 has a storage channel 111 formed therein.
  • the specific number of storage tubes 11 can be set according to different situations. There is no limitation here.
  • the pushing part 12 is used to move between the first position and the second position so that the washing blocks in the plurality of storage channels 111 alternately fall to the storage channel 111 outside.
  • the storage passage 111 includes a storage passage 111A and a storage passage 111B, and the storage passage 111A and the storage passage 111B are arranged side by side.
  • the control pusher 12 is located at the second position of the storage channel 111A, that is, the washing block in the storage channel 111A falls out of the storage channel 111A, as shown by the arrow in Fig. 8; please refer to the figure 9.
  • the control pusher 12 is located at the second position of the storage channel 111B, that is, the washing block in the storage channel 111B falls out of the storage channel 111B, as shown by the arrow in Figure 9; Referring to Fig.
  • the pushing part 12 is again controlled to be located at the second position of the storage channel 111A, that is, the washing block in the storage channel 111A falls out of the storage channel 111A; please refer to Fig. 9 again ,
  • the pushing part 12 is again controlled to be located at the second position of the storage channel 111B, that is, the washing block in the storage channel 111B falls out of the storage channel 111B. And so on, until the washing blocks in the storage channel 111A and the storage channel 111B are used up.
  • the placing device 10 may also use other methods to perform the placing operation.
  • the storage passage 111 includes a storage passage 111A and a storage passage 111B, the storage passage 111A and the storage passage 111B are arranged side by side, and the storage passage 111A and the storage passage 111B each store three washing blocks.
  • the control pushing part 12 when the first injection, the control pushing part 12 is located at the second position of the storage channel 111A, that is, the washing block in the storage channel 111A falls out of the storage channel 111A; please refer to Fig.
  • the pushing part 12 is again controlled to be located at the second position of the storage channel 111A, that is, the washing block in the storage channel 111A falls out of the storage channel 111A; please refer to FIG. 8 again for the third placement
  • the pushing part 12 is again controlled to be located at the second position of the storage channel 111A, that is, the washing blocks in the storage channel 111A fall out of the storage channel 111A, and at this time, the washing blocks in the storage channel 111A are used up.
  • the control pusher 12 is located at the second position of the storage channel 111B, that is, the washing block in the storage channel 111B falls out of the storage channel 111B; please again Referring to Fig. 9, in the fifth injection, the pushing part 12 is again controlled to be located at the second position of the storage channel 111B, that is, the washing block in the storage channel 111B falls out of the storage channel 111B; please refer to Fig. 9 again In the sixth injection, the pusher 12 is again controlled to be located at the second position of the storage channel 111B, that is, the washing block in the storage channel 111B falls outside the storage channel 111B, at this time, the storage channel 111B The washing block is exhausted.
  • the dispensing device 10 includes a first drive assembly 13, the first drive assembly 13 is connected to the pushing portion 12, the first drive assembly 13 is used to drive the pushing portion 12 in the first position And move between the second position.
  • the first drive assembly 13 includes a first drive motor 131, a first transmission assembly 132, and a first push rod 133.
  • the first drive motor 131 is used to drive the first drive motor 131.
  • the transmission assembly 132 rotates, and the first push rod 133 is connected to the pushing part 12.
  • the first driving motor 131 drives the first transmission assembly 132 to rotate
  • the first transmission assembly 132 drives the first push rod 133 to move, so that the pushing part 12 moves between the first position and the second position.
  • the first driving motor 131 can drive the first transmission assembly 132 to rotate, and the first transmission assembly 132 can drive the first push rod 133 to move while rotating. Since the first push rod 133 is connected to the pushing part 12, When the push rod 133 moves, the pushing part 12 can be driven to move, so that the pushing part 12 can move between the first position and the second position.
  • the structure is simple and easy to implement.
  • the first drive assembly 13 may also have other structures.
  • the first drive assembly 13 includes a spring and a pull cord, and one end of the spring is connected to the pushing part 12, The other end of the spring is fixed to the inner wall of the release device 10, one end of the pull cord is connected to the end of the pushing part 12 away from the spring, and the other end of the cord is exposed from the release device 10.
  • the user can pull the cord to provide a first-direction pulling force. Pull the pushing portion 12 to make the pushing portion 12 move in the first direction.
  • the spring is deformed.
  • the spring can provide pulling force in the second direction to pull the pushing portion 12 so that the pushing portion 12 is pulled. 12 moves in a second direction, where the first direction and the second direction are opposite.
  • the pushing part 12 when the user provides a pulling force in the first direction that is greater than the pulling force in the second direction, the pushing part 12 can move in the first direction, and when the user provides a pulling force in the first direction that is less than the pulling force in the second direction, the pushing part 12 can be moved in the first direction.
  • the first drive assembly 13 may also be a hydraulic structure, a hydraulic structure, or the like. Specifically, the specific type of the first driving component 13 can be selected according to the actual situation of different situations. There is no limitation here.
  • the side of the first push rod 133 facing the first transmission component 132 is provided with a first tooth portion 1331, and the first tooth portion 1331 is engaged with the first transmission component 132.
  • the first transmission assembly 132 may include one gear, or two gears, or three gears, etc.
  • the specific number of gears can be selected according to actual conditions, and is not limited herein. It should be noted that, in the case where the first transmission assembly 132 includes multiple gears, the multiple gears are arranged in mesh.
  • the pushing portion 12 is formed with a perforation 121, the perforation 121 penetrates the pushing portion 12, when the pushing portion 12 is located at the second position, the perforation 121 communicates with the storage channel 111 , So that the washing block in the storage channel 111 falls into the perforation 121 and falls out of the storage channel 111.
  • the through hole 121 is in communication with the storage channel 111, that is, after the pushing part 12 moves from the first position to the second position, the inside of the storage channel 111
  • the washing block can fall into the perforation 121 and fall out of the storage channel 111, which can prevent the washing block in the storage channel 111 from falling by mistake, thereby facilitating the operation of the feeding device 10.
  • the perforation 121 may be a circle, a rectangle, a triangle, or other polygons. Specifically, the specific shape of the perforation 121 can be set according to different situations. There is no limitation here.
  • the size of the perforation 121 is larger than the size of the washing block, which facilitates the movement of the washing block in the perforation 121 and prevents the washing block from getting stuck in the perforation 121 and affecting the normal operation of the dispensing device 10.
  • the dispensing device 10 includes a plurality of abutting portions 19, and when the pushing portion 12 is in the second position, the side of the perforation 121 away from the storage channel 111 is at least partially closed by the abutting portion 19, This can prevent the washing block in the perforation 121 from directly falling from the perforation 121 when the pushing part 12 is in the second position, which is beneficial to control the dispensing of the washing block.
  • the number of perforations 121 may be one, two, three, or the like.
  • the specific number of the perforations 121 can be designed according to different situations. There is no limitation here.
  • the dispensing device 10 includes a discharging channel 14.
  • the washing block in the storage channel 111 passes through the perforation 121 and falls out. ⁇ Channel 14.
  • the disposition of the discharging channel 14 enables the washing block to fall to a preset position, and the structure is simple and easy to implement.
  • the number of the discharging channel 14 is one.
  • the number of discharging channels 14 may be more than one.
  • the specific number of the discharging channels 14 can be selected according to different situations. There is no limitation here.
  • the size of the discharging channel 14 is larger than the size of the washing block, which is beneficial to the movement of the washing block in the discharging channel 14 and prevents the washing block from getting stuck in the discharging channel 14 and affecting the normal operation of the dispensing device 10.
  • the discharging channel 14 is located on the side of the pushing part 12 away from the material storage channel 111.
  • the discharging channel 14 is formed with a discharging port 141, and the washing block in the discharging channel 14 falls from the discharging port 141 to the outside of the discharging channel 14.
  • the storage channel 111 includes a storage channel 111A and a storage channel 111B, the storage channel 111A and the storage channel 111B are arranged side by side, the pushing part 12 includes a perforation 121, the number of feeding channels 14 It is one, and the discharging channel 14 is located in the middle of the material storage channel 111A and the material storage channel 111B.
  • the perforation 121 is staggered from the outlet 113 of the storage channel 111A and the outlet 113 of the storage channel 111B, and the perforation 121 At this time, it is also in a staggered state with the unloading channel 14, that is to say, in this case, the washing blocks in the storage channel 111A and the storage channel 111B cannot fall into the perforation 121, and there is in the perforation 121 The washing block cannot fall into the discharging channel 14 as well.
  • the perforation 121 is staggered from the discharge port 113 of the storage channel 111A and the discharge port 113 of the storage channel 111B, and the perforation 121 is now offset from the discharge port 113 of the storage channel 111B.
  • the discharging channel 14 is in a connected state, that is to say, in this case, the washing block in the perforation 121 can fall into the discharging channel 14.
  • the structure is simple and easy to implement.
  • a movable assembly 15 is provided in the unloading channel 14.
  • the movable assembly 15 can move to isolate or communicate with the unloading channel 14, and the movable assembly 15 makes the unloading channel 14 In the case of communication, the washing block in the discharging channel 14 will fall from the discharging channel 14 to the outside of the discharging channel 14.
  • the disposition of the movable assembly 15 enables the discharging channel 14 to be isolated or connected. In this way, it is convenient to control the movement of the washing block in the discharging channel 14 so as to avoid falling from the perforation 121 to the solid state in the discharging channel 14. It happens that the detergent directly drops out of the discharging channel 14.
  • the movable assembly 15 cuts off the unloading channel 14, when the water vapor or other substances outside the unloading channel 14 enters the unloading channel 14, it can be blocked by the movable assembly 15, thereby preventing water vapor or other substances outside the unloading channel 14. Entering the material storage channel 111 through the unloading channel 14 causes the quality of the washing block in the material storage channel 111 to be affected.
  • the movable assembly 15 has a plate shape.
  • a plurality of sliding channels are formed in the blanking channel 14, and the plurality of sliding channels are in communication with the blanking channel 14.
  • the movable assembly 15 is used to move into the blanking channel 14 through the multiple sliding channels to block the blanking channel 14, or pass through multiple sliding channels.
  • the two sliding passages move from the inside and outside of the blanking channel 14 to make the blanking pass communicate.
  • the arrangement of a plurality of sliding passages can guide the movable assembly 15 to prevent deviation of the movement of the movable assembly 15 from causing the movable assembly 15 to fail to block the unloading channel 14.
  • the movable assembly 15 can move along the sliding channel to realize communication or block the feeding channel 14.
  • the structure is simple and easy to implement.
  • the movable assembly 15 includes a first movable block 16 and a second movable block 17, the first movable block 16 and the second movable block 17 are spaced apart in the discharge channel 14 With cloth, the first movable block 16 is located between the second movable block 17 and the pushing part 12. In the case where the first movable block 16 blocks the blanking channel 14, the second movable block 17 connects or blocks the blanking channel 14.
  • the second movable block 17 connects or blocks the unloading channel 14.
  • the second movable block 17 connects or blocks the unloading channel 14.
  • one of the first movable block 16 or the second movable block 17 can cut off the discharging channel 14. In this way, in the process of putting the washing block, it is possible to prevent external air from entering the discharging channel 14 and entering through the discharging channel 14
  • the condition of the storage channel 111 is beneficial to protect the washing blocks in the storage channel 111.
  • the washing block is located on the first movable block 16.
  • the second movable block 17 can block or connect the unloading channel 14. In this way, it can prevent The outside air passes through the first movable block 16 and enters the storage channel 111, which is beneficial to the storage of the washing block in the storage channel 111.
  • the washing block on the first movable block 16 falls on the second movable block 17.
  • the second movable block 17 can block the unloading channel 14.
  • the channel 111 facilitates the storage of the washing blocks in the material storage channel 111.
  • the washing block on the second movable block 17 can fall out of the unloading channel 14.
  • the first movable block 16 can block the unloading channel 14. Therefore, the air in the area between the second movable block 17 and the first movable block 16 can be prevented from passing through the first movable block 16 to enter the storage channel 111, which is beneficial to the storage of the washing blocks in the storage channel 111.
  • the joint work of the first movable block 16 and the second movable block 17 can prevent external air from entering the storage channel 111, thereby facilitating the storage of the washing blocks in the storage channel 111.
  • the dispensing device 10 includes a second drive assembly 18, the second drive assembly 18 is connected to the first movable block 16 and the second movable block 17, the second drive assembly 18 To drive the first movable block 16 and the second movable block 17 to move.
  • One second driving assembly 18 can drive the first movable block 16 and the second movable block 17 to move. Thus, there is no need to provide two second driving assemblies 18 to drive the first movable block 16 and the second movable block 17 respectively. Activities, in turn, can reduce the manufacturing cost of the dispensing device 10 and facilitate the mass production of the dispensing device 10.
  • two second driving components 18 may also be used to drive the first movable block 16 and the second movable block 17 to move, which can be specifically designed according to different situations. There is no limitation here.
  • the second drive assembly 18 includes a second drive motor 181, a second transmission assembly 182, a second push rod 183, and a third push rod 184.
  • the second drive motor 181 is used to drive the second transmission assembly 182 to rotate, the second push rod 183 is connected with the first movable block 16, and the third push rod 184 is connected with the second movable block 17.
  • the second driving motor 181 drives the second transmission assembly 182 to rotate
  • the second transmission assembly 182 drives the second push rod 183 and the third push rod 184 to move, thereby driving the first movable block 16 and the second movable block 17 to move.
  • the second driving motor 181 can drive the second transmission assembly 182 to rotate, and the second transmission assembly 182 can drive the second push rod 183 and the third push rod 184 to move while rotating, because the second push rod 183 and the first movable block 16 is connected, and the third push rod 184 is connected to the second movable block 17, so that when the second push rod 183 and the third push rod 184 move, the first movable block 16 and the second movable block 17 can be driven to move, and then As a result, the first movable block 16 and the second movable block 17 can isolate or communicate with the discharging channel 14 with a simple structure and easy implementation.
  • the movement of the first movable block 16 and the second movable block 17 can be realized by a second drive assembly 18. That is to say, in the embodiment of the present invention, it is driven by linkage.
  • separate control methods can also be used to drive the activities of the first movable block 16 and the second movable block 17.
  • two above-mentioned first driving components 13 may be provided to drive the activities of the first movable block 16 and the second movable block 17 respectively. It can be set according to different situations. There is no limitation here.
  • the side of the second push rod 183 facing the second transmission assembly 182 is provided with a second tooth portion 1831, and the third push rod 184 faces the second transmission assembly 182.
  • a third tooth portion 1841 is provided on one side, and the second tooth portion 1831 and the third tooth portion 1841 mesh with the second transmission assembly 182.
  • the second transmission assembly 182 may include a first driving wheel 1821, a first driven wheel 1822, a second driven wheel 1823, and a third driven wheel 1824, the first driving wheel 1821 and the second driven wheel 1821
  • the two driving motors 181 mesh, the first driving wheel 1821 meshes with the first driven wheel 1822, the second driven wheel 1823 and the third driven wheel 1824 mesh with the first driven wheel 1822, and the second tooth portion 1831 meshes with the second driven wheel 1823 ,
  • the third tooth portion 1841 meshes with the third driven wheel 1824, and the second tooth portion 1831 and the third tooth portion 1841 are opposed to each other.
  • the second drive motor 181 works, the second drive motor 181 can drive the first drive wheel 1821 rotates.
  • the first driving wheel 1821 When the first driving wheel 1821 rotates, the first driving wheel 1821 can drive the first driven wheel 1822 to rotate. Because the second driven wheel 1823 and the third driven wheel 1824 mesh with the first driven wheel 1822, so, When the first driven wheel 1822 rotates, the first driven wheel 1822 can drive the second driven wheel 1823 and the third driven wheel 1824 to rotate, wherein the rotation directions of the second driven wheel 1823 and the third driven wheel 1824 are opposite, because The second driven wheel 1823 meshes with the second tooth portion 1831, and the third driven wheel 1824 meshes with the third tooth portion 1841. When the second driven wheel 1823 and the third driven wheel 1824 rotate, they can pass through the second tooth portion 1831.
  • the third tooth portion 1841 drives the second push rod 183 and the third push rod 184 to move in opposite directions, so that the first movable block 16 and the second movable block 17 move in opposite directions.
  • the linkage of the first movable block 16 and the second movable block 17 can be realized through a second transmission assembly 182, and the structure is simple and easy to realize.
  • the second transmission assembly 182 may also include multiple driving wheels or multiple driven wheels.
  • the second transmission assembly 182 may include 2, 3, 4, 5, or other numbers of driving wheels and may include 4, 5, 6, or other numbers of driven wheels.
  • the specific number of driving wheels and driven wheels can be designed according to different situations. It only needs to be able to make the second push rod 183 and the third push rod 184 move in different directions. The specific number of driving wheels and driven wheels is not limited here.
  • both the first movable block 16 and the second movable block 17 are provided with a sealing structure (not shown in the figure), and the sealing structure is used to isolate the feeding channel 14 between the first movable block 16 and the second movable block 17 In the case of the first movable block 16 and the second movable block 17 at both ends of the unloading channel 14 sealed.
  • the feeding channel 14 at both ends of the first movable block 16 and the second movable block 17 can be sealed under the condition that the first movable block 16 and the second movable block 17 block the feeding channel 14, and Furthermore, external water vapor is prevented from entering the storage channel 111 from the discharging channel 14 at both ends of the first movable block 16 and the second movable block 17, which is beneficial to the storage of the washing block in the storage channel 111.
  • the sealing structure can be at least one of rubber and O-ring.
  • the sealing structure does not only include the above two structures.
  • the sealing structure may also adopt other structures. It can be designed according to different situations. There is no limitation here.
  • an embodiment of the present invention provides a door body assembly 100.
  • the door body assembly 100 includes a door body 101 and any of the above-mentioned dispensing device 10, and the dispensing device 10 is disposed on the door body 101.
  • the storage tube 11 can be used to store a plurality of washing blocks, and then the pushing part 12 is moved to realize the dispensing of the washing blocks. In this way, it is possible to reduce the user's need to add washing blocks to the dispensing device 10 The number of times provides convenience for the user, enables the user to use the placing device 10 more conveniently, and improves the user's experience.
  • the door 101 may be the door 101 of the washing appliance 1000, the door 101 can be used to open or close the cavity 1001 of the washing appliance 1000, and the dispensing device 10 can be used to put washing blocks into the cavity 1001 of the washing appliance 1000. In this way, there is no need to additionally install the dispensing device 10, which is convenient and quick.
  • the dispensing device 10 and the door body 101 are connected in a detachable connection. In this way, when the dispensing device 10 is damaged, it is convenient for the user to repair or replace the dispensing device 10. More specifically, the dispensing device 10 may be fixed on the door body 101 with screws. Of course, in other embodiments, the dispensing device 10 may be connected to the door body 101 in other ways. It can be set according to different situations. There is no limitation here.
  • an embodiment of the present invention provides a washing appliance 1000.
  • the washing appliance 1000 includes a cavity 1001 and the above-mentioned door assembly 100.
  • the cavity 1001 is formed with an accommodating space 1002, and the door assembly 100 and The cavity 1001 is rotatably connected.
  • the door assembly 100 opens or closes the accommodating space 1002 when the door assembly 100 rotates.
  • the dispensing device 10 is located in the accommodating space 1002.
  • the storage tube 11 can be used to store a plurality of washing blocks, and then the pushing part 12 is moved to realize the dispensing of the washing blocks. In this way, the number of times the user adds the washing blocks to the dispensing device 10 can be reduced. , Provides convenience for users, enables users to use the placing device 10 more conveniently, and improves user experience.
  • the washing appliance 1000 may be a dishwasher, a washing machine, and other appliances that require washing blocks.
  • the washing appliance 1000 can also be other appliances.
  • the specific type of the washing appliance 1000 can be set according to different situations. There is no limitation here.
  • the door assembly 100 is hinged to the washing appliance 1000.
  • the door assembly 100 and the washing appliance 1000 can also be connected by sliding connection, snap connection, or the like.
  • the specific connection method can be selected according to different situations. It is not limited here, as long as the door assembly 100 can open or close the cavity 1001 of the washing appliance 1000.
  • the washing appliance 1000 includes a dispensing device 10, and the dispensing device 10 includes a storage tube 11, which is used to store a plurality of washing blocks.
  • the prompt method include:
  • Step S10 Obtain the number of washing blocks in the storage pipe 11;
  • Step S20 prompt the number of washing blocks.
  • the storage tube 11 is used to store a plurality of washing blocks, and then obtain the number of washing blocks in the storage tube 11, and prompt the obtained number of washing blocks, so that the user can clearly understand The number of washing blocks in the storage tube 11, when the number of washing blocks is insufficient, the storage tube 11 is added with washing blocks, so as to prevent the shortage of the number of washing blocks put in, which is beneficial for the user to use the washing appliance 1000.
  • the storage tube 11 can store multiple washing blocks. In this way, it can reduce the step of adding the washing blocks to the storage tube 11 every time the user uses the washing appliance 1000, which saves time for the user and facilitates the user to use the washing machine.
  • the electrical appliance 1000 improves the user experience.
  • the dispensing device 10 includes a weight sensor arranged in the storage tube 11, and step S10 includes:
  • the number of washing blocks is calculated according to the ratio of the weight obtained by the weight sensor and the weight of each washing block.
  • the weight sensor is used to obtain the number of washing blocks, which has a simple structure and is easy to implement, which is beneficial to the production of the washing appliance 1000.
  • the weight sensor is located at the bottom of the storage pipe 11. Specifically, a valve (not shown in the figure) is provided in the storage pipe 11. The valve can be used to connect or block the storage pipe 11, and the weight sensor is provided on the valve. When the valve cuts off the storage pipe 11, the washing block is located on the valve and supported by the valve. In this way, the weight sensor can measure the weight of the washing block above the valve; when the valve connects the storage pipe 11, the washing The block can move in the storage tube 11.
  • valve may be provided at the discharge port 113.
  • the weight of each washing block is 5g.
  • the weight sensor measures the weight of the washing block in the storage tube 11.
  • the measured weight is 20g . It is determined that there are 4 washing blocks stored in the storage tube 11; when the measured weight is 25g, it is determined that there are 5 washing blocks stored in the storage tube 11; when the measured weight is 30g, it is determined that the storage tube 11 is stored
  • the number of washing blocks is not only 5g, and the specific weight of the washing blocks can be set according to different situations.
  • the ratio between the weight obtained by the weight sensor and the weight of each washing block will also change.
  • the ratio of the weight obtained by the weight sensor to the weight of each washing block is 6.
  • the weight of each washing block is 7 g
  • the ratio of the weight obtained by the weight sensor to the weight of each washing block is 7.
  • Step S10 includes:
  • Step S11 Obtain the arrangement position of the washing blocks in the storage pipe 11;
  • Step S12 Determine the number of washing blocks according to the arrangement position.
  • the above-mentioned arrangement position refers to the distance a between the washing block near the inlet 112 and the outlet 113.
  • each washing block Since the shape of each washing block is the same, the height b of each washing block is the same.
  • the washing block closest to the inlet 112 can be determined according to the The distance a of the material opening 113 is used to obtain the specific number of washing blocks.
  • the washing blocks are rectangular, and the height b of each washing block is 2cm.
  • the distance a of the feed port 113 is 10 cm, it is determined that there are 5 washing blocks stored in the storage tube 11; when the distance a between the washing block close to the feed port 112 and the discharge port 113 is 12 cm, it is determined that the storage tube
  • the number of washing blocks stored in the storage pipe 11 can be obtained by measuring the distance a between the washing blocks close to the feeding port 112 and the discharging port 113 and dividing by the height b of each washing block. Easy to operate.
  • the distance a between the washing block near the feeding port 112 and the discharging port 113 can be obtained by an infrared sensor.
  • the distance c between the washing block near the feed port 112 and the feed port 112 can be measured, and then the length d of the entire storage tube 11 is subtracted from the distance between the washing block near the feed port 112 and the feed port 112 c can obtain the distance a between the washing block close to the inlet 112 and the outlet 113.
  • the washing appliance 1000 includes a display device, and step S20 includes:
  • the control display device displays the number of washing blocks.
  • the user can obtain the number of washing blocks more intuitively through the display device, which is convenient and fast, and improves the user experience.
  • the display device may be a flexible display, which facilitates the installation of the display device.
  • the display device may also be another display, and the specific type of the display device may be set according to different situations. There is no limitation here.
  • the washing appliance 1000 may include a voice player, and the number of washing blocks may be notified to the user by playing a voice through the voice player.
  • the washing appliance 1000 may also include a transmitter, which is connected to an external smart device.
  • the external smart device includes but is not limited to a mobile phone, a computer, a tablet, and a smart bracelet.
  • the transmitter can transfer the washing block The quantity is sent to an external smart device, and then pushed through the external smart device to inform the user of the number of wash blocks.
  • the prompt method includes:
  • Step S30 Obtain washing instructions
  • Step S40 Control the dispensing device 10 to dispense a predetermined amount of washing blocks according to the washing instruction.
  • the dispensing device 10 can control the dispensing device 10 to dispense a predetermined amount of washing blocks according to the washing instruction, thereby preventing the amount of washing blocks discharged by the dispensing device 10 from being too many or too small, which is beneficial for the user to use the washing appliance 1000.
  • the washing instruction is generated according to the following steps:
  • Step S50 Obtain the quantity of tableware to be washed
  • Step S60 Generate a washing instruction according to the quantity of tableware.
  • the washing appliance 1000 can obtain the number of dishes to be washed, and then generate a washing instruction according to the number of dishes to be washed, and then control the feeding device 10 to operate according to the washing instruction, thereby preventing the feeding device 10 from being thrown
  • the number of washing blocks is too much or too little, which is beneficial to the user to use the washing appliance 1000.
  • the washing appliance 1000 can automatically generate washing instructions according to the number of dishes to be washed. In this way, the user does not need to perform extra operations, thereby making the washing appliance 1000 more intelligent and improving the user experience.
  • the number of tableware to be washed can be obtained by taking pictures.
  • the washing appliance 1000 includes a camera, and the camera is used to take a picture of the cavity of the washing appliance 1000, and then send the picture to the controller , The controller can analyze the photo to get the number of dishes to be washed.
  • the washing appliance 1000 may be provided with digital keys, and the user can input the quantity of tableware to be washed through the digital keys, and then the washing appliance 1000 can automatically control the operation of the dispensing device 10 according to the quantity, which is convenient, fast, and convenient. user experience.
  • the washing instruction is generated according to the following steps:
  • Step S70 Obtain the input received by the washing appliance 1000;
  • Step S80 Generate a washing instruction according to the received input.
  • the washing appliance 1000 can generate a washing instruction through the received input, and then use the washing instruction to control the dispensing device 10 to work. In this way, the user can control the operation of the washing appliance 1000 according to demand, so that the washing The electrical appliance 1000 is more personalized, convenient and fast, and enhances the user experience.
  • the washing appliance 1000 may include a plurality of buttons, such as a button for putting one washing block, a button for putting two washing blocks, and a button for putting three washing blocks.
  • the user presses the button for putting one washing block.
  • the washing appliance 1000 can control the dispensing device 10 to put one washing block; the user presses the button for putting two washing blocks.
  • the washing appliance 1000 can control the putting device 10 to put two washing blocks; the user presses the button for putting three washing blocks. Press the button.
  • the washing appliance 1000 can control the dispensing device 10 to dispense three washing blocks.
  • the washing appliance 1000 may have a light washing button, a medium washing button, and a heavy washing button.
  • the dispensing device 10 can be controlled to put a washing block;
  • the washing appliance 1000 can control the putting device 10 to put two washing blocks; in the case of pressing the heavy washing button, at this time, the washing appliance 1000 can control the putting device 10 to put three washing blocks.
  • the above is only an example to illustrate the type of input. It can be understood that, in other embodiments, the input type of the washing appliance 1000 may also be other types. It can be set according to different situations. There is no limitation here.
  • the prompt method includes:
  • Step S90 Determine whether the dispensing device 10 is abnormal during the operation of the washing appliance 1000;
  • Step S100 when the placing device 10 is abnormal, an alarm is issued.
  • the washing appliance 1000 can issue an alarm to inform the user that the inserting device 10 is abnormal. In this way, the user can control the washing appliance 1000 to stop working in time. This prevents the washing appliance 1000 from working under abnormal conditions and causing damage to the washing appliance 1000, which is beneficial for the user to use the washing appliance 1000.
  • the washing appliance 1000 includes an alarm device, and the abnormality of the dispensing device 10 may refer to the presence of non-washing objects in the dispensing device 10, such as keys, bottle caps, and the like.
  • the delivery device 10 may include another camera, which is used to take real-time photos of the interior of the storage tube 11 of the delivery device 10, and then send the taken photos to the controller, and the controller can Analyze the photos of to determine whether there are objects with non-washing blocks in the storage tube 11. If it is determined that there are objects with non-washing blocks, the alarm device is controlled to issue an alarm.
  • the alarm prompt may be a voice prompt, or a light prompt, or a combination of voice prompt or light prompt.
  • the alarm device can be a voice player.
  • the controller can control the operation of the voice player to issue a voice prompt notification
  • the alarm reminder is a light reminder
  • the alarm device can be a warning light.
  • the controller can control the operation of the warning light to send a light reminder to inform the user of the storage.
  • the controller can also be connected to an external smart device.
  • the controller can send an alarm prompt to the external smart device. In this way, the user can follow The external smart device is pushed to learn that there are non-washed objects in the storage tube 11.
  • the type of abnormality in the placing device 10 does not only include the above one, and can be specifically set according to different situations.
  • the abnormality of the dispensing device 10 may also be the abnormality of the first driving component 13 or the abnormality of the second driving component 18.
  • the washing appliance 1000 may be provided with different detection devices to detect the abnormal conditions. There is no limitation here.
  • the placing device 10 can also be provided with a maintenance window 20, and the user can repair the placing device 10 through the maintenance window 20.
  • the maintenance window 20 is provided with a mounting plate 201, and the mounting plate 201 is fixed by screws.
  • a maintenance window 20 is closed on the dispensing device 10.
  • the user can remove the mounting plate 201 and then go through the maintenance window 20 Take out the non-washing block objects in the dispensing device. In this way, the dispensing device 10 does not need to be directly disassembled and then repaired.
  • the dispensing device 10 can be repaired directly through the maintenance window 20, which is convenient and quick, and improves the user experience.
  • the washing appliance 1000 includes a dispensing device 10 and a controller.
  • the dispensing device 10 includes a storage tube 11.
  • the storage tube 11 is used to store a plurality of washing blocks. Quantity, and used to indicate the number of washing blocks.
  • the storage tube 11 is used to store a plurality of washing blocks, and then obtains the number of washing blocks in the storage tube 11, and prompts the obtained number of washing blocks, so that the user can clearly Understand the number of washing blocks in the storage tube 11, and if the number of washing blocks is insufficient, add washing blocks to the storage tube 11 to prevent the insufficient number of washing blocks, which is beneficial to the user to use the washing appliance 1000 .
  • the dispensing device 10 includes a weight sensor arranged in the storage tube 11 to obtain the number of washing blocks in the storage tube 11, and the controller is used to obtain the weight according to the weight obtained by the weight sensor and the weight of each washing block. The ratio is calculated to get the number of washing blocks.
  • the weight sensor is used to obtain the number of washing blocks, which has a simple structure and is easy to implement, which is beneficial to the production of the washing appliance 1000.
  • the storage tube 11 is strip-shaped so that a plurality of washing blocks are sequentially arranged in the storage tube 11 to obtain the number of washing blocks in the storage tube 11, and the controller is used to obtain the storage tube.
  • the number of washing blocks is obtained by obtaining the arrangement positions of the washing blocks in the storage tube 11, which has a simple structure and is easy to implement.
  • the washing appliance 1000 includes a display device, and the controller is used to control the display device to display the number of washing blocks.
  • the user can obtain the number of washing blocks more intuitively through the display device, which is convenient and fast, and improves the user experience.
  • the controller is used to obtain washing instructions, and is used to control the dispensing device 10 to dispense a predetermined amount of washing blocks according to the washing instructions.
  • the dispensing device 10 can control the dispensing device 10 to dispense a predetermined amount of washing blocks according to the washing instruction, thereby preventing the amount of washing blocks discharged by the dispensing device 10 from being too many or too small, which is beneficial for the user to use the washing appliance 1000.
  • the controller is used to obtain the quantity of tableware to be washed, and is used to generate washing instructions according to the quantity of tableware.
  • the washing appliance 1000 can obtain the number of dishes to be washed, and then generate a washing instruction according to the number of dishes to be washed, and then control the feeding device 10 to operate according to the washing instruction, thereby preventing the feeding device 10 from being thrown
  • the number of washing blocks is too much or too little, which is beneficial to the user to use the washing appliance 1000.
  • the washing appliance 1000 can automatically generate washing instructions according to the number of dishes to be washed. In this way, the user does not need to perform extra operations, thereby making the washing appliance 1000 more intelligent and improving the user experience.
  • the controller is used to obtain input received by the washing appliance 1000, and used to generate washing instructions according to the received input.
  • the washing appliance 1000 can generate a washing instruction through the received input, and then use the washing instruction to control the dispensing device 10 to work. In this way, the user can control the operation of the washing appliance 1000 according to demand, so that the washing The electrical appliance 1000 is more personalized, convenient and fast, and enhances the user experience.
  • the controller is used to determine whether the dispensing device 10 is abnormal during the operation of the washing appliance 1000, and is used to issue an alarm when the dispensing device 10 is abnormal.
  • the washing appliance 1000 can issue an alarm to inform the user that the inserting device 10 is abnormal. In this way, the user can control the washing appliance 1000 to stop working in time. This prevents the washing appliance 1000 from working under abnormal conditions and causing damage to the washing appliance 1000, which is beneficial for the user to use the washing appliance 1000.
  • controller of the present application is used to execute the above-mentioned prompt method of the washing appliance 1000, which is a brief description, and the control methods of the controller are not repeated here.
  • the setting of the controller can make the washing appliance 1000 more intelligent and improve the user experience.
  • the controller includes a control chip, and the control chip may include a single-chip microcomputer chip.
  • a non-volatile computer-readable storage medium containing computer-executable instructions according to an embodiment of the present invention When the computer-executable instructions are executed by one or more processors, the processor executes the prompt method of any of the above-mentioned embodiments .
  • the storage tube 11 is used to store a plurality of washing blocks, and then obtain the number of washing blocks in the storage tube 11, and prompt the obtained number of washing blocks, so that the user can clearly understand The number of washing blocks in the storage tube 11, when the number of washing blocks is insufficient, the storage tube 11 is added with washing blocks, so as to prevent the shortage of the number of washing blocks put in, which is beneficial for the user to use the washing appliance 1000.
  • the functional units in the various embodiments of the present application may be integrated into one processing module, or each unit may exist alone physically, or two or more units may be integrated into one module.
  • the above-mentioned integrated modules can be executed in the form of hardware or software function modules. If the integrated module is executed in the form of a software function module and sold or used as an independent product, it can also be stored in a computer readable storage medium.
  • the aforementioned storage medium may be a read-only memory, a magnetic disk or an optical disk, etc.

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Abstract

一种提示方法、洗涤电器(1000)及存储介质。提示方法用于洗涤电器(1000),洗涤电器(1000)包括投放装置(10),投放装置(10)包括储料管(11),储料管(11)用于存储多个洗涤块,提示方法包括:获取储料管(11)内的洗涤块的数量;提示洗涤块的数量。

Description

提示方法、洗涤电器及存储介质
优先权信息
本申请请求2020年3月5日向中国国家知识产权局提交的、专利申请号为202010147750.7的专利申请的优先权和权益,并且通过参照将其全文并入此处。
技术领域
本发明涉及洗涤电器,特别涉及一种提示方法、洗涤电器及存储介质。
背景技术
相关技术中,洗涤电器(例如洗碗机)通常利用带有自动投放功能的装置来投放清洁耗材。相关技术中的带有自动投放功能的装置,在进行投放清洁耗材的过程中,投放的清洁耗材的数量可能存在不足的情况,不利于用户使用洗涤电器。
发明内容
本发明的实施方式提供了一种提示方法、洗涤电器及存储介质。
本发明实施方式的提示方法,用于洗涤电器,所述洗涤电器包括投放装置,所述投放装置包括储料管,所述储料管用于存储多个洗涤块,所述提示方法包括:
获取所述储料管内的洗涤块的数量;
提示所述洗涤块的数量。
本发明实施方式的提示方法,储料管用于存储多个洗涤块,然后获取储料管内的洗涤块的数量,并提示获取到的洗涤块的数量,如此,用户能够清楚的了解储料管内的洗涤块的数量,在洗涤块数量不足的情况下,给储料管增加洗涤块,从而防止投放的洗涤块的数量存在不足的情况,有利于用户使用洗涤电器。
在某些实施方式中,所述投放装置包括设置在所述储料管内的重量传感器,所述获取所述储料管内的洗涤块的数量,包括:
根据所述重量传感器获取的重量和每个所述洗涤块的重量的比值计算得到所述洗涤块的数量。
在某些实施方式中,所述储料管呈条状以使所述多个洗涤块在所述储料管内顺次排布,所述获取所述储料管内的洗涤块的数量,包括:
获取所述储料管内的洗涤块的排布位置;
根据所述排布位置确定所述洗涤块的数量。
在某些实施方式中,所述洗涤电器包括显示装置,所述提示所述洗涤块的数量包括:
控制所述显示装置显示所述洗涤块的数量。
在某些实施方式中,所述提示方法包括:
获取洗涤指令;
根据所述洗涤指令控制所述投放装置投放预定量的所述洗涤块。
在某些实施方式中,所述洗涤指令根据以下步骤生成:
获取需洗涤的餐具的数量;
根据所述餐具的数量生成所述洗涤指令。
在某些实施方式中,所述洗涤指令根据以下步骤生成:
获取所述洗涤电器接收到的输入;
根据所述接收到的输入生成所述洗涤指令。
在某些实施方式中,所述提示方法包括:
在所述洗涤电器运行的过程中判断所述投放装置是否异常;
在所述投放装置异常的情况下发出报警提示。
本发明实施方式的洗涤电器包括投放装置和控制器,所述投放装置包括储料管,所述储料管用于存储多个洗涤块,所述控制器用于获取所述储料管内的洗涤块的数量,及用于提示所述洗涤块的数量。。
本发明实施方式的洗涤电器,储料管用于存储多个洗涤块,然后获取储料管内的洗涤块的数量,并提示获取到的洗涤块的数量,如此,用户能够清楚的了解储料管内的洗涤块的数量,在洗涤块数量不足的情况下,给储料管增加洗涤块,从而防止投放的洗涤块的数量存在不足的情况,有利于用户使用洗涤电器。
在某些实施方式中,所述投放装置包括设置在所述储料管内的重量传感器,所述获取所述储料管内的洗涤块的数量,所述控制器用于根据所述重量传感器获取的重量和每个所述洗涤块的重量的比值计算得到所述洗涤块的数量。
在某些实施方式中,所述储料管呈条状以使所述多个洗涤块在所述储料管内顺次排布,所述获取所述储料管内的洗涤块的数量,所述控制器用于获取所述储料管内的洗涤块的排布位置,及用于根据所述排布位置确定所述洗涤块的数量。
在某些实施方式中,所述洗涤电器包括显示装置,所述控制器用于控制所述显示装置显示所述洗涤块的数量。
在某些实施方式中,所述控制器用于获取洗涤指令,及用于根据所述洗涤指令控制所述投放装置投放预定量的所述洗涤块。
在某些实施方式中,所述控制器用于获取需洗涤的餐具的数量,及用于根据所述餐具的数量生成所述洗涤指令。
在某些实施方式中,所述控制器用于获取所述洗涤电器接收到的输入,及用于根据所述接收到的输入生成所述洗涤指令。
在某些实施方式中,所述控制器用于在所述洗涤电器运行的过程中判断所述投放装置是否异常,及用于在所述投放装置异常的情况下发出报警提示。
本发明实施方式的一种包含计算机可执行指令的非易失性计算机可读存储介质,当所述计算机可执行指令被一个或多个处理器执行时,使得所述处理器执行上述任一实施方式的提示方法。
本发明实施方式的存储介质,储料管用于存储多个洗涤块,然后获取储料管内的洗涤块的数量,并提示获取到的洗涤块的数量,如此,用户能够清楚的了解储料管内的洗涤块的数量,在洗涤块数量不足的情况下,给储料管增加洗涤块,从 而防止投放的洗涤块的数量存在不足的情况,有利于用户使用洗涤电器。
本发明的附加方面和优点将在下面的描述中部分给出,部分将从下面的描述中变得明显,或通过本发明的实践了解到。
附图说明
本发明的上述和/或附加的方面和优点从结合下面附图对实施方式的描述中将变得明显和容易理解,其中:
图1是本发明实施方式的投放装置的结构示意图;
图2是本发明实施方式的投放装置的平面示意图;
图3是本发明实施方式的投放装置的又一平面示意图;
图4是本发明实施方式的投放装置的又一平面示意图;
图5是本发明实施方式的投放装置的再一平面示意图;
图6是本发明实施方式的投放装置的再一平面示意图;
图7是图6中I部分的放大示意图;
图8是本发明实施方式的投放装置的储料通道和推动部的平面示意图;
图9是本发明实施方式的投放装置的储料通道和推动部的又一平面示意图;
图10是本发明实施方式的投放装置的储料通道和推动部的再一平面示意图;
图11是本发明实施方式的投放装置的储料通道和推动部的又一平面示意图;
图12是本发明实施方式的投放装置的储料通道和推动部的另一平面示意图;
图13是本发明实施方式的门体组件的结构示意图;
图14是本发明实施方式的门体组件的平面示意图;
图15是本发明实施方式的门体组件的又一平面示意图;
图16是本发明实施方式的洗涤电器的结构示意图;
图17是本发明实施方式的洗涤电器的又一结构示意图;
图18是本发明实施方式的投放装置的控制方法的流程图;
图19是本发明实施方式的投放装置的控制方法的又一流程图;
图20是本发明实施方式的储料管的平面示意图;
图21是本发明实施方式的投放装置的控制方法的又一流程图;
图22是本发明实施方式的投放装置的控制方法的再一流程图;
图23是本发明实施方式的投放装置的控制方法的又一流程图;
图24是本发明实施方式的投放装置的控制方法的另一流程图。
洗涤电器1000、腔体1001、容置空间1002、门体组件100、门体101、投放装置10、储料管11、储料通道111、进料口112、出料口113、盖板114、推动部12、穿孔121、第一驱动组件13、第一驱动电机131、第一传动组件132、第一推杆133、第一齿部1331、下料通道14、下料口141、活动组件15、第一活动块16、第二活动块17、第二驱动组件18、第二驱动电机181、第二传动组件182、第一主动轮1821、第一从动轮1822、第二从动轮1823、第三从动轮1824、第二推杆183、第二齿部1831、第三推杆184、第三齿部1841、抵靠部19、维修窗口20、安装板201。
具体实施方式
下面详细描述本发明的实施方式,所述实施方式的实施方式在附图中示出,其中自始至终相同或类似的标号表 示相同或类似的元件或具有相同或类似功能的元件。下面通过参考附图描述的实施方式是示例性的,仅用于解释本发明,而不能理解为对本发明的限制。
请参阅图1至图3,本发明实施方式提供的一种投放装置10,投放装置10包括储料管11和推动部12。储料管11形成有储料通道111,储料通道111用于存储多个洗涤块。推动部12相对于储料管11移动设置,推动部12能够在第一位置和第二位置之间移动,在推动部12位于第一位置的情况下,推动部12阻挡洗涤块从储料通道111中掉落至储料通道111外,在推动部12位于第二位置的情况下,推动部12使至少一个洗涤块从储料通道111中掉落至储料通道111外。
本发明实施方式的投放装置10,储料管11能够用于存放多个洗涤块,然后通过推动部12的移动来实现洗涤块的投放,如此,能够减少用户给投放装置10添加洗涤块的次数,为用户提供了便利,使得用户能够较为方便的使用投放装置10,提升了用户的体验。
在本发明实施方式中,用户能够将多个洗涤块存放至储料管11的储料通道111中,然后控制推动部12在第一位置和第二位置之间移动,以实现洗涤块的投放,如此,用户每次在使用投放装置10时,不需要先将洗涤块放入投放装置10内,进而能够减少用户给投放装置10添加洗涤块的次数,为用户提供了便利,使得用户能够较为方便的使用投放装置10,提升了用户的体验。
进一步地,储料管11可以采用塑料制成。塑料具有价格经济、易获取、易加工的特点,如此能够降低储料管11的制作成本,有利于储料管11的量产化,进而有利于投放装置10的量产化。另外,如此设置,能够降低投放装置10的整体重量,以使得用户能够较为方便的使用投放装置10,提升了用户的体验。可以理解的是,在其他实施方式中,储料管11也可以采用其他材料制成,具体可以根据实际情况来设置储料管11的具体材质。例如,在一些实施方式中,储料管11还可以采用不锈钢、铁等材料制成。在此不对储料管11的具体材质。
具体地,洗涤块可以为圆形、矩形、多边形等。具体可以根据不同情况来设置洗涤块的具体形状。在此不做限定。
请再次参阅图1至图3,更进一步地,储料管11包括有进料口112和出料口113,进料口112与出料口113均与储料通道111连通,推动部12位于出料口113处,如此设置,推动部12在第一位置和第二位置之间移动的情况下,能够控制洗涤块的掉落,结构简单,易于实现。
在一些实施方式中,进料口112处可以铰接有盖板114,盖板114被配置为在转动的情况下打开或关闭进料口112,如此,用户能够通过转动盖板114来实现进料口112的打开和关闭,方便快捷。当然,在其他实施方式中,盖板114也可以通过其他方式来打开或关闭进料口112。例如,在其他实施方式中,盖板114可以移动地设置在进料口112处,以使得在盖板114移动的过程中打开或关闭进料口112。具体可以根据不同情况来选择。在此不做限定。
进一步地,盖板114可以设置有密封圈(图未示出),如此,在盖板114关闭进料口112的情况下,使得储料通道111的密封效果更加好,从而能够防止外部空气进入储料通道111,导致储料通道111内的洗涤块被污染的情况发生。有利于洗涤块的存储。
在某些实施方式中,储料通道111呈条状,储料通道111用于使多个洗涤块顺次排布。例如,储料通道111可以使得多个洗涤块从上至下顺次排布。
如此设置,有利于洗涤块的按照顺序排布,以使得储料通道111能够存储较多的洗涤块。另外,储料通道111呈条状 也有利于洗涤块在重力的作用下掉落,进而防止洗涤块在储料通道111内出现堵塞的情况。
在本实施方式中,储料通道111的横截面积为矩形。较佳地,为了使得洗涤块能够跟储料通道111之间形成更好的配合,此时,可将洗涤块设计为矩形。当然,在其他实施方式中,储料通道111的横截面积也可以为其他形状。具体可以根据不同情况来设置。需要指出的是,在储料通道111为其他形状的情况下,洗涤块的形状也可以相应进行改变,以使得洗涤块能够与储料通道111之间形成更好的配合。
请参阅图4至图7,在某些实施方式中,储料通道111的数量为多个,多个储料通道111并列排布,推动部12位于第二位置时,对应的一个储料通道111中的至少一个洗涤块从储料通道111中掉落至储料通道111外。
通过多个储料通道111的设置,使得投放装置10能够存储较多的洗涤块,如此,用户不需要时常给储料通道111添加洗涤块,减少了用户给投放装置10添加洗涤块的次数,为用户提供了便利,使得用户能够较为方便的使用投放装置10,提升了用户的体验。
另外,多个储料通道111并列排布,具体地是,多个储料通道111沿着投放装置10的长度方向并列排布,如此,有利于推动部12在移动的情况下控制洗涤块的掉落,并能够减少投放装置10的厚度,有利于投放装置10的轻薄化设计。
需要指出的是,在本实施方式中,储料管11的数量为一个,储料管11内形成有多个储料通道111。当然,在其他实施方式中,储料管11的数量可以为多个,每个储料管11内形成有一个储料通道111。具体储料管11的数量可以根据不同情况来设置。在此不做限定。
请参阅图8和图9,在某些实施方式中,推动部12用在第一位置和第二位置之间移动以使多个储料通道111中的洗涤块交替掉落至储料通道111外。
以下通过举例来说明交替掉落的具体方式:
请参阅图8,在一个例子中,储料通道111包括储料通道111A和储料通道111B,储料通道111A和储料通道111B并列排布。第一次投放时,控制推动部12位于储料通道111A的第二位置,即,储料通道111A内的洗涤块掉落至储料通道111A外,如图8中箭头所示;请参阅图9,第二次投放时,控制推动部12位于储料通道111B的第二位置,即,储料通道111B内的洗涤块掉落至储料通道111B外,如图9中箭头所示;请再次参阅图8,第三次投放时,再次控制推动部12位于储料通道111A的第二位置,即,储料通道111A内的洗涤块掉落至储料通道111A外;请再次参阅图9,第四次投放时,再次控制推动部12位于储料通道111B的第二位置,即,储料通道111B内的洗涤块掉落至储料通道111B外。以此类推,直至储料通道111A和储料通道111B内的洗涤块用尽为止。
当然,在其他实施方式中,投放装置10也可以采用其他方式来进行投放操作。例如,储料通道111包括储料通道111A和储料通道111B,储料通道111A和储料通道111B并列排布,储料通道111A和储料通道111B内均存储有3个洗涤块。请参阅图8,第一次投放时,控制推动部12位于储料通道111A的第二位置,即,储料通道111A内的洗涤块掉落至储料通道111A外;请再次参阅图8,第二次投放时,再次控制推动部12位于储料通道111A的第二位置,即,储料通道111A内的洗涤块掉落至储料通道111A外;请再次参阅图8,第三次投放时,再次控制推动部12位于储料通道111A的第二位置,即,储料通道111A内的洗涤块掉落至储料通道111A外,此时,储料通道111A内的洗涤块用尽。
进一步地,请参阅图9,在第四次投放时,控制推动部12位于储料通道111B的第二位置,即,储料通道111B内的 洗涤块掉落至储料通道111B外;请再次参阅图9,在第五次投放时,再次控制推动部12位于储料通道111B的第二位置,即,储料通道111B内的洗涤块掉落至储料通道111B外;请再次参阅图9,在第六次投放时,再次控制推动部12位于储料通道111B的第二位置,即,储料通道111B内的洗涤块掉落至储料通道111B外,此时,储料通道111B内的洗涤块用尽。
由上述可知,洗涤块的投放顺序有多种情况,具体可以根据不同情况来进行选择。在此不做限定。
请参阅图2至图7,在某些实施方式中,投放装置10包括第一驱动组件13,第一驱动组件13连接推动部12,第一驱动组件13用于驱动推动部12在第一位置和第二位置之间移动。
如此设置,能够实现推动部12的移动,结构简单,易于实现。
请再次参阅图2至图7,在某些实施方式中,第一驱动组件13包括第一驱动电机131、第一传动组件132和第一推杆133,第一驱动电机131用于驱动第一传动组件132转动,第一推杆133与推动部12连接。
在第一驱动电机131驱动第一传动组件132转动的情况下,第一传动组件132带动第一推杆133移动,以使推动部12在第一位置和第二位置之间运动。
第一驱动电机131能够驱动第一传动组件132转动,第一传动组件132能够在转动的情况下带动第一推杆133移动,由于第一推杆133与推动部12连接,如此,在第一推杆133移动的情况下能够驱动推动部12移动,进而使得推动部12在第一位置和第二位置之间运动,结构简单,易于实现。
可以理解的是,在其他实施方式中,第一驱动组件13也可以为其他结构,例如,在一个实施方式中,第一驱动组件13包括弹簧和拉绳,弹簧的一端与推动部12连接,弹簧的另一端与投放装置10的内壁固定,拉绳的一端与推动部12的远离弹簧的一端连接,绳索的另一端露出于投放装置10,如此,用户拉动绳索能够提供第一方向的拉力来拉动推动部12,以使得推动部12朝着第一方向运动,在拉动推动部12的过程中,弹簧发生形变,此时,弹簧能够提供第二方向的拉力拉动推动部12,以使得推动部12朝着第二方向运动,其中,第一方向和第二方向的方向相反。
如此,在用户提供第一方向的拉力大于第二方向的拉力即可实现推动部12朝着第一方向运动,在用户提供第一方向的拉力小于第二方向的拉力即可实现推动部12朝着第二方向运动,也即是说,用户能够绳索和弹簧来实现推动部12朝着第一方向或第二方向运动,结构简单,易于实现。又例如,第一驱动组件13还可以为液压结构、油压结构等。具体可以根据不同情况实际情况来选择第一驱动组件13的具体类型。在此不做限定。
请参阅图2至图7,在某些实施方式中,第一推杆133朝向第一传动组件132的一侧设置有第一齿部1331,第一齿部1331与第一传动组件132啮合。
如此设置,在第一传动组件132转动的情况下,能够带动第一推杆133移动,进而实现推动部12的移动。
其中,第一传动组件132可包括一个齿轮、或两个齿轮、或三个齿轮等,具体齿轮的数量可以根据实际情况来选择,在此不做限定。需要指出的是,在第一传动组件132包括多个齿轮的情况下,多个齿轮啮合设置。
请参阅图2至图7,在某些实施方式中,推动部12形成有穿孔121,穿孔121贯穿推动部12,在推动部12位于第二位置的情况下,穿孔121与储料通道111连通,以使储料通道111内的洗涤块落入穿孔121并掉落至储料通道111外。
如此设置,在推动部12位于第二位置的情况下,穿孔121与储料通道111连通,也即是说,在推动部12从第一位置移动至第二位置之后,储料通道111内的洗涤块才能够落入至穿孔121并掉落至储料通道111外,如此能够防止储料通道 111内的洗涤块错误地落下的情况发生,进而有利于投放装置10的工作。
其中,穿孔121可以为圆形、矩形、三角形或其他多边形等。具体可以根据不同情况来设置穿孔121的具体形状。在此不做限定。
需要指出的是,穿孔121的尺寸大于洗涤块的尺寸,如此有利于洗涤块在穿孔121内的活动,防止洗涤块卡在穿孔121中,影响投放装置10的正常工作的情况发生。
在本实施方式中,投放装置10包括有多个抵靠部19,在推动部12位于第二位置的情况下,穿孔121远离储料通道111的一侧至少部分地被抵靠部19封闭,如此能够防止在推动部12位于第二位置的情况下,穿孔121内的洗涤块直接从穿孔121内落下的情况,有利于对洗涤块投放进行控制。
具体地,穿孔121的数量可以为一个、两个或三个等。穿孔121的具体数量可以根据不同情况来设计。在此不做限定。
请参阅图2至图7,在某些实施方式中,投放装置10包括下料通道14,在推动部12位于第三位置的情况下,储料通道111内的洗涤块穿过穿孔121并掉落至下料通道14。
下料通道14的设置使得洗涤块能够掉落至预设的位置,结构简单,易于实现。
在本实施方式中,下料通道14的数量为一个。当然,在其他实施方式中,下料通道14的数量可以为多个。具体可以根据不同情况来选择下料通道14的具体数量。在此不做限定。
进一步地,下料通道14的尺寸大于洗涤块的尺寸,如此有利于洗涤块在下料通道14内的活动,防止洗涤块卡在下料通道14中,影响投放装置10的正常工作的情况发生。
其中,下料通道14位于推动部12远离储料通道111的一侧。
进一步地,下料通道14形成有下料口141,下料通道14内的洗涤块从下料口141掉落至下料通道14外。
以下通过举例对第一位置、第二位置和第三位置的具体位置关系进行解释说明:
请参阅图8至图12,储料通道111包括储料通道111A和储料通道111B,储料通道111A和储料通道111B并列排布,推动部12包括一个穿孔121,下料通道14的数量为一个,且下料通道14位于储料通道111A和储料通道111B的中间位置。
请参阅图10和图11,在推动部12位于第一位置的情况下,此时,穿孔121与储料通道111A的出料口113和储料通道111B的出料口113错开,并且穿孔121此时与下料通道14也处于错开状态,也即是说,在这样的情况下,储料通道111A和储料通道111B中的洗涤块不能够落入至穿孔121中,并且穿孔121内存在的洗涤块同样不能够落入至下料通道14内。
请参阅图3、图8和图9,在推动部12位于第二位置的情况下,此时,穿孔121与储料通道111A的出料口113和储料通道111B的出料口113中的一个连通,并且,穿孔121的另一侧被抵靠部19封闭,也即是说,在这样的情况下,储料通道111A或储料通道111B中的洗涤块能够落入穿孔121中并抵靠在抵靠部19,如此,穿孔121内的洗涤块不能够落入盒子下料通道14内。
请参阅图12,在推动部12位于第三位置的情况下,此时,穿孔121与储料通道111A的出料口113和储料通道111B的出料口113错开,并且穿孔121此时与下料通道14处于连通状态,也即是说,在这样的情况下,穿孔121内的洗涤块能够落入至下料通道14内。
如此,通过推动部12在第一位置、第二位置和第三位置之间移动,以控制储料通道111内的洗涤块的落下,结构简单,易于实现。
请参阅图2至图7,在某些实施方式中,下料通道14内设置有活动组件15,活动组件15能够活动以使下料通道14隔断或连通,活动组件15在使下料通道14连通的情况下使下料通道14内的洗涤块从下料通道14内掉落至下料通道14外。
通过活动组件15的设置,能够使下料通道14隔断或者是连通,如此,方便对下料通道14内的洗涤块的活动进行控制,进而避免从穿孔121掉落至下料通道14内的固态洗涤剂直接掉落至下料通道14外的情况发生。另外,活动组件15在隔断下料通道14时,下料通道14外的水汽或者其他物质进入下料通道14时,能够被活动组件15给阻挡,进而防止下料通道14外的水汽或者其他物质经过下料通道14进入储料通道111,导致储料通道111内的洗涤块的质量受到影响,也即是说,活动组件15具有防潮、防尘、控制洗涤块的活动的优点。
在本实施方式中,活动组件15呈板状。下料通道14内形成有多个滑动通道,多个滑动通道与下料通道14连通,活动组件15用于通过多个滑动通道移动至下料通道14内以隔断下料通道14,或者通过多个滑动通道从下料通道14内向外移动以使得下料通连通。多个滑动通道的设置可以对活动组件15进行导向,以防止活动组件15的移动出现偏差导致活动组件15不能够使下料通道14隔断。
在设置多个滑动通道的情况下,活动组件15顺着滑动通道移动即可实现连通或者是隔断下料通道14,结构简单,易于实现。
请进一步参阅图2至图7,在某些实施方式中,活动组件15包括第一活动块16和第二活动块17,第一活动块16与第二活动块17在下料通道14内间隔排布,第一活动块16位于第二活动块17和推动部12之间,在第一活动块16隔断下料通道14的情况下,第二活动块17使下料通道14连通或隔断。
在第一活动块16连通下料通道14的情况下,第二活动块17使下料通道14连通或隔断。
如此设置,通过第一活动块16和第二活动块17来对下料通道14内的洗涤块的活动进行控制,控制效果较好。
进一步地,第一活动块16隔断或连通下料通道14的情况下,第二活动块17使下料通道14连通或隔断,如此,在第一活动块16或第二活动块17在工作的情况下,第一活动块16或第二活动块17的其中一个能够隔断下料通道14,如此,在投放洗涤块的过程中,能够避免外部空气进入下料通道14并通过下料通道14进入储料通道111的情况,有利于保护储料通道111内的洗涤块。
例如,在第一活动块16隔断下料通道14的情况下,洗涤块位于第一活动块16上,此时,第二活动块17能够使下料通道14隔断或者是连通,如此,能够防止外部空气穿过第一活动块16进入储料通道111,有利于储料通道111内的洗涤块的存储。在第一活动块16连通下料通道14的情况下,第一活动块16上的洗涤块落入至第二活动块17上,此时,第二活动块17能够使下料通道14隔断,如此,能够防止外部空气进入第二活动块17与第一活动块16之间的区域,进而防止第二活动块17和第一活动块16之间的空气穿过第一活动块16进入储料通道111,有利于储料通道111内的洗涤块的存储。在第二活动块17连通下料通道14的情况下,第二活动块17上的洗涤块能够从下料通道14落出,此时,第一活动块16能够使下料通道14隔断,如此,能够防止第二活动块17与第一活动块16之间的区域空气穿过第一活动块16进入储料通 道111,有利于储料通道111内的洗涤块的存储。
由上述可知,第一活动块16与第二活动块17的共同工作能够防止外部空气进入储料通道111,进而有利于储料通道111内的洗涤块的存放。
请再次参阅图2至图7,在某些实施方式中,投放装置10包括第二驱动组件18,第二驱动组件18连接第一活动块16和第二活动块17,第二驱动组件18用于驱动第一活动块16和第二活动块17活动。
通过一个第二驱动组件18即可驱动第一活动块16和第二活动块17活动,如此,不需要设置两个第二驱动组件18来分别驱动第一活动块16和第二活动块17的活动,进而可以降低投放装置10的制造成本,有利于投放装置10的量产化。
可以理解的是,在其他实施方式中,也可以采用两个第二驱动组件18来分别驱动第一活动块16和第二活动块17活动,具体可以根据不同情况来进行设计。在此不做限定。
请继续参阅图2至图7,在某些实施方式中,第二驱动组件18包括第二驱动电机181、第二传动组件182、第二推杆183和第三推杆184,第二驱动电机181用于驱动第二传动组件182转动,第二推杆183与第一活动块16连接,第三推杆184与第二活动块17连接。
在第二驱动电机181驱动第二传动组件182转动的情况下,第二传动组件182带动第二推杆183和第三推杆184移动,从而带动第一活动块16和第二活动块17活动。
第二驱动电机181能够驱动第二传动组件182转动,第二传动组件182能够在转动的情况下带动第二推杆183和第三推杆184移动,由于第二推杆183与第一活动块16连接,第三推杆184与第二活动块17连接,如此,在第二推杆183和第三推杆184移动的情况下能够驱动第一活动块16和第二活动块17移动,进而使得第一活动块16和第二活动块17能够使下料通道14隔断或者是连通,结构简单,易于实现。
在本发明实施方式中,通过一个第二驱动组件18即可实现第一活动块16和第二活动块17的活动,也即是说,在本发明实施方式中,是通过联动的方式来驱动第一活动块16和第二活动块17的活动。当然,在其他实施方式中,也可以采用分别控制的方式来驱动第一活动块16和第二活动块17的活动。例如,可以设置两个上述第一驱动组件13来分别驱动第一活动块16和第二活动块17的活动。具体可根据不同情况来进行设置。在此不做限定。
请再次参阅图2至图7,在某些实施方式中,第二推杆183朝向第二传动组件182的一侧设置有第二齿部1831,第三推杆184朝向第二传动组件182的一侧设置有第三齿部1841,第二齿部1831和第三齿部1841与第二传动组件182啮合。
如此设置,在第二传动组件182转动的情况下,能够带动第二推杆183和第三推杆184移动,进而实现第一活动块16和第二活动块17的移动。
请参阅图6和图7,具体地,第二传动组件182可包括有第一主动轮1821、第一从动轮1822、第二从动轮1823和第三从动轮1824,第一主动轮1821与第二驱动电机181啮合,第一主动轮1821与第一从动轮1822啮合,第二从动轮1823和第三从动轮1824与第一从动轮1822啮合,第二齿部1831与第二从动轮1823啮合,第三齿部1841和第三从动轮1824啮合,第二齿部1831和第三齿部1841对立设置,在第二驱动电机181工作的情况下,第二驱动电机181能够带动第一主动轮1821转动,在第一主动轮1821转动的情况下,第一主动轮1821能够带动第一从动轮1822转动,由于第二从动轮1823与第三从动轮1824与第一从动轮1822啮合,如此,在第一从动轮1822转动的情况下,第一从动轮1822能够带动第二从 动轮1823和第三从动轮1824转动,其中,第二从动轮1823和第三从动轮1824的转动方向相反,由于第二从动轮1823与第二齿部1831啮合,第三从动轮1824与第三齿部1841啮合,在第二从动轮1823和第三从动轮1824转动的情况下,能够通过第二齿部1831和第三齿部1841带动第二推杆183和第三推杆184朝着相反的方向移动,进而实现第一活动块16和第二活动块17朝着相反的方向移动。也即是说,通过一个第二传动组件182即可实现第一活动块16和第二活动块17的联动,结构简单,易于实现。
可以理解的是,在其他实施方式中,第二传动组件182也可包括多个主动主动轮或者多个从动轮,例如,在一个例子中,第二传动组件182可包括2个、3个、4个、5个或者其他数量的主动轮和可包括4个、5个、6个或者其他数量的从动轮。具体可以根据不同情况来设计主动轮和从动轮的具体数量。只需要能够使得第二推杆183和第三推杆184朝着不同的方向运动即可。在此不对主动轮和从动轮的具体数量做限定。
在某些实施方式中,第一活动块16和第二活动块17均设置有密封结构(图未示),密封结构用于在第一活动块16和第二活动块17隔断下料通道14的情况下,使第一活动块16和第二活动块17两端的下料通道14密封。
如此,通过密封结构的设置,能够在第一活动块16和第二活动块17隔断下料通道14的情况下,使第一活动块16和第二活动块17两端的下料通道14密封,进而防止外部水汽从第一活动块16与第二活动块17两端的下料通道14进入储料通道111,有利于储料通道111内的洗涤块的存放。
其中,密封结构可以为橡胶、O型圈中的至少一种结构。当然,密封结构不仅仅只包括上述两种结构。在其他实施方式中,密封结构也可以采用其他结构。具体可以根据不同情况来设计。在此不做限定。
请参阅图13至图15,本发明实施方式提供的一种门体组件100,门体组件100包括门体101和上述任一项的投放装置10,投放装置10设置在门体101。
本发明实施方式的门体组件100,储料管11能够用于存放多个洗涤块,然后通过推动部12的移动来实现洗涤块的投放,如此,能够减少用户给投放装置10添加洗涤块的次数,为用户提供了便利,使得用户能够较为方便的使用投放装置10,提升了用户的体验。
其中,门体101可以为洗涤电器1000的门体101,门体101能够用于打开或关闭洗涤电器1000的腔体1001,投放装置10能够用于给洗涤电器1000的腔体1001投放洗涤块,如此,不需要另外安装投放装置10,方便快捷。
进一步地,投放装置10与门体101采用可拆卸连接的方式进行连接,如此,在投放装置10出现损坏的情况,方便用户对投放装置10进行维修或者更换。更具体地说,投放装置10可以采用螺丝固定在门体101上。当然,在其他实施方式中,投放装置10可以采用其他方式与门体101进行连接。具体可以根据不同情况来设置。在此不做限定。
请参阅图16至图17,本发明实施方式提供的一种洗涤电器1000,洗涤电器1000包括腔体1001和上述的门体组件100,腔体1001形成有容置空间1002,门体组件100与腔体1001转动连接,门体组件100在转动的情况下打开或关闭容置空间1002,在门体组件100关闭容置空间1002的情况下,投放装置10位于容置空间1002内。
本发明实施方式的洗涤电器1000,储料管11能够用于存放多个洗涤块,然后通过推动部12的移动来实现洗涤块的投放,如此,能够减少用户给投放装置10添加洗涤块的次数,为用户提供了便利,使得用户能够较为方便的使用投放装置10,提升了用户的体验。
其中,洗涤电器1000可以为洗碗机、洗衣机等需要用到洗涤块的电器。当然,洗涤电器1000也可以为其他电器。具体可以根据不同情况来设置洗涤电器1000的具体类型。在此不做限定。
进一步地,门体组件100与洗涤电器1000铰接。当然,在其他实施方式中,门体组件100与洗涤电器1000也可以采用滑动连接、卡接等方式进行连接。具体的连接方式可以根据不同情况来选择。在此不做限定,只需要门体组件100能够打开或关闭洗涤电器1000的腔体1001即可。
请参阅图18,本发明实施方式的提示方法,用于洗涤电器1000,洗涤电器1000包括投放装置10,投放装置10包括储料管11,储料管11用于存储多个洗涤块,提示方法包括:
步骤S10:获取储料管11内的洗涤块的数量;
步骤S20:提示洗涤块的数量。
本发明实施方式的提示方法,储料管11用于存储多个洗涤块,然后获取储料管11内的洗涤块的数量,并提示获取到的洗涤块的数量,如此,用户能够清楚的了解储料管11内的洗涤块的数量,在洗涤块数量不足的情况下,给储料管11增加洗涤块,从而防止投放的洗涤块的数量存在不足的情况,有利于用户使用洗涤电器1000。
储料管11能够存储多个洗涤块,如此,能够减少用户在每次使用洗涤电器1000时,先将洗涤块添加至储料管11内的步骤,给用户节省了时间,有利于用户使用洗涤电器1000,提升了用户的体验。
在某些实施方式中,投放装置10包括设置在储料管11内的重量传感器,步骤S10包括:
根据重量传感器获取的重量和每个洗涤块的重量的比值计算得到洗涤块的数量。
通过重量传感器来获取洗涤块的数量,结构简单,易于实现,有利于洗涤电器1000的生产。
其中,重量传感器位于储料管11的底部,具体地,储料管11内设置有阀门(图未示),阀门能够用于使储料管11连通或者是隔断,重量传感器设置在阀门上,在阀门使储料管11隔断的情况下,洗涤块位于阀门上且被阀门支撑,如此,重量传感器能够对阀门上方的洗涤块进行测重;在阀门使储料管11连通的情况下,洗涤块能够在储料管11内运动。
进一步地,阀门可设置在出料口113处。
以下对重量传感器的工作方式进行解释说明:
在一个例子中,每个洗涤块的重量为5g,此时,在阀门隔断储料管11的情况下,重量传感器对储料管11内的洗涤块进行测重,在测得重量为20g时,判定储料管11内存储有4块洗涤块;在测得重量为25g时,判定储料管11内存储有5块洗涤块;在测得重量为30g时,判定储料管11内存储有6块洗涤块;也即是说重量传感器获取的重量和每个洗涤块的重量的比值为5。当然,在其他实施方式中,洗涤块的数量不仅仅为5g,具体可以根据不同情况来设置洗涤块的具体重量。需要指出的是,在洗涤块的重量变化的情况下,重量传感器获取的重量和每个洗涤块的重量的比值也会发生改变。例如,在每个洗涤块的重量为6g的情况下,重量传感器获取的重量和每个洗涤块的重量的比值为6。又例如,在每个洗涤块的重量为7g的情况下,重量传感器获取的重量和每个洗涤块的重量的比值7。具体可以根据实际情况来考虑,在此不做限定。
请参阅图19和图20,在某些实施方式中,储料管11呈条状以使多个洗涤块在储料管11内顺次排布,获取储料管11内的洗涤块的数量,步骤S10包括:
步骤S11:获取储料管11内的洗涤块的排布位置;
步骤S12:根据排布位置确定洗涤块的数量。
其中,上述排布位置指的是靠近进料口112处的洗涤块与出料口113的距离a。
由于每个洗涤块的形状相同,因此,每个洗涤块的高度b相同,在多个洗涤块顺次排布在储料管11内时,能够根据距离进料口112最近的洗涤块与出料口113的距离a来获取洗涤块的具体数量。
在一个例子中,洗涤块为矩形,每个洗涤块的高度b为2cm,将多个洗涤块顺次排布在储料管11内时,在测得靠近进料口112的洗涤块与出料口113的距离a为10cm时,判定储料管11内存储有5个洗涤块;在测得靠近进料口112的洗涤块与出料口113的距离a为12cm时,判定储料管11内存储有6个洗涤块;在测得靠近进料口112的洗涤块与出料口113的距离a为14cm时,判定储料管11内存储有7个洗涤块;以此类推,将测得靠近进料口112的洗涤块与出料口113的距离a除以每个洗涤块的高度b即可获取到储料管11内存储的洗涤块的数量。操作方便。
其中,靠近进料口112处的洗涤块与出料口113的距离a可以通过红外传感器来获取,例如,红外测距仪设置在盖板114靠近进料口112的一侧,红外测距仪能够测得靠近进料口112处的洗涤块与进料口112的距离c,然后,将整个储料管11的长度d减去靠近进料口112处的洗涤块与进料口112的距离c即可获取到靠近进料口112的洗涤块与出料口113的距离a。
当然,在其他实施方式中,还可以采用其他结构来测量靠近进料口112的洗涤块与出料口113的距离a。具体可以根据不同情况来设置。在此不做限定。
在某些实施方式中,洗涤电器1000包括显示装置,步骤S20包括:
控制显示装置显示洗涤块的数量。
如此设置,用户能够通过显示装置更加直观的获取到洗涤块的数量,方便快捷,提升用户体验。
其中,显示装置可以为柔性显示器,如此,有利于显示装置的安装。当然,在其他实施方式中,显示装置也可以为其他的显示器,具体可以根据不同情况来设置显示装置的具体类型。在此不做限定。
在一个例子中,洗涤电器1000可包括有语音播放器,洗涤块的数量可以通过语音播放器播放语音的方式来告知用户。
在另一个例子中,洗涤电器1000还可包括有发射器,发射器与外部智能设备连接,具体地,外部智能设备包括但不限于手机、电脑、平板、智能手环,发射器能够将洗涤块的数量发送至外部智能设备,然后通过外部智能设备推送以告知用户洗涤块的数量。
可以理解的是,上述是举例来说明告知用户洗涤块的数量的几种方式。在其他实施方式中,还可以采用其他方式来告知用户洗涤块的数量。具体可以根据不同情况来选择。在此不做限定。
请参阅图21,在某些实施方式中,提示方法包括:
步骤S30:获取洗涤指令;
步骤S40:根据洗涤指令控制投放装置10投放预定量的洗涤块。
如此,投放装置10能够根据洗涤指令来控制投放装置10投放预定量的洗涤块,进而防止投放装置10投放的洗涤块的数量出现过多或者过少的情况,有利于用户使用洗涤电器1000。
请参阅图22,在某些实施方式中,洗涤指令根据以下步骤生成:
步骤S50:获取需洗涤的餐具的数量;
步骤S60:根据餐具的数量生成洗涤指令。
在这样的实施方式中,洗涤电器1000能够获取需洗涤的餐具的数量,然后根据洗涤的餐具的数量来生成洗涤指令,然后根据该洗涤指令来控制投放装置10进行工作,从而防止投放装置10投放的洗涤块的数量出现过多或者过少的情况,有利于用户使用洗涤电器1000。另外,如此设置,洗涤电器1000能够根据需洗涤的餐具的数量自动生成洗涤指令,如此,用户不需要进行多余的操作,进而使得洗涤电器1000更加智能化,提升用户的体验。
在一个例子中,需洗涤的餐具的数量可以通过照相的方式进行获取,例如,洗涤电器1000包括有一个摄像头,摄像头用于对洗涤电器1000的腔体进行拍照,然后将该照片发送至控制器,控制器能够对该照片进行分析以得出需洗涤的餐具的数量。
在另一个例子中,洗涤电器1000上可设置有数字按键,用户能够通过数字按键来输入需洗涤的餐具的数量,然后洗涤电器1000能够根据该数量来自动控制投放装置10工作,方便快捷,提升用户体验。
可以理解的是,上述仅仅是通过举例来说明如何获取需洗涤的餐具的数量,在不同的实施方式中,还可以采用其他方式来获取需洗涤的餐具的数量,具体可以根据不同情况来设置。在此不做限定。
请参阅图23,在某些实施方式中,洗涤指令根据以下步骤生成:
步骤S70:获取洗涤电器1000接收到的输入;
步骤S80:根据接收到的输入生成洗涤指令。
在这样的实施方式中,洗涤电器1000能够通过接收到的输入来生成洗涤指令,进而通过该洗涤指令控制投放装置10进行工作,如此,用户能够根据需求来控制洗涤电器1000的工作,从而使得洗涤电器1000更加个性化,方便快捷,提升用户体验。
在一个例子中,洗涤电器1000可包括有多个数量按键,例如投放一个洗涤块的按键、投放两个洗涤块的按键、投放三个洗涤块的按键,用户按压投放一个洗涤块的按键,此时,洗涤电器1000能够控制投放装置10投放一个洗涤块;用户按压投放二个洗涤块的按键,此时,洗涤电器1000能够控制投放装置10投放二个洗涤块;用户按压投放三个洗涤块的按键,此时,洗涤电器1000能够控制投放装置10投放三个洗涤块。
在另一个例子中,洗涤电器1000可有轻度清洗按键、中度清洗按键、重度清洗按键,在按压轻度清洗按键的情况下,能够控制投放装置10投放一个洗涤块;在按压中度清洗按键的情况下,此时,洗涤电器1000能够控制投放装置10投放二个洗涤块;在按压重度清洗按键的情况下,此时,洗涤电器1000能够控制投放装置10投放三个洗涤块。
其中,上述仅仅是举例说明输入的类型。可以理解的是,在其他实施方式中,洗涤电器1000的输入的类型也可以为其他种类。具体可以根据不同情况来设置。在此不做限定。
请参阅图24,在某些实施方式中,提示方法包括:
步骤S90:在洗涤电器1000运行的过程中判断投放装置10是否异常;
步骤S100:在投放装置10异常的情况下发出报警提示。
在投放装置10出现异常的情况下,洗涤电器1000能够发出报警提示以告知用户投放装置10出现异常,如此,用户 能够及时控制洗涤电器1000停止工作。进而防止洗涤电器1000在异常的情况下工作导致洗涤电器1000出现损坏的情况下,有利于用户使用洗涤电器1000。
在一个例子中,洗涤电器1000包括有报警装置,投放装置10出现异常可以指的是投放装置10内存在有非洗涤块的物体,例如钥匙、瓶盖等物体。在这样的例子中,投放装置10可包括有另外一个摄像头,该摄像头用于实时拍摄投放装置10的储料管11的内部的照片,然后将拍摄的照片发送至控制器,控制器能够对拍摄的照片进行分析以判断储料管11内是否存在有非洗涤块的物体,在判断存在有非洗涤块的物体的情况下,控制报警装置发出报警提示。
其中,报警提示可以是语音提示、或者是灯光提示、又或者是语音提示或者是灯光提示的结合。在报警提示为语音提示的情况下,报警装置可以为语音播放器,在判断储料管11内存在有非洗涤块的物体的情况下,控制器能够控制语音播放器工作,以发出语音提示告知用户储料管11内存在有非洗涤块的物体。在报警提示为灯光提示的情况下,报警装置可以为警报灯,在判断储料管11内存在有非洗涤块的物体的情况下,控制器能够控制报警灯工作,以发出灯光提示告知用户储料管11内存在有非洗涤块的物体。
可以理解的是,控制器也可以与外部智能设备连接,在判断储料管11内存在有非洗涤块的物体的情况下,控制器可以将报警提示发送至外部智能设备,如此,用户能够根据外部智能设备的推送来得知储料管11内存在有非洗涤块的物体。
当然,投放装置10出现异常的类型不仅仅包括上述一种,具体可以根据不同情况来进行设置。例如,投放装置10出现异常还可以为第一驱动组件13出现异常、又或者是第二驱动组件18出现异常等。在异常的类型不同的情况下,洗涤电器1000可以设置不同的检测装置来对异常情况进行检测。在此不做限定。
请参阅图14,进一步地,投放装置10还可设置有维修窗口20,,用户能够通过维修窗口20来对投放装置10进行维修,维修窗口20处设置有安装板201,安装板201通过螺丝固定在投放装置10上以封闭维修窗口20,在投放装置10出现异常的情况下,例如,投放装置10内存储有非洗涤块的物体的情况下,用户能够将安装板201拆卸,然后通过维修窗口20将投放装置内的非洗涤块的物体取出,如此,不需要将投放装置10直接拆卸后再进行维修,可以直接通过维修窗口20对投放装置10进行维修,方便快捷,提升用户的体验。
本发明实施方式的洗涤电器1000包括投放装置10和控制器,投放装置10包括储料管11,储料管11用于存储多个洗涤块,控制器用于获取储料管11内的洗涤块的数量,及用于提示洗涤块的数量。
本发明实施方式的洗涤电器1000,储料管11用于存储多个洗涤块,然后获取储料管11内的洗涤块的数量,并提示获取到的洗涤块的数量,如此,用户能够清楚的了解储料管11内的洗涤块的数量,在洗涤块数量不足的情况下,给储料管11增加洗涤块,从而防止投放的洗涤块的数量存在不足的情况,有利于用户使用洗涤电器1000。
在某些实施方式中,投放装置10包括设置在储料管11内的重量传感器,获取储料管11内的洗涤块的数量,控制器用于根据重量传感器获取的重量和每个洗涤块的重量的比值计算得到洗涤块的数量。
通过重量传感器来获取洗涤块的数量,结构简单,易于实现,有利于洗涤电器1000的生产。
在某些实施方式中,储料管11呈条状以使多个洗涤块在储料管11内顺次排布,获取储料管11内的洗涤块的数量,控制器用于获取储料管11内的洗涤块的排布位置,及用于根据排布位置确定洗涤块的数量。
通过获取储料管11内的洗涤块的排布位置来获取洗涤块的数量,结构简单,易于实现。
在某些实施方式中,洗涤电器1000包括显示装置,控制器用于控制显示装置显示洗涤块的数量。
如此设置,用户能够通过显示装置更加直观的获取到洗涤块的数量,方便快捷,提升用户体验。
在某些实施方式中,控制器用于获取洗涤指令,及用于根据洗涤指令控制投放装置10投放预定量的洗涤块。
如此,投放装置10能够根据洗涤指令来控制投放装置10投放预定量的洗涤块,进而防止投放装置10投放的洗涤块的数量出现过多或者过少的情况,有利于用户使用洗涤电器1000。
在某些实施方式中,控制器用于获取需洗涤的餐具的数量,及用于根据餐具的数量生成洗涤指令。
在这样的实施方式中,洗涤电器1000能够获取需洗涤的餐具的数量,然后根据洗涤的餐具的数量来生成洗涤指令,然后根据该洗涤指令来控制投放装置10进行工作,从而防止投放装置10投放的洗涤块的数量出现过多或者过少的情况,有利于用户使用洗涤电器1000。另外,如此设置,洗涤电器1000能够根据需洗涤的餐具的数量自动生成洗涤指令,如此,用户不需要进行多余的操作,进而使得洗涤电器1000更加智能化,提升用户的体验。
在某些实施方式中,控制器用于获取洗涤电器1000接收到的输入,及用于根据接收到的输入生成洗涤指令。
在这样的实施方式中,洗涤电器1000能够通过接收到的输入来生成洗涤指令,进而通过该洗涤指令控制投放装置10进行工作,如此,用户能够根据需求来控制洗涤电器1000的工作,从而使得洗涤电器1000更加个性化,方便快捷,提升用户体验。
在某些实施方式中,控制器用于在洗涤电器1000运行的过程中判断投放装置10是否异常,及用于在投放装置10异常的情况下发出报警提示。
在投放装置10出现异常的情况下,洗涤电器1000能够发出报警提示以告知用户投放装置10出现异常,如此,用户能够及时控制洗涤电器1000停止工作。进而防止洗涤电器1000在异常的情况下工作导致洗涤电器1000出现损坏的情况下,有利于用户使用洗涤电器1000。
具体地,本申请的控制器用于执行上述洗涤电器1000的提示方法,为简要描述,在此不对控制器的控制方法一一赘述。
进一步地,控制器的设置能够使得洗涤电器1000更加智能化,提升用户的体验。其中,控制器包括控制芯片,控制芯片可以包括单片机芯片。
本发明实施方式的一种包含计算机可执行指令的非易失性计算机可读存储介质,当计算机可执行指令被一个或多个处理器执行时,使得处理器执行上述任一实施方式的提示方法。
本发明实施方式的存储介质,储料管11用于存储多个洗涤块,然后获取储料管11内的洗涤块的数量,并提示获取到的洗涤块的数量,如此,用户能够清楚的了解储料管11内的洗涤块的数量,在洗涤块数量不足的情况下,给储料管11增加洗涤块,从而防止投放的洗涤块的数量存在不足的情况,有利于用户使用洗涤电器1000。
在本说明书的描述中,参考术语“一个实施方式”、“一些实施方式”、“示意性实施方式”、“示例”、“具体示例”、或“一些示例”等的描述意指结合实施方式或示例描述的具体特征、结构、材料或者特点包含于本申请的至少一个实施方式或示例中。在本说明书中,对上述术语的示意性表述不一定指的是相同的实施方式或示例。而且,描述的具体特征、结构、材料或者特点可以在任何的一个或多个实施方式或示例中以合适的方式结合。
本技术领域的普通技术人员可以理解执行上述实施方法携带的全部或部分步骤是可以通过程序来指令相关的硬件完成,的程序可以存储于一种计算机可读存储介质中,该程序在执行时,包括方法实施例的步骤之一或其组合。
此外,在本申请各个实施例中的各功能单元可以集成在一个处理模块中,也可以是各个单元单独物理存在,也可以两个或两个以上单元集成在一个模块中。上述集成的模块既可以采用硬件的形式执行,也可以采用软件功能模块的形式执行。集成的模块如果以软件功能模块的形式执行并作为独立的产品销售或使用时,也可以存储在一个计算机可读取存储介质中。
上述提到的存储介质可以是只读存储器,磁盘或光盘等。尽管上面已经示出和描述了本申请的实施例,可以理解的是,上述实施例是示例性的,不能理解为对本申请的限制,本领域的普通技术人员在本申请的范围内可以对上述实施例进行变化、修改、替换和变型。

Claims (17)

  1. 一种提示方法,用于洗涤电器,其特征在于,所述洗涤电器包括投放装置,所述投放装置包括储料管,所述储料管用于存储多个洗涤块,所述提示方法包括:
    获取所述储料管内的洗涤块的数量;
    提示所述洗涤块的数量。
  2. 根据权利要求1所述的提示方法,其特征在于,所述投放装置包括设置在所述储料管内的重量传感器,所述获取所述储料管内的洗涤块的数量,包括:
    根据所述重量传感器获取的重量和每个所述洗涤块的重量的比值计算得到所述洗涤块的数量。
  3. 根据权利要求1所述的提示方法,其特征在于,所述储料管呈条状以使所述多个洗涤块在所述储料管内顺次排布,所述获取所述储料管内的洗涤块的数量,包括:
    获取所述储料管内的洗涤块的排布位置;
    根据所述排布位置确定所述洗涤块的数量。
  4. 根据权利要求1所述的提示方法,其特征在于,所述洗涤电器包括显示装置,所述提示所述洗涤块的数量包括:
    控制所述显示装置显示所述洗涤块的数量。
  5. 根据权利要求1所述的提示方法,其特征在于,所述提示方法包括:
    获取洗涤指令;
    根据所述洗涤指令控制所述投放装置投放预定量的所述洗涤块。
  6. 根据权利要求5所述的提示方法,其特征在于,所述洗涤指令根据以下步骤生成:
    获取需洗涤的餐具的数量;
    根据所述餐具的数量生成所述洗涤指令。
  7. 根据权利要求5所述的提示方法,其特征在于,所述洗涤指令根据以下步骤生成:
    获取所述洗涤电器接收到的输入;
    根据所述接收到的输入生成所述洗涤指令。
  8. 根据权利要求1所述的提示方法,其特征在于,所述提示方法包括:
    在所述洗涤电器运行的过程中判断所述投放装置是否异常;
    在所述投放装置异常的情况下发出报警提示。
  9. 一种洗涤电器,其特征在于,所述洗涤电器包括投放装置和控制器,所述投放装置包括储料管,所述储料管用于存储多个洗涤块,所述控制器用于获取所述储料管内的洗涤块的数量,及用于提示所述洗涤块的数量。
  10. 根据权利要求9所述的洗涤电器,其特征在于,所述投放装置包括设置在所述储料管内的重量传感器,所述获取所述储料管内的洗涤块的数量,所述控制器用于根据所述重量传感器获取的重量和每个所述洗涤块的重量的比值计算得到所述洗涤块的数量。
  11. 根据权利要求9所述的洗涤电器,其特征在于,所述储料管呈条状以使所述多个洗涤块在所述储料管内顺次排布,所述获取所述储料管内的洗涤块的数量,所述控制器用于获取所述储料管内的洗涤块的排布位置,及用于根据所述排布位置确定所述洗涤块的数量。
  12. 根据权利要求9所述的洗涤电器,其特征在于,所述洗涤电器包括显示装置,所述控制器用于控制所述显示装置显示所述洗涤块的数量。
  13. 根据权利要求9所述的洗涤电器,其特征在于,所述控制器用于获取洗涤指令,及用于根据所述洗涤指令控制所述投放装置投放预定量的所述洗涤块。
  14. 根据权利要求13所述的洗涤电器,其特征在于,所述控制器用于获取需洗涤的餐具的数量,及用于根据所述餐具的数量生成所述洗涤指令。
  15. 根据权利要求13所述的洗涤电器,其特征在于,所述控制器用于获取所述洗涤电器接收到的输入,及用于根据所述接收到的输入生成所述洗涤指令。
  16. 根据权利要求9所述的洗涤电器,其特征在于,所述控制器用于在所述洗涤电器运行的过程中判断所述投放装置是否异常,及用于在所述投放装置异常的情况下发出报警提示。
  17. 一种包含计算机可执行指令的非易失性计算机可读存储介质,其特征在于,当所述计算机可执行指令被一个或多个处理器执行时,使得所述处理器执行权利要求1-8中任一项所述的提示方法。
PCT/CN2021/075189 2020-03-05 2021-02-04 提示方法、洗涤电器及存储介质 WO2021175075A1 (zh)

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