CN108502335B - Intelligent storage device - Google Patents

Abstract

The invention relates to an intelligent storage device, comprising: the storage part is provided with a containing cavity for storing articles, and the bottom of the containing cavity is provided with a first through hole; the base comprises a shell, the storage part is fixedly connected to the shell, a second through hole is formed in the shell, and the first through hole is communicated with the second through hole; the release assembly is arranged on the storage part or the base and comprises a blocking piece and a restoring member, wherein the blocking piece is rotationally connected to the base and covers at least one of the first through hole and the second through hole so as to block the communication between the first through hole and the second through hole, one end of the restoring member is fixedly connected to the base, and the other end of the restoring member is connected to the blocking piece; when external force acts on the blocking piece, the blocking piece rotates relative to the base, and the blocking of the communication of the first through hole and the second through hole is released along with the rotation of the blocking piece, and after the external force is removed, the blocking piece resets under the action of the restoring component. The intelligent storage device is simple to operate and convenient to take articles.

Description

Intelligent storage device

Technical Field

The invention relates to articles for daily use, in particular to an intelligent storage device.

Background

When daily necessities such as rice are taken, the traditional method is to place articles such as rice in objects such as rice jar in a concentrated way, and the articles such as dust can be easily fallen into the rice jar when the rice jar is opened during taking, however, the articles such as rice are polluted when the rice jar is often opened, and the operation of opening the rice jar has the trouble of inconvenient operation.

Disclosure of Invention

Accordingly, it is necessary to provide an intelligent storage device for solving the problem of inconvenience in handling when taking out articles such as rice.

An intelligent storage apparatus, comprising:

the storage part is provided with a containing cavity for storing articles, and the bottom of the containing cavity is provided with a first through hole;

the base comprises a shell, the storage part is fixedly connected to the shell, a second through hole is formed in the shell, and the first through hole is communicated with the second through hole; and

The release assembly is arranged on the storage part or the base and comprises a blocking piece and a recovery member, the blocking piece is rotationally connected to the base and covers at least one of the first through hole and the second through hole so as to block the communication between the first through hole and the second through hole, one end of the recovery member is fixedly connected to the base, and the other end of the recovery member is connected to the blocking piece;

when external force acts on the blocking piece, the blocking piece rotates relative to the base, and the blocking of the communication between the first through hole and the second through hole is released along with the rotation of the blocking piece, and after the external force is removed, the blocking piece resets under the action of the restoring member.

In one embodiment, the base further comprises a connecting piece, the connecting piece is arranged in the shell and fixedly connected with the shell, the blocking piece is rotationally connected with the connecting piece, the connecting piece is arranged between the first through hole and the second through hole, a through hole is formed in the connecting piece, and the first through hole is communicated with the second through hole through the through hole.

In one embodiment, the blocking member is provided with a connecting rod and is connected to the restoring member through the connecting rod;

the connecting piece corresponds the connecting rod is provided with resumes the position, when the blocking piece lid closes in first through-hole and/or the second through-hole, the connecting rod is in resume the position by being located a default position, external force promotes the blocking piece is relative the connecting piece rotates, the connecting rod is followed resume the displacement and is moved.

In one embodiment, the release assembly further includes a fixing member fixedly connected to the connecting member, a manipulation space is formed between the fixing member and the connecting member, and the blocking member is disposed in the manipulation space.

5. In one embodiment, the fixing member is provided with a third through hole, a flange is formed by extending downwards from the bottom of the storage part, the first through hole penetrates through the flange, and the flange penetrates through the third through hole to be abutted against the blocking member.

In one embodiment, the release assembly further comprises a button, wherein the button penetrates through the shell, one end of the button is exposed out of the shell so that the button can be touched, the other end of the button abuts against the blocking piece, when the button is pressed, the blocking piece is pushed to move, and the first through hole is communicated with the second through hole.

In one embodiment, the release assembly further includes a driving member and an actuating member, the actuating member is connected to the driving member and moves under the driving of the driving member, one end of the actuating member abuts against the blocking member, and the blocking member rotates relative to the base under the action of the actuating member, so that the first through hole is communicated with the second through hole.

In one embodiment, a bearing member is disposed at one end of the housing near the storage portion, and the bearing member is disposed in a manner of being attached to at least a portion of the bottom of the storage portion.

In one embodiment, the temperature control component is arranged on the bearing piece, the bottom of the storage part is made of a heat conducting material, and when the temperature control component works, the temperature of the bottom of the storage part is increased or decreased, so that the temperature of the articles in the accommodating cavity is increased or decreased.

In one embodiment, the temperature sensor is arranged on the storage part to sense the temperature of the article in the accommodating cavity, and the temperature control component adjusts the temperature of the article in the accommodating cavity according to the temperature parameter sensed by the temperature sensor.

Above-mentioned intelligent storage device, through with first through-hole and second through-hole intercommunication, adopt release subassembly to cut off the intercommunication of first through-hole and second through-hole, when needs take the article that holds the intracavity, make external force act on the barrier, promote the barrier rotation, can release subassembly's blocking, take out the article that holds the intracavity, easy operation takes conveniently.

Drawings

FIG. 1 is a schematic perspective view of an intelligent storage apparatus according to an embodiment of the invention;

FIG. 2 is a schematic diagram of a storage portion of an intelligent storage device according to an embodiment of the invention;

FIG. 3 is a schematic diagram of a local explosion structure of an intelligent storage apparatus according to an embodiment of the present invention;

FIG. 4 is a schematic diagram illustrating a structure of a memory portion of an intelligent memory device according to another embodiment of the invention;

FIG. 5 is a schematic diagram of a local explosion structure of a storage portion of an intelligent storage device according to an embodiment of the invention;

FIG. 6 is a schematic diagram of an exploded structure of a base of a smart storage device according to still another embodiment of the present invention;

FIG. 7 is a schematic diagram of an exploded view of a release assembly of a smart storage device according to an embodiment of the present invention;

fig. 8 is a top view of a release assembly of a smart storage device according to yet another embodiment of the present invention.

Detailed Description

In order that the invention may be readily understood, a more complete description of the invention will be rendered by reference to the appended drawings. The drawings illustrate preferred embodiments of the invention. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only and are not meant to be the only embodiment.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

It will be appreciated that although hereinafter the smart storage device is described as a smart rice bucket for enabling storage and release of rice. However, in other embodiments, the storage and release of other items may be used, such as but not limited to feed, water, where the smart storage device will no longer be named a smart rice bucket, but may be a smart bucket or other name.

The embodiment of the invention provides an intelligent storage device, which not only can realize the function of storing rice of a traditional rice jar or rice cabinet, but also can sense the residual rice quantity in the intelligent storage device so as to inform a rice store of delivering rice in time. It will be appreciated that in order to implement the function of notifying the rice store of the delivery of the rice, the intelligent storage device needs to communicate with the rice store, wherein the communication mode may be wired or wireless, and may be direct communication or indirect communication.

In some embodiments, the smart storage device is communicatively coupled to the rice store wirelessly. When the intelligent storage device senses that the residual rice is insufficient, a demand signal is generated and transmitted, the demand signal is transmitted along the communication path, finally reaches a monitoring terminal of the rice store, and is fed back to rice store staff, and rice feeding can be arranged. The intelligent storage device needs to implement the above functions in a place with a network, which may be wifi, 2G, 3G, 4G or future 5G network, but may be other forms of wireless network. In other embodiments, the intelligent storage device and the rice store can be in communication connection through a wired network, the intelligent storage device is provided with a network interface, after the network cable is plugged into the network interface, the intelligent storage device can communicate with the monitoring terminal of the rice store through the network, and a demand signal of the intelligent storage device can be transmitted between the intelligent storage device and the monitoring terminal along the network cable.

The direct communication means that an end-to-end communication connection is established between the intelligent storage device and the monitoring terminal of the rice store, so that the rice store can acquire the demand signal in time when the residual rice in the intelligent storage device is insufficient. Of course, in the actual communication process, the demand signal may be forwarded through a plurality of transfer stations (such as, but not limited to, routers or servers) in the transmission process, and in the process of forwarding the demand signal of one intelligent storage device, a new demand signal may be formed by pooling the demand signal of another intelligent storage device, and finally, the demand signal and the demand signal are transmitted to the monitoring terminal of the rice store together, that is, the communication between the intelligent storage device and the monitoring terminal of the rice store needs to be forwarded through the transfer stations, which is reflected in an indirect communication connection.

The communication network between the intelligent storage device and the meter shop monitoring terminal can be the internet (e.g. mobile internet or internet), and can also be a local area network (such as a local area network, a metropolitan area network or a larger cross-metropolitan area network).

Referring to fig. 1 to 3, fig. 1 to 3 show a schematic structural diagram of an intelligent storage apparatus 10 according to an embodiment of the present invention, the intelligent storage apparatus 10 includes a storage portion 110, a base 120, and a release assembly 130, the storage portion 110 is provided with a receiving cavity 110a for storing articles such as rice, the storage portion 110 is disposed on the base 120, a first through hole 110b is disposed at a bottom of the receiving cavity 110a, the base 120 is provided with a second through hole 120a corresponding to the first through hole 110b, the first through hole 110b and the second through hole 120a are mutually communicated to form a release channel, the release assembly 130 is disposed on the storage portion 110 or the base 120 and seals the release channel, and when an external force is applied to a specific component of the release assembly 130, the release assembly 130 can release the seal of the release channel, so that the articles such as rice stored in the receiving cavity 110a can flow out of the intelligent storage apparatus 10 along the release channel, and is finally collected by a collecting device.

The storage part 110 includes a plurality of side plates 111 and a bottom plate 112, the plurality of side plates 111 are connected end to form a frame, the bottom plate 112 seals one end of the frame to form the accommodating cavity 110a, and the first through hole 110b is disposed on the bottom plate 112. With continued reference to fig. 4, in some embodiments, the bottom plate 112 is configured as a non-planar structure, but is recessed toward the base 120 to form a funnel-shaped recess (not shown), and the first through hole 110b is disposed at the bottom of the recess. Of course, the shape of the groove is not limited to be funnel-shaped, but may be any other regular or irregular shape, and the funnel shape is provided in this embodiment to facilitate the collection of the articles stored in the accommodating cavity 110a, thereby facilitating the release. By recessing the bottom plate 112 toward the base 120 to form a groove, on one hand, the collection and release of the articles stored in the accommodating chamber 110a are facilitated, and on the other hand, the situation that the articles at the bottom edge remain unreleasable for a long time when the bottom plate 112 is arranged in a planar plate shape is avoided.

With continued reference to fig. 5, in other embodiments, the storage portion 110 may further include a top plate 113, where the top plate 113 is disposed opposite to the bottom plate 112 and is rotatably connected to one of the side plates 111, so that the top plate 113 seals the accommodating cavity 110a from an end of the side plate 111 away from the bottom plate 112, and contamination of the rice or other objects stored in the accommodating cavity 110a by dust in the air can be avoided. For example, a first rotating column 114 may be disposed at one end of one of the side plates 111, two second rotating columns 115 are disposed at edges of the top plate 113 corresponding to the first rotating columns 114 on the side plate 111, and the two second rotating columns 115 are disposed at intervals, so that the first rotating column 114 may be accommodated between the two second rotating columns 115, holes are disposed on the first rotating column 114 and the second rotating column 115, and the rotating shaft 116 penetrates through the holes of the first rotating column 114 to connect the first rotating column 114 and the second rotating column 115, thereby realizing the rotation connection between the side plate 111 and the top plate 113, and the holes on the first rotating column 114 and the second rotating column 115 may be blind holes or through holes. Of course, two first rotation posts 114 are also provided, and only one second rotation post 115 is provided, and the second rotation post 115 is accommodated between the two first rotation posts 114, and the principle is the same as the above-described implementation. In other embodiments, the pivotal connection of the top panel 113 and the side panel 111 may be achieved by other means, such as, but not limited to, by a hinge.

In some embodiments, a double-loop structure 1131 is disposed on the end surface of the top plate 113 near the side plate 111, and the double-loop structure 1131 is provided with an annular groove 1133, and the annular groove 1133 is adapted to the side plate 111. When the top plate 113 covers the accommodating chamber 110a, one end of the side plate 111 is accommodated in the annular groove 1133.

In this embodiment, the double loop structure 1131 is formed by extending the end surface of the top plate 113 near the side plate 111 downward. A cushion (not shown) is also disposed in the annular groove 1133, and when one end of the side plate 111 is received in the annular groove 1133, the cushion is pressed, so that the side plate 111 is clamped in the annular groove 1133, and in particular, the cushion may be a rubber ring.

In other embodiments, the dual loop structure 1131 may be provided as a separate component that is fixedly attached to the top plate 113 by means including, but not limited to, adhesive, threaded connection. In a specific embodiment, the dual loop structure 1131 is made of an elastic material, and the width of the annular groove 1133 is slightly smaller than the thickness of the side plate 111, so that when the top plate 113 is closed, the side plate 111 presses against the side wall of the annular groove 1133, thereby clamping the side plate 111.

By accommodating one end of the side plate 111 in the annular groove 1133 and clamping the side wall of the annular groove 1133 by the buffer pad, the covering force of the top plate 113 is improved, and the top plate 113 is prevented from being easily opened, so that the objects stored in the accommodating cavity 110a are polluted.

With continued reference to fig. 6, in some embodiments, the base 120 includes a housing 121 and a connecting member 123, the connecting member 123 is disposed in the housing 121 and is fixedly connected to the housing 121, the storage portion 110 is fixedly connected to the housing 121, the second through hole 120a is disposed on the housing 121, the connecting member 123 is disposed between the first through hole 110b and the second through hole 120a, and a through hole 123a (reference numeral see fig. 7) is disposed on the connecting member 123, and the first through hole 110b and the second through hole 120a are communicated through the through hole 123a, so as to form a release channel. In the above embodiments, the connecting member 123 is fixedly connected to the housing 121 as a separate component, it being understood that in some embodiments, the connecting member 123 may be integrally formed with the housing 121 as part of the housing 121.

In some embodiments, the periphery of the housing 121 is provided with a receiving groove 121a, the side plate 111 extends beyond the bottom plate 112 to a direction approaching the base 120 to form a reinforcing ring 117 (see fig. 4), and when the storage portion 110 is fixed on the base 120, the reinforcing ring 117 is received in the receiving groove 121a, so that the storage portion 110 and the base 120 have a stable mechanical connection.

To facilitate docking with the storage portion 110, an end of the housing 121 near the storage portion 110 is provided with an opening (not shown), and an end far from the storage portion 110 is closed, so that the housing 121 has a cavity, and if the bottom plate 112 of the storage portion 110 is recessed downward to form a groove, the bottom plate 112 of the storage portion 110 is at least partially received in the cavity when the storage portion 110 is placed on the base 120. It will be appreciated that the housing 121 may extend into the cavity or be provided with additional components and the second through hole 120a may be provided on the extension or the additional components to communicate with the through hole 123a of the connector 123 to form a release passage.

In some embodiments, a carrier 125 is disposed at an end of the housing 121 near the storage portion 110, where the carrier 125 is attached to at least a portion of the bottom plate 112 of the storage portion 110, so as to implement the carrying of the storage portion 110, and avoid the possibility of deformation or damage of the storage portion 110 caused by the overload of the bottom plate 112. Specifically, when the bottom plate 112 is recessed downward to form a groove, the carrier 125 is inclined with respect to a horizontal plane to maintain a fitting relationship with the bottom plate 112; when the base plate 112 is a horizontally disposed plate-like structure, the carrier 125 is also horizontally disposed.

The carrier 125 may be provided with a temperature control component 127, and the bottom plate 112 of the storage portion 110 is made of a heat conductive material, so that when the temperature control component 127 works, the temperature of the bottom plate 112 is increased or decreased, and the temperature of the article in the accommodating cavity 110a is increased or decreased. As is well known, when rice accumulates, the temperature of the interior of the rice increases, and thus, in a specific embodiment, the temperature control assembly 127 may be a cooling member that, when operated, causes the temperature of the area adjacent to the cooling member to decrease, thereby maintaining the temperature of the rice or other items stored in the receiving chamber 110a at a predetermined temperature interval. In other embodiments, the side plates 111 may also be made of a thermally conductive material. It will be appreciated by those skilled in the art that, to facilitate the temperature maintenance of the temperature control assembly 127, the smart storage device 10 further includes a sensor assembly (not shown) that includes at least a temperature sensor that may be disposed on the storage portion 110 to sense the temperature of the interior of the article in the receiving cavity 110a, and the temperature control assembly 127 adjusts the temperature of the article in the receiving cavity 110a according to the temperature parameter sensed by the temperature sensor.

Referring to fig. 6, in some embodiments, the housing 121 includes a casing 1211 and an object taking window 1213, the receiving slot 121a is disposed on the housing 121, so that the storage portion 110 is fixedly connected with the casing 1211, the object taking window 1213 is fixedly connected to a side wall of the casing 1211, so that the casing 1211 and the object taking window 1213 surround to form the cavity, the connecting piece 123 is disposed in the cavity, and is fixedly connected to the object taking window 1213, and the second through hole 120a is disposed on the object taking window 1213 and is in communication with the through hole 123a of the connecting piece 123. When the storage part 110 is placed on the base 120, the first through hole 110b on the bottom plate 112 is just opposite to the through hole 123a of the connecting member 123, so that the first through hole 110b, the through hole 123a and the second through hole 120a are communicated with each other.

The casing 1211 is provided with a through hole 121b corresponding to the object taking window 1213, the object taking window 1213 is provided with an object taking opening 121c, and the object taking opening 121c is communicated with the outside through the through hole 121b, so that a user can insert a hand into the object taking opening 121c to take objects.

The access window 1213 has a top and a bottom disposed opposite to each other, and the second through hole 120a is disposed at the top of the access window 1213. In a specific embodiment, the bottom of the access window 1213 is provided with a magnetic member (not shown), and the collection device may be secured to the bottom of the access window 1213 by placement of magnetic attraction. In a specific embodiment, the magnetic member is disposed corresponding to the second through hole 120a, so that when the collecting device is provided with a magnet and the attached magnetic poles are opposite, the collecting device can be automatically positioned as long as the collecting device is placed in the object taking opening 121 c.

Referring to fig. 7, the release assembly 130 includes a fixing member 131, a blocking member 133, and a restoring member 135, wherein the fixing member 131 is fixedly connected to the connecting member 123, and a control space (not shown) is formed between the fixing member 131 and the connecting member 123, the blocking member 133 is disposed in the control space, rotatably connected to the connecting member 123, and covers one end of the through hole 123a, and blocks communication between the through hole 123a of the connecting member 123 and the first through hole 110b, and one end of the restoring member 135 is fixedly connected to the connecting member 123, while the other end is connected to the blocking member 133. When an external force acts on the blocking member 133, the blocking member 133 rotates relative to the connecting member 123, and as the blocking member 133 rotates, the blocking of the communication between the through hole 123a and the first through hole 110b is released, and the objects in the accommodating chamber 110a can enter the through hole 123a from the first through hole 110 b. Those skilled in the art will appreciate that the securing member 131 is optional and that in some embodiments, the securing member 131 may be omitted.

The fixing member 131 is provided with a third through hole 131a so that the first through hole 110b can communicate with the through hole 123 a. In the illustrated embodiment, the bottom plate 112 is formed with a flange 1121 (see fig. 4) extending downward, and a first through hole 110b penetrates the flange 1121, and the flange 1121 abuts against the stopper 133 through the third through hole 131 a. It will be appreciated by those skilled in the art that a structure similar to the flange 1121 may be provided on both sides of the fixing member 131 to achieve the abutment with the first through hole 110b and/or the through hole 123 a.

In some embodiments, the blocking member 133 is provided with a rotation hole 1331, and the connecting member 123 is provided with a post 1231, and the post 1231 is inserted into the rotation hole 1331, so that the blocking member 133 can rotate around the post 1231. The blocking member 133 is further provided with a connection rod 1333, and the blocking member 133 is connected to the restoring member 135 through the connection rod 1333.

The restoring member 135 may be a spring, two ends of the spring are fixed on the connecting piece 123 and the connecting rod 1333, when an external force acts on the blocking piece 133 to rotate the blocking piece 133, the connecting rod 1333 is driven to move, the movement of the connecting rod 1333 stretches the spring, and after the external force is removed, the restoring force of the spring returns the connecting rod 1333. Those skilled in the art will appreciate that the restoring member 135 is not limited to a spring, but may be another elastic member having a deformation restoring capability such as a spring plate.

In some embodiments, the connecting member 123 is provided with a restoring position 1233 corresponding to the connecting rod 1333, when the blocking member 133 is covered on the first through hole 110b or the second through hole 120a, the connecting rod 1333 is positioned at a preset position at the restoring position 1233, and when the blocking member 133 is pushed to rotate relative to the connecting member 123 by an external force, the connecting rod 1333 moves along the restoring position 1233. For example, the restoring position 1233 is substantially V-shaped, when the blocking member 133 covers the through hole 123a, the connecting rod 1333 is located at the V-shaped bottom of the restoring position 1233, and when the blocking member 133 is pushed to rotate relative to the connecting member 123 by an external force, the connecting rod 1333 moves along the edge of the restoring position 1233. Of course, the restoring position 1233 is not limited to be V-shaped, but may be a chute, and when the blocking member 133 covers the through hole 123a, the connecting rod 1333 is located at the bottom of the chute, and when the blocking member 133 is pushed by an external force to rotate relative to the connecting member 123, the connecting rod 1333 moves along the chute.

In some embodiments, the release assembly 130 further includes a button 132, the button 132 passes through the housing 121, and one end of the button 132 is exposed to the housing 121 so that the button 132 can be touched, the other end of the button 132 abuts against the blocking member 133, when the button 132 is pressed, the movement of the blocking member 133 is pushed, the first through hole 110b communicates with the second through hole 120a, the button 132 is released, and the blocking member 133 is reset under the action of the restoring member 135. In a specific embodiment, in order to enable the stop member 133 to rotate normally, the button 132 is configured to move along a preset track, and the base 120 or the connecting member 123 may be correspondingly provided with a guide member (not shown), which may be a guide groove or a guide rail.

With continued reference to fig. 8, in other embodiments, the release assembly 130 further includes a driving member 134 and an actuating member 136, where the actuating member 136 is connected to the driving member 134 and is driven by the driving member 134 to move, the other end of the actuating member 136 abuts against the blocking member 133, and the blocking member 133 rotates relative to the connecting member 123 under the action of the actuating member 136, so that the first through hole 110b is communicated with the second through hole 120 a. The opening and closing of the driving member 134 may be controlled by a control button 132 or a switch, and the user may control the opening or closing of the driving member 134 by touching the corresponding control button 132 or switch, or may, of course, also control by a wireless communication manner or other mechanical and software manners, and may specifically be determined according to the actual application scenario.

Those skilled in the art will appreciate that the manner in which the button 132 pushes the blocking member 133 to move and the driving member 134 drives the blocking member 133 to move may be used in one embodiment. Although in the above embodiment the release assembly 130 is secured to the housing 121 by the connector 123, it will be appreciated that the release assembly 130 may also be secured to the reservoir 110 by the securing member 131.

It will be appreciated that in order to implement the aforementioned communication function with the rice store, the smart storage device 10 may further be provided with a communication component (not shown) and a processor (not shown), and the communication component is connected to the processor. The sensor assembly may further include a weight sensor, which may be disposed on the base 120, for acquiring a weight of the article in the accommodating cavity 110a, and the processor determines whether to generate the demand signal after acquiring a weight parameter of the weight sensor, and transmits the demand signal to the communication assembly, where the communication assembly transmits the demand signal.

In some embodiments, the system further includes a memory (not shown), where the memory stores fetching information (e.g., rice fetching information) in a preset time period, and the processor predicts the weight of the next fetched object according to the fetching information in the preset time period, compares the predicted weight of the next fetched object with the obtained weight parameter, and determines whether to generate a demand signal, for example, when the weight parameter is smaller than a preset multiple of the predicted value, or when the weight parameter is smaller than the preset value, generates the demand signal, so that stores such as a rice store can be notified to deliver goods in time.

It will be appreciated by those skilled in the art that the generation of the demand signal is not limited to the generation based on the weight parameter, and in other embodiments the sensor assembly may also include a volume sensor or other sensor, at which time the demand signal may be generated by the volume parameter or other parameter.

Above-mentioned intelligent storage device 10, through with first through-hole 110b and second through-hole 120a intercommunication, adopt release assembly 130 to intercept the intercommunication of first through-hole 110b and second through-hole 120a, when the article in the chamber 110a is held in the needs taking, make external force act on the barrier 133, promote the barrier 133 rotation, can release assembly 130's the barrier, take out the article in the chamber 110a, easy operation takes the convenience.

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above-described embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The above examples illustrate only a few embodiments of the invention, which are described in detail and are not to be construed as limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (5)

1. An intelligent storage device, comprising:

the storage part is provided with a containing cavity for storing articles, and the bottom of the containing cavity is provided with a first through hole;

the base comprises a shell, the storage part is fixedly connected to the shell, and a second through hole is formed in the shell; the base also comprises a connecting piece, wherein the connecting piece is arranged in the shell and is fixedly connected with the shell; the connecting piece is arranged between the first through hole and the second through hole, a through hole is formed in the connecting piece, and the first through hole and the second through hole are communicated through the through hole, so that a release channel is formed; the storage part is downwards extended to form a flange, and the first through hole penetrates through the flange; and

The release assembly is arranged on the storage part or the base and comprises a blocking piece and a recovery member, and the blocking piece is rotatably connected with the base; the release assembly further comprises a fixing piece, wherein the fixing piece is fixedly connected to the connecting piece, a control space is formed between the fixing piece and the connecting piece, the blocking piece is arranged in the control space, is rotationally connected to the connecting piece and covers one end of the through hole, and blocks the through hole of the connecting piece from being communicated with the first through hole; one end of the restoring member is fixedly connected to the connecting piece, and the other end of the restoring member is connected to the blocking piece; the fixing piece is provided with a third through hole, and the flange passes through the third through hole and is abutted against the blocking piece;

the release assembly further comprises a button abutting the barrier to push the barrier to move;

the blocking piece is provided with a rotating hole, and the connecting piece is provided with a stand column which penetrates into the rotating hole, so that the blocking piece rotates around the stand column; the blocking piece is further provided with a connecting rod, and the blocking piece is connected to the recovery member through the connecting rod;

the connecting piece is provided with a restoring bit corresponding to the connecting piece, when the blocking piece covers the first through hole or the second through hole, the connecting piece is positioned at a preset position at the restoring bit, and when external force pushes the blocking piece to rotate relative to the connecting piece, the connecting piece moves along the restoring bit;

when external force acts on the blocking piece, the blocking piece rotates relative to the base, and the blocking of the communication between the first through hole and the second through hole is released along with the rotation of the blocking piece, and after the external force is removed, the blocking piece resets under the action of the restoring member.

2. The smart storage device of claim 1, wherein the release assembly further comprises a driving member and an actuating member, the actuating member is connected to the driving member and moves under the driving of the driving member, one end of the actuating member abuts against the blocking member, and the blocking member rotates relative to the base under the action of the actuating member, so that the first through hole is communicated with the second through hole.

3. The intelligent storage apparatus of claim 1, wherein a carrier is disposed at an end of the housing adjacent to the storage portion, and wherein the carrier is disposed in contact with at least a portion of a bottom of the storage portion.

4. A smart storage device as claimed in claim 3, wherein the carrier is provided with a temperature control assembly, the bottom of the storage portion being made of a thermally conductive material, and when the temperature control assembly is in operation, the temperature of the bottom of the storage portion is increased or decreased, thereby increasing or decreasing the temperature of the contents of the receiving chamber.

5. The intelligent storage apparatus of claim 4, further comprising a temperature sensor disposed in the storage portion for sensing a temperature of the interior of the contents of the cavity, wherein the temperature control assembly adjusts the temperature of the contents of the cavity according to a temperature parameter sensed by the temperature sensor.