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CN108362054B - Modern ice making device - Google Patents

Modern ice making device Download PDF

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Publication number
CN108362054B
CN108362054B CN201810400019.3A CN201810400019A CN108362054B CN 108362054 B CN108362054 B CN 108362054B CN 201810400019 A CN201810400019 A CN 201810400019A CN 108362054 B CN108362054 B CN 108362054B
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China
Prior art keywords
water
extends
cavity
freezing
wall
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CN201810400019.3A
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CN108362054A (en
Inventor
徐秀霞
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Nanjing Dunkong Artificial Intelligence Technology Research And Development Co ltd
Nanjing Kenlun Electronic Technology Co ltd
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Huian Yihui Science And Technology Development Co Ltd
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Publication of CN108362054A publication Critical patent/CN108362054A/en
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F25REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
    • F25CPRODUCING, WORKING OR HANDLING ICE
    • F25C1/00Producing ice
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F25REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
    • F25CPRODUCING, WORKING OR HANDLING ICE
    • F25C5/00Working or handling ice
    • F25C5/02Apparatus for disintegrating, removing or harvesting ice
    • F25C5/04Apparatus for disintegrating, removing or harvesting ice without the use of saws

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  • Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • Mechanical Engineering (AREA)
  • Thermal Sciences (AREA)
  • General Engineering & Computer Science (AREA)
  • Devices That Are Associated With Refrigeration Equipment (AREA)
  • Production, Working, Storing, Or Distribution Of Ice (AREA)

Abstract

The invention discloses a modern ice manufacturing device, which comprises a machine body and a sealing cover arranged at the top of the machine body, wherein a freezing cavity with an upward opening is arranged in the machine body, symmetrical fixing columns which are positioned at the left end and the right end of the freezing cavity are arranged on the end surface of the top of the machine body, the fixing columns penetrate through the sealing cover and are in sliding fit connection with the sealing cover, a fixing plate is arranged between the two fixing columns, a supporting column which is positioned right above the freezing cavity and extends up and down is arranged on the fixing plate, the extending tail end of the bottom of the supporting column penetrates through the sealing cover and extends into the freezing cavity, a pushing plug is arranged at the tail end of the bottom of the supporting column, symmetrical first guide chutes are communicated with each other in the left inner wall and the right; the ice making machine is simple in structure, convenient to operate, convenient to move and carry, and capable of improving ice making efficiency and effect.

Description

Modern ice making device
Technical Field
The invention relates to the technical field of ice making, in particular to a modern ice making device.
Background
With the development of science and technology and the progress of society, the state promotes the development of high technology, and in the field of ice making, a difficult technical problem exists, namely that in the process of ice making, water is difficult to inject, the operation is complex, water is generally injected in large batches, mass production is realized, great difficulty is brought to subsequent processing and transportation, and the ice is extremely difficult to take out of a container due to the fact that the volume of water is increased during solidification, so that the device effectively solves the problem.
Disclosure of Invention
The technical problem to be solved by the present invention is to provide a modern ice making apparatus, which can solve the above-mentioned problems of the prior art.
The invention is realized by the following technical scheme: the invention relates to a modern ice manufacturing device, which comprises a machine body and a sealing cover arranged at the top of the machine body, wherein a freezing cavity with an upward opening is arranged in the machine body, symmetrical fixing columns which are positioned at the left end and the right end of the freezing cavity are arranged on the end surface of the top of the machine body, the fixing columns penetrate through the sealing cover and are in sliding fit connection with the sealing cover, a fixing plate is arranged between the two fixing columns, a supporting column which is positioned right above the freezing cavity and extends up and down is arranged on the fixing plate, the extending tail end of the bottom of the supporting column penetrates through the sealing cover and extends into the freezing cavity, a pushing plug is arranged at the tail end of the bottom of the supporting column, symmetrical first guide chutes are communicated and arranged in the left inner wall and the right inner wall of the freezing cavity, a refrigerating chamber is communicated and arranged at the bottom of the freezing cavity, and, the first guide chute is connected with a first guide block in a sliding fit manner, the first guide block is close to the end face of the automatic freezing box and is fixedly connected with the end face corresponding to the automatic freezing box, the first guide block is connected with a lifting threaded rod extending up and down in a threaded fit manner, the top extending end of the lifting threaded rod is connected with the inner wall of the top of the first guide chute in a rotating fit manner, the bottom extending end of the lifting threaded rod is connected with a first motor in a power connection manner, the outer surface of the first motor is embedded in and fixedly connected with the inner wall of the bottom of the first guide chute, the inner wall of the top of the first guide chute is connected with a first sliding push rod which is positioned on the lifting threaded rod, is far away from one end of the freezing cavity and extends up and down in a sliding fit manner, the top extending end of the first sliding push rod penetrates through, the bottom extending tail end of the first sliding push rod extends into the first guide chute and is fixedly connected with the top end face of the first guide slide block, a second sliding push rod which is positioned at one end of the freezing cavity and extends up and down is connected between the refrigerating cavity and the first guide chute in a sliding fit manner, the top extending tail end of the second sliding push rod extends into the first guide chute and is fixedly connected with the bottom end face of the first guide slide block, the bottom extending tail end of the second sliding push rod extends into the refrigerating cavity, the refrigerating cavity is connected with rotating shafts which are positioned at the left end and the right end of the freezing cavity and extend forwards and backwards in a symmetrical manner in a rotating fit manner, a rotating door panel used for sealing the bottom of the automatic refrigerating box is arranged on the rotating shafts, and the top of one end of the rotating door panel, which is far away from the freezing cavity, is connected with the bottom tail end of the second sliding push, the refrigerator which is positioned at the top of the first guide chute and is symmetrical is embedded in the left inner wall and the right inner wall of the freezing cavity, and a cooling device is arranged on the end surface of the top of the machine body.
According to a preferable technical scheme, a groove with a downward opening is formed in the end face of the bottom of the pushing plug, a water supply pipeline extending up and down is arranged in the supporting column, the extending tail end of the bottom of the water supply pipeline penetrates through the inner wall of the top of the groove, and an automatic water discharging and chopping mechanism which is flush with the end face of the top of the machine body is arranged on the supporting column.
As a preferable technical scheme, the automatic water discharging chopping mechanism comprises a second guide chute arranged in the support column and provided with a left opening, the second guide chute penetrates through the water supply pipeline, the second guide chute is connected with a first water stopping slide block in a sliding fit manner and is connected with the sealing cover in a sliding fit manner, a first water through hole is arranged in the first water stopping slide block in a vertically through manner, a second jacking spring which is positioned at the right end of the first water stopping slide block and is vertically symmetrical is jacked in the second guide chute, a third guide chute with a right opening is arranged in the first water stopping slide block, a second water stopping slide block which extends leftwards and rightwards is connected in a sliding fit manner and is connected with the third guide chute in a jacking manner, a third jacking spring which is positioned at the left end of the second water stopping slide block is jacked in the third guide chute, and the right end of the second water stopping slide block penetrates through the inner wall body at, and a second water through hole communicated with the first water through hole is formed in the second water stopping sliding block in a vertically through mode.
Preferably, the inner cavity of the automatic freezer is embedded and connected with the ejector plug in a sliding fit mode.
According to a preferable technical scheme, a clockwork spring is arranged on the rotating shaft, one end of the clockwork spring is fixedly connected with the outer surface of the rotating shaft, and the other end of the clockwork spring is fixedly connected with the inner wall of the top of the refrigerating cavity.
According to a preferable technical scheme, an anti-falling plate which is located at the bottom of the rotating door plate is connected in a sliding fit mode in the refrigerating cavity, and first jacking springs which are bilaterally symmetrical are arranged between the anti-falling plate and the inner wall of the bottom of the refrigerating cavity in a jacking mode.
As a preferable technical scheme, the cooling device comprises support blocks which are arranged on the top end surface of the machine body and are symmetrical left and right, a suspension block is arranged between the two support blocks, an air blast cavity with a downward opening is arranged in the end surface of the bottom of the suspension block, a containing cavity is arranged at the top of the air blast cavity, a rotating shaft which is symmetrical left and right and extends up and down is connected between the containing cavity and the air blowing cavity in a rotating matching way, the extended tail end of the bottom of the rotating shaft extends into the air blowing cavity and is circumferentially provided with air blowing blades, the extending tail end of the top of the rotating shaft extends into the containing cavity, a first belt pulley is arranged at the tail end of the rotating shaft, a power source is embedded in the inner wall of the top of the containing cavity, the tail end of the bottom of the power source is in power connection with a second belt wheel, a belt is in power connection between the first belt wheel and the second belt wheel, and symmetrical air suction pipes are arranged in the left inner wall and the right inner wall of the air blowing cavity in a communicating mode.
The invention has the beneficial effects that: when the equipment is in an initial state, the first guide slide block is positioned at the topmost part of the first guide slide groove, at the moment, the rotating door plate is in an inclined state, the automatic freezing chamber is positioned at the topmost part of the freezing chamber, the pushing plug completely pushes the pushing plug into the automatic freezing chamber, the sealing cover is in contact with the end face of the bottom of the fixing plate, the first water stopping slide block slides out of the second guide slide groove, the second water stopping slide block slides out of the third guide slide groove, the first water through hole is completely separated from the water supply pipeline, and the second water through hole is completely separated from the first water through hole, so that the maintenance and repair of the device are facilitated.
When the device of the invention is used for making ice, the supporting column is firstly connected with external water source equipment, then the first motor is started, the first motor drives the lifting threaded rod to rotate, the first guide slide block moves downwards, the first guide slide block drives the sealing cover, the second slide push rod to move downwards and the automatic freezer to move downwards simultaneously, the automatic freezer and the pushing plug move away from each other, when the first guide slide block moves to the lowest part of the first guide slide groove, the second slide push rod extends into the refrigerating chamber, the second slide push rod pushes the rotary door plate to be in a horizontal state, at the moment, the bottom of the automatic freezer is abutted against the rotary door plate and the bottom is completely sealed, the bottom end surface of the sealing cover is abutted against the top end surface of the machine body and the freezing chamber is completely sealed, at the same time, first stagnant water slider slides completely in the second guide chute, second stagnant water slider slides completely in the third guide chute, first limbers with water supply pipe intercommunication, second limbers with first limbers intercommunication, simultaneously, start the refrigerator, at this moment, water is slowly spouted into in the automatic freezer and freeze gradually in its inside to improve ice-making work effect.
When the ice in the automatic freezer is full and needs to be removed, the automatic freezer is started, the first motor is controlled to drive the lifting threaded rod to rotate reversely, the lifting threaded rod drives the first guide sliding block to move upwards, so that the automatic freezer, the sealing cover and the second sliding push rod move upwards, after the sealing cover moves upwards for a distance, the first water stopping sliding block and the second water stopping sliding block are separated and move due to the action of the second jacking spring and the third jacking spring, when the first water stopping sliding block and the second water stopping sliding block completely slide out to an initial state, the first water through hole and the second water through hole are completely far away from each other and seal the water supply pipeline, at the moment, water supply and icing are stopped, and the ice making work efficiency is improved.
Work as automatic freezer with start the work of moving back ice when pushing away the stopper butt, the top pushes away the stopper top ice-cube in the automatic freezer is released it, because the clockwork spring drives the axis of rotation rotates, makes it resumes initial state to rotate the door plant, at this moment, the ice-cube process freezing chamber falls into cold-stored intracavity, because the effect of preventing falling the board can prevent that the ice-cube from breaking into pieces to improve the device practicality, and be suitable for ice-making series and abundant.
The automatic ice making equipment has the advantages of simple structure and convenient operation, realizes integration of automatic water replenishing ice making, automatic ice removing and automatic cold storage by adopting the same automatic sealing space, has close contact among all working procedures, has high automation efficiency, is not only rich in applicable ice making series, but also improves the working efficiency and effect of the device, and simultaneously improves the practicability of the device.
Drawings
For ease of illustration, the invention is described in detail by the following specific examples and figures.
FIG. 1 is a schematic view of the entire structure of a modern ice making apparatus according to the present invention when freezing ice;
FIG. 2 is a schematic view of the structure A in FIG. 1;
FIG. 3 is a schematic view showing the overall structure of a modern ice making apparatus according to the present invention in an initial state
Fig. 4 is a schematic structural diagram of B in fig. 3.
Detailed Description
As shown in fig. 1 to 4, the apparatus for manufacturing modern ice of the present invention includes a body 100 and a sealing cover 122 disposed on the top of the body 100, a freezing chamber 114 with an upward opening is disposed in the body 100, symmetrical fixing posts 121 disposed on the left and right ends of the freezing chamber 114 are disposed on the top end surface of the body 100, the fixing posts 121 penetrate through the sealing cover 122 and are connected with the sealing cover in a sliding fit manner, a fixing plate 120 is disposed between the two fixing posts 121, a supporting post 118 disposed above the freezing chamber 114 and extending up and down is disposed on the fixing plate 120, an extending tail end of the bottom of the supporting post 118 penetrates through the sealing cover 122 and extends into the freezing chamber 114, a push plug 115 is disposed at the tail end, symmetrical first sliding guide slots 103 are disposed in the left and right inner walls of the freezing chamber 114 in a communicating manner, a refrigerating chamber 109 is disposed at the bottom of the, the freezing cavity 114 is connected with an automatic freezing box 113 which is located under the pushing plug 115 in a sliding fit manner and has no bottom and no cover, the first guide chute 103 is connected with a first guide block 104 in a sliding fit manner, the end surface of the first guide block 104 close to the automatic freezing box 114 is fixedly connected with the corresponding end surface of the automatic freezing box 114, the first guide block 104 is connected with a lifting threaded rod 102 which extends up and down in a threaded fit manner, the extending tail end of the top of the lifting threaded rod 102 is connected with the inner wall of the top of the first guide chute 103 in a rotating fit manner, the extending tail end of the bottom of the lifting threaded rod 102 is connected with a first motor 105 in a power manner, the outer surface of the first motor 105 is embedded in and fixedly connected with the inner wall of the bottom of the first guide chute 103, the first sliding push rod 101 which is located at one end, far away from the freezing cavity 114, of the lifting threaded rod 102 and extends up and down, the top extending tail end of the first sliding push rod 101 penetrates through the top end face of the machine body 100 and is fixedly connected with the bottom end face of the sealing cover 122, the bottom extending tail end of the first sliding push rod 101 extends into the first guide chute 103 and is fixedly connected with the top end face of the first guide slide block 104, the refrigerating chamber 109 and the first guide chute 103 are connected with a second sliding push rod 106 which is positioned at one end of the first motor 105 close to the refrigerating chamber 114 and extends up and down in a sliding fit manner, the top extending tail end of the second sliding push rod 106 extends into the first guide chute 103 and is fixedly connected with the bottom end face of the first guide slide block 104, the bottom extending tail end of the second sliding push rod 106 extends into the refrigerating chamber 109, the refrigerating chamber 109 is connected with rotating shafts 108 which are positioned at the left end and the right end of the refrigerating chamber 114 and extend symmetrically in the front and back directions in a rotating manner, and rotating door plates 107 used for sealing the bottom of the automatic refrigerating chamber 113 are arranged on the rotating shafts, the top of one end, far away from the freezing cavity 114, of the rotating door panel 107 is connected with the tail end of the bottom of the second sliding push rod 106 in a pressing fit mode, refrigerators 123 which are located at the top of the first sliding guide groove 103 and are symmetrical are embedded in the left inner wall and the right inner wall of the freezing cavity 114, and a cooling device is arranged on the top end face of the machine body 100.
Advantageously, a groove 116 with a downward opening is formed in the bottom end face of the ejector plug 115, a water supply pipeline 119 extending up and down is formed in the support column 118, the bottom extending end of the water supply pipeline 119 penetrates through the inner wall of the top of the groove 116, and an automatic water discharging and cutting mechanism which is flush with the top end face of the machine body 100 is arranged on the support column 118.
Beneficially, the automatic water discharging chopping mechanism includes a second guide chute 124 arranged in the support column 118 and having a leftward opening, the second guide chute 124 penetrates through the water supply pipeline 119, the second guide chute 124 is connected with a first water stopping slider 127 in sliding fit with the sealing cover 122, a first water through hole 129 is arranged in the first water stopping slider 127 in an up-down penetrating manner, a second top pressing spring 131 which is located at the right end of the first water stopping slider 127 and is symmetrical up and down is arranged in the second guide chute 124 in a top pressing manner, a third guide chute 125 with a rightward opening is arranged in the first water stopping slider 127, a second water stopping slider 130 extending left and right is connected in a sliding fit manner in the third guide chute 125, a third top pressing spring 126 located at the left end of the second water stopping slider 130 is arranged in the third guide chute 125 in a top pressing manner, the right end of the second water stopping slider 130 penetrates through the inner wall body at the right end of the second guide chute 124, a second water through hole 128 communicated with the first water through hole 129 is formed in the second water stop slider 130 in a vertically penetrating manner.
Advantageously, the interior of the automated freezer 113 is in engagement and slip fit connection with the ejector plug 115.
Beneficially, a spring is arranged on the rotating shaft 108, one end of the spring is fixedly connected with the outer surface of the rotating shaft 108, and the other end of the spring is fixedly connected with the inner wall of the top of the refrigerating chamber 109.
Advantageously, an anti-falling plate 112 located at the bottom of the rotating door 1074 is connected in a sliding fit manner in the refrigeration cavity 109, and a first pressing spring 110 which is bilaterally symmetrical is pressed between the anti-falling plate 112 and the inner wall of the bottom of the refrigeration cavity 109.
Beneficially, the cooling device includes support blocks 200 which are arranged on the top end surface of the machine body 100 and are bilaterally symmetrical, a suspension block 200 is arranged between the two support blocks 200, a blowing cavity 210 with a downward opening is arranged in the bottom end surface of the suspension block 200, a cavity 203 is arranged on the top of the blowing cavity 210, a rotation shaft 208 which is bilaterally symmetrical and extends vertically is connected between the cavity 203 and the blowing cavity 210 in a rotating fit manner, the bottom of the rotation shaft 208 extends, the tail end extends into the blowing cavity 210, a blowing blade 209 is arranged on the circumferential direction of the tail end, the top of the rotation shaft 208 extends, the tail end extends into the cavity 203, a first pulley 207 is arranged at the tail end, a power source 204 is embedded in the inner wall of the top of the cavity 203, the tail end of the bottom of the power source 204 is connected with a second pulley 205 in a power manner, and, symmetrical air suction pipes 201 are communicated and arranged in the left inner wall and the right inner wall of the air blowing cavity 210.
In the initial state of the apparatus of the present invention, the first guide slider 104 is located at the topmost part of the first guide chute 103, at this time, the rotating door panel 107 is in an inclined state, the automatic freezer 113 is located at the topmost part of the freezer cavity 114, the ejector plunger 115 completely ejects and fills the automatic freezer 113, the sealing cover 122 contacts with the bottom end face of the fixing plate 120, the first water stopping slider 127 slides out of the second guide chute 124, the second water stopping slider 130 slides out of the third guide chute 125, the first water passage hole 129 is completely separated from the water supply pipeline 119, and the second water passage hole 128 is completely separated from the first water passage hole 129.
When the ice making device is used for making ice, firstly, the supporting column 118 is connected with an external water source device, then the first motor 105 is started, the first motor 105 drives the lifting threaded rod 102 to rotate, so that the first guide slide block 104 moves downwards, the first guide slide block 104 drives the sealing cover 122, the second slide push rod 106 to move downwards and the automatic freezing box 113 to move downwards simultaneously, the automatic freezing box 113 and the pushing plug 115 move away from each other, when the first guide slide block 104 moves to the lowest part of the first guide slide groove 103, the second slide push rod 106 extends into the refrigerating cavity 109, the second slide push rod 106 pushes the rotating door panel 107 to be in a horizontal state, at the moment, the bottom of the automatic freezing box 113 abuts against the rotating door panel 107 and the bottom is completely sealed, the bottom end face of the sealing cover 122 abuts against the top end face of the machine body 100 and the refrigerating cavity 114 is completely sealed, meanwhile, the first water stopping slider 127 completely slides into the second guide chute 124, the second water stopping slider 130 completely slides into the third guide chute 125, the first water passage hole 129 is communicated with the water supply pipeline 119, the second water passage hole 128 is communicated with the first water passage hole 129, and simultaneously, the refrigerator 123 is started, at this time, water is slowly sprayed into the automatic freezer 113 and gradually freezes inside the automatic freezer.
When the ice in the automatic freezer is fully accumulated and needs to be removed, the automatic freezer is started, the first motor 105 is controlled to drive the lifting threaded rod 102 to rotate reversely, the lifting threaded rod 102 drives the first guide slide block 104 to move upwards, so that the automatic freezer 113, the sealing cover 122 and the second slide push rod 106 move upwards, after the sealing cover 122 moves upwards for a distance, the first water stopping slide block 127 and the second water stopping slide block 130 move away from each other due to the action of the second jacking spring 131 and the third jacking spring 126, when the first water stopping slide block 127 and the second water stopping slide block 130 completely slide out to an initial state, the first water through hole 129 and the second water through hole 128 completely separate and seal the water supply pipeline 119, and at this time, water supply and ice formation are stopped,
when the automatic freezer 113 and the ejector piston 115 abut against each other, the ice-returning operation is started, the ejector piston 115 pushes the ice blocks in the automatic freezer 113 out, and the rotating shaft 108 is driven by the spring to rotate, so that the rotating door panel 107 is restored to the initial state, at the moment, the ice blocks fall into the refrigerating chamber 119 through the freezing chamber 114, and the ice blocks can be prevented from being broken due to the effect of the anti-falling plate 112.
The invention has the beneficial effects that: when the equipment is in an initial state, the first guide slide block is positioned at the topmost part of the first guide slide groove, at the moment, the rotating door plate is in an inclined state, the automatic freezing chamber is positioned at the topmost part of the freezing chamber, the pushing plug completely pushes the pushing plug into the automatic freezing chamber, the sealing cover is in contact with the end face of the bottom of the fixing plate, the first water stopping slide block slides out of the second guide slide groove, the second water stopping slide block slides out of the third guide slide groove, the first water through hole is completely separated from the water supply pipeline, and the second water through hole is completely separated from the first water through hole, so that the maintenance and repair of the device are facilitated.
When the device of the invention is used for making ice, the supporting column is firstly connected with external water source equipment, then the first motor is started, the first motor drives the lifting threaded rod to rotate, the first guide slide block moves downwards, the first guide slide block drives the sealing cover, the second slide push rod to move downwards and the automatic freezer to move downwards simultaneously, the automatic freezer and the pushing plug move away from each other, when the first guide slide block moves to the lowest part of the first guide slide groove, the second slide push rod extends into the refrigerating chamber, the second slide push rod pushes the rotary door plate to be in a horizontal state, at the moment, the bottom of the automatic freezer is abutted against the rotary door plate and the bottom is completely sealed, the bottom end surface of the sealing cover is abutted against the top end surface of the machine body and the freezing chamber is completely sealed, at the same time, first stagnant water slider slides completely in the second guide chute, second stagnant water slider slides completely in the third guide chute, first limbers with water supply pipe intercommunication, second limbers with first limbers intercommunication, simultaneously, start the refrigerator, at this moment, water is slowly spouted into in the automatic freezer and freeze gradually in its inside to improve ice-making work effect.
When the ice in the automatic freezer is full and needs to be removed, the automatic freezer is started, the first motor is controlled to drive the lifting threaded rod to rotate reversely, the lifting threaded rod drives the first guide sliding block to move upwards, so that the automatic freezer, the sealing cover and the second sliding push rod move upwards, after the sealing cover moves upwards for a distance, the first water stopping sliding block and the second water stopping sliding block are separated and move due to the action of the second jacking spring and the third jacking spring, when the first water stopping sliding block and the second water stopping sliding block completely slide out to an initial state, the first water through hole and the second water through hole are completely far away from each other and seal the water supply pipeline, at the moment, water supply and icing are stopped, and the ice making work efficiency is improved.
Work as automatic freezer with start the work of moving back ice when pushing away the stopper butt, the top pushes away the stopper top ice-cube in the automatic freezer is released it, because the clockwork spring drives the axis of rotation rotates, makes it resumes initial state to rotate the door plant, at this moment, the ice-cube process freezing chamber falls into cold-stored intracavity, because the effect of preventing falling the board can prevent that the ice-cube from breaking into pieces to improve the device practicality, and be suitable for ice-making series and abundant.
The automatic ice making equipment has the advantages of simple structure and convenient operation, realizes integration of automatic water replenishing ice making, automatic ice removing and automatic cold storage by adopting the same automatic sealing space, has close contact among all working procedures, has high automation efficiency, is not only rich in applicable ice making series, but also improves the working efficiency and effect of the device, and simultaneously improves the practicability of the device.
The above description is only an embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope defined by the claims.

Claims (7)

1. The utility model provides a manufacturing installation of modernized ice, includes the fuselage and sets up sealed lid at the fuselage top, its characterized in that: a freezing cavity with an upward opening is arranged in the machine body, symmetrical fixing columns which are positioned at the left end and the right end of the freezing cavity are arranged on the end surface of the top of the machine body, the fixing columns penetrate through the sealing cover and are connected with the sealing cover in a sliding fit manner, a fixing plate is arranged between the two fixing columns, a supporting column which is positioned right above the freezing cavity and extends up and down is arranged on the fixing plate, the extending tail end of the bottom of the supporting column penetrates through the sealing cover and extends into the freezing cavity, a pushing plug is arranged at the tail end of the supporting column, symmetrical first guide sliding grooves are formed in the left inner wall and the right inner wall of the freezing cavity in a communication manner, a cooling cavity is arranged at the bottom of the freezing cavity in a communication manner, an automatic freezing box which is positioned right below the pushing plug and has no bottom and no cover is connected in a sliding fit manner, a first guide block is connected in the first guide sliding fit manner, the, first lead the lifting screw rod that slider female fit connected with extends from top to bottom, lifting screw rod top extend terminal with first lead spout top inner wall normal running fit and connect, lifting screw rod bottom extends terminal power and is connected with first motor, first motor surface inlays to be located in the first spout bottom inner wall and fixed connection with it, sliding fit is connected with and is located in the first spout top inner wall keeping away from of lifting screw rod freeze the first push rod that chamber one end just extended from top to bottom, first push rod top extends terminal and runs through fuselage top end face and with sealed bottom end face fixed connection, first push rod bottom extends terminal and stretches into in the first spout and with first slider top end face fixed connection leads, the cold storage chamber with sliding fit is connected with and is located between the first spout first motor is close to freeze chamber one end and extend from top to bottom The second smooth push rod that stretches, the second smooth push rod top extends the end and stretches into in the first spout and with first slider bottom end fixed connection leads, the second smooth push rod bottom extends the end and stretches into cold-stored intracavity, cold-stored intracavity normal running fit is connected with and is located the axis of rotation that both ends and symmetrical front and back extend about freezing the chamber, be equipped with in the axis of rotation and be used for sealing the rotation door plant of automatic freezer bottom, it keeps away from to rotate the door plant the one end top in freezing chamber with the terminal roof pressure cooperation in second smooth push rod bottom is connected, the embedded being equipped with of inner wall is located about freezing chamber first spout top and symmetrical refrigerator, be equipped with cooling device on the fuselage top end face.
2. A modern ice making apparatus according to claim 1, wherein: the automatic water-discharging cutting machine is characterized in that a groove with a downward opening is formed in the end face of the bottom of the pushing plug, a water supply pipeline extending up and down is arranged in the supporting column, the extending tail end of the bottom of the water supply pipeline penetrates through the inner wall of the top of the groove, and an automatic water-discharging cutting mechanism which is flush with the end face of the top of the machine body is arranged on the supporting column.
3. A modern ice making apparatus according to claim 2, wherein: the automatic water discharging hand hay cutter mechanism comprises a second guide chute which is arranged in the support column and has a leftward opening, the second guide chute penetrates through the water supply pipeline, a first water stopping slide block which is connected with the sealing cover in a sliding fit manner is connected in the second guide chute in a sliding fit manner, a first water through hole is vertically communicated in the first water stopping slide block, a second jacking spring which is positioned at the right end of the first water stopping slide block and is vertically symmetrical is jacked in the second guide chute, a third guide chute with a right opening is arranged in the first water stopping slide block, a second water stopping slide block which extends leftwards and rightwards is connected in a sliding fit manner in the third guide chute, a third top pressure spring positioned at the left end of the second water stopping slide block is arranged in the third guide chute in a top pressure mode, the right end of the second water stopping sliding block penetrates through the inner wall body of the right end of the second guide sliding groove, and a second water through hole communicated with the first water through hole is formed in the second water stopping sliding block in a vertically penetrating mode.
4. A modern ice making apparatus according to claim 1, wherein: the inner cavity of the automatic freezing box is embedded and connected with the ejector push plug in a sliding fit mode.
5. A modern ice making apparatus according to claim 1, wherein: the rotating shaft is provided with a clockwork spring, one end of the clockwork spring is fixedly connected with the outer surface of the rotating shaft, and the other end of the clockwork spring is fixedly connected with the inner wall of the top of the refrigerating cavity.
6. A modern ice making apparatus according to claim 1, wherein: the refrigerator is characterized in that a falling-preventing plate which is located at the bottom of the rotating door plate is connected in a sliding fit mode in the refrigerating cavity, and first jacking springs which are bilaterally symmetrical are arranged between the falling-preventing plate and the inner wall of the bottom of the refrigerating cavity in a jacking mode.
7. A modern ice making apparatus according to claim 1, wherein: cooling device is including setting up on the terminal surface of fuselage top and bilateral symmetry's supporting shoe, two it suspends the piece in midair to be equipped with between the supporting shoe, it is equipped with the decurrent air blast chamber of opening in the terminal surface of piece bottom to suspend in midair, air blast chamber top is equipped with holds the chamber, hold the chamber with normal running fit is connected with bilateral symmetry and the axis of rotation that extends from top to bottom between the air blast chamber, the axis of rotation bottom extends the end and stretches into the air blast intracavity and is equipped with the air blast blade at terminal circumference, the axis of rotation top extends the end and stretches into hold the intracavity and be equipped with first band pulley at the end, hold the embedded power supply that is equipped with of chamber top inner wall, power supply bottom end power is connected with the second band pulley, first band pulley with power connection has the belt between the second.
CN201810400019.3A 2018-04-28 2018-04-28 Modern ice making device Active CN108362054B (en)

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CN201417059Y (en) * 2009-03-31 2010-03-03 青岛澳润商用设备有限公司 Refrigerator-freezer with ice making mechanism
CN102374715A (en) * 2011-09-23 2012-03-14 海尔集团公司 Ice machine water filling system and refrigerator with same
CN203274430U (en) * 2013-05-10 2013-11-06 海信容声(广东)冰箱有限公司 Water supplying and controlling system for automatic ice machine
CN207247658U (en) * 2017-10-11 2018-04-17 滁州富达机械电子有限公司 A kind of ice-making system that can produce block ice on demand in refrigerator

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Publication number Priority date Publication date Assignee Title
WO2008072795A1 (en) * 2006-12-11 2008-06-19 Lg Electronics, Inc. Refrigerator with a dispenser
CN201417059Y (en) * 2009-03-31 2010-03-03 青岛澳润商用设备有限公司 Refrigerator-freezer with ice making mechanism
CN102374715A (en) * 2011-09-23 2012-03-14 海尔集团公司 Ice machine water filling system and refrigerator with same
CN203274430U (en) * 2013-05-10 2013-11-06 海信容声(广东)冰箱有限公司 Water supplying and controlling system for automatic ice machine
CN207247658U (en) * 2017-10-11 2018-04-17 滁州富达机械电子有限公司 A kind of ice-making system that can produce block ice on demand in refrigerator

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