CN210425684U - Lifting platform with refrigeration and heating functions and block ice machine - Google Patents

Abstract

The utility model relates to a lift platform and piece ice machine with refrigeration and heating function, include: the platform comprises a platform main body, a bottom sealing plate and a pipeline; the platform main body is driven to lift, the bottom sealing plate is arranged on the upper surface of the platform main body and used for abutting and sealing the bottom of the evaporator, a flow channel which is arranged in a roundabout mode is arranged in the bottom sealing plate, two pipelines are arranged at the end portions of the bottom sealing plate, one pipeline is used for inputting a refrigerating medium or a heating medium into the flow channel, and the other pipeline is used for discharging the refrigerating medium or the heating medium in the flow channel. The utility model discloses have and get the ice convenience, the higher effect of system ice efficiency.

Description

Lifting platform with refrigeration and heating functions and block ice machine

Technical Field

The utility model belongs to the technical field of the ice-making equipment technique and specifically relates to a lift platform and piece ice maker with refrigeration and heating function is related to.

Background

The Block-Ice-Machine is one of Ice-making machines, and the Ice blocks produced by the Block-Ice-Machine are Ice products with the largest external shape and size, small contact area with the outside and difficult melting.

The evaporimeter (also known as ice maker or heat exchanger) is mainly in the piece ice maker with water contact and be used for the component of heat exchange, has retrieved a chinese utility model patent that publication number is CN207797474U now and has disclosed a novel piece ice maker, freeze board head and return liquid aluminium and freeze the board head including aluminium freeze board, hollow aluminium baffle, solid aluminium baffle, screw rod, fixation nut, business turn over liquid aluminium, be equipped with the multiunit through-hole in the aluminium freeze board, hollow aluminium baffle in be equipped with hollow hole, the aluminium freeze the board and be the equidistance array distribution, set up the hollow aluminium baffle of a plurality of between two adjacent aluminium freeze boards.

The utility model discloses a retrieval now is a china utility model patent that publication is CN207180120U discloses a direct evaporation formula piece ice maker, including refrigerating system, direct cooling formula evaporimeter, water supply system and control system, the four right angle departments of frame (also known as lift platform) all are equipped with the lead screw, every lead screw top all is equipped with the motor, control system control motor, four lead screw lower parts are furnished with a square lower platform, lower platform upper surface is equipped with a plurality of tracks, lower platform top is equipped with the upper mounting plate, the basal surface of upper mounting plate is equipped with a plurality of gyro wheels, every gyro wheel is arranged in on the track that corresponds, be equipped with the shrouding support on the upper mounting plate, be equipped with the shrouding on the shrouding support, the shrouding top is.

The above prior art solutions have the following drawbacks: because the evaporator can only refrigerate from two sides (namely, the heat of water is absorbed by the aluminum freezing plate), when ice is made, the two sides close to the aluminum freezing plate are solidified into ice in advance, and if the whole ice block can be taken out, the ice block can be taken out only by gradually waiting for the heat in the middle and at the bottom of the ice block to be absorbed and completely solidified, the time spent is relatively long, and after the closing plate descends, the ice block is quickly solidified and bonded on the closing plate and is difficult to take out.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a lift platform and piece ice maker with refrigeration and heating function has the advantage that the ice is convenient, system ice efficiency is higher of getting ice.

The above object of the present invention is achieved by the following technical solutions: a lift platform with refrigeration and heating functions, comprising: the platform comprises a platform main body, a bottom sealing plate and a pipeline;

the platform main body is driven to lift, the bottom sealing plate is arranged on the upper surface of the platform main body and used for abutting and sealing the bottom of the evaporator, a flow channel which is arranged in a roundabout mode is arranged in the bottom sealing plate, two pipelines are arranged at the end portions of the bottom sealing plate, one pipeline is used for inputting a refrigerating medium or a heating medium into the flow channel, and the other pipeline is used for discharging the refrigerating medium or the heating medium in the flow channel.

By adopting the technical scheme, when ice is needed to be made, the platform main body can be driven to rise, so that the bottom sealing plate is abutted and sealed with the bottom of the evaporator, a refrigeration medium is introduced into one pipeline at the moment, the refrigeration medium can take away the heat at the bottom of the water in the evaporator in the flowing process of the flow channel and then flows out of the other pipeline, and then the two-side refrigeration effect of the evaporator is combined, so that the purpose of three-side refrigeration (two side surfaces and the bottom surface) is realized, and the ice making efficiency is improved by increasing the way of taking away the heat; when ice is got to needs, the platform main part can be driven and descend to end shrouding and the separation of evaporimeter bottom, the ice-cube that has made can be driven by lift platform and descend, through heating medium in to a pipeline this moment, the in-process that heating medium flows in the flow channel can carry out the heating of certain degree to the bottom of ice-cube, then flows out in following another pipeline, so that the ice-cube is difficult to bond with the surface of end shrouding mutually, thereby conveniently takes out the ice-cube on the lift platform.

The utility model discloses further set up to, end shrouding includes: an aluminum freezing plate and a plug head,

the aluminum freezing plate is provided with a plurality of through holes which are arranged at intervals and used for circulating a refrigerating medium or a heating medium, and the adjacent through holes are separated by a first partition plate;

the two plugs are respectively arranged at two ends of the aluminum freezing plate, a concave cavity is arranged at one side of each plug close to the aluminum freezing plate, a plurality of second partition plates are arranged in the concave cavity, and the second partition plates and the first partition plates are arranged in a staggered mode to form a circuitous flow channel in the bottom sealing plate;

the two pipelines are connected to the same plug or respectively connected to the two plugs, and the pipelines are communicated with the corresponding cavities.

Through adopting above-mentioned technical scheme, the end sealing board of above-mentioned structure is not only firm, and the board and the end cap all make things convenient for preparation and equipment are frozen to the aluminium moreover, can combine through-hole and cavity to form the runner through first baffle and second baffle dislocation arrangement moreover, and the cost of manufacture is lower.

The utility model discloses further set up to, the inner wall of through-hole is provided with many archs, bellied lay the direction with the extending direction of through-hole is unanimous.

Through adopting above-mentioned technical scheme, when refrigeration medium or heating medium circulated in the through-hole, the arch has increased through-hole inner wall and refrigeration medium or heating medium's area of contact, in order to make things convenient for the refrigeration medium to take away more heat, in order to strengthen heating medium's heating effect, energy-concerving and environment-protective, and the protruding structural strength that can strengthen the board that freezes, make it be difficult for the compressive deformation, bellied direction of laying is unanimous with the extending direction of through-hole simultaneously, refrigeration medium or heating medium pass through the in-hole like this, the arch is smaller to refrigeration medium or heating medium's resistance, it is more smooth and easy to circulate.

The utility model discloses further set up as, the quantity of through-hole is between 3-6, the cross-section of through-hole is the rectangle form.

Through adopting above-mentioned technical scheme, the quantity of through-hole can ensure that the circulation in the single through-hole is bigger in above-mentioned within range, is unlikely to be obstructed because of the through-hole undersize, also can not influence the structural strength that the board was frozen to the aluminium because the through-hole is too big, is the rectangle form with the cross-sectional design of through-hole simultaneously, just with the rectangle structure phase-match of board is frozen to the aluminium, easily shaping preparation.

The utility model discloses further set up to, one side that the board was frozen to the aluminium is provided with the card strip, the opposite side that the board was frozen to the aluminium be provided with the draw-in groove of card strip looks adaptation.

Through adopting above-mentioned technical scheme, when two adjacent aluminium freeze between the board need weld the fixed, can insert the draw-in groove with the card strip earlier to realize two adjacent aluminium and freeze between the board in advance fixed, can conveniently weld both like this, freeze between the board at two adjacent aluminium moreover after fixed, block strip and draw-in groove separate the fender each other, prevent effectively that two adjacent aluminium from freezing the unsmooth dislocation of each other between the board, the structure is more firm.

The utility model discloses further set up to, the board is equipped with is frozen to aluminium one side both ends of draw-in groove all are provided with the breach, the breach is used for adjacently welded fastening between the board is frozen to aluminium.

Through adopting above-mentioned technical scheme, when needing welded fastening between two adjacent frozen aluminum plates, great space can be reserved to the breach to be used for the welding, after the solder joint filled up this breach completely, can weld more firmly between two frozen aluminum plates, difficult not hard up.

The utility model discloses further set up to, the platform main part includes: frame, heat preservation cotton and covering, the frame is provided with the confession the pit of end shrouding embedding, heat preservation cotton fill in the frame and around end shrouding side wall and bottom are arranged, the covering is fixed in the surface of frame just will heat preservation cotton separate keep off in the frame.

Through adopting above-mentioned technical scheme, the heat preservation cotton has good heat preservation effect, from the in-process of refrigeration medium or heating medium circulation in the end seal board, the energy is difficult for running off, and is more energy-concerving and environment-protective, and the frame has strengthened the structural strength of platform main part, and the covering can prevent that the heat preservation cotton from droing moreover, has good guard action to the heat preservation cotton.

The second purpose of the utility model is to provide an ice cube maker, which has the advantages of convenient ice taking and higher ice making efficiency.

The above object of the present invention is achieved by the following technical solution: an ice cube maker, comprising: the lifting platform with the refrigerating and heating functions, the frame, the evaporator, the driving mechanism and the medium supply system are described above;

the evaporator and the driving mechanism are installed on the rack, the lifting platform is located below the evaporator, the driving mechanism is used for driving the lifting platform to lift, and the medium supply system is communicated with the pipeline and is used for providing a refrigerating medium or a heating medium.

By adopting the technical scheme, when ice is needed to be made, the platform main body can be driven by the driving mechanism to rise, so that the bottom sealing plate is abutted and sealed with the bottom of the evaporator, a refrigeration medium is introduced into one pipeline through the medium supply system at the moment, the heat at the bottom of water in the evaporator can be taken away by the refrigeration medium in the flowing process of the pipeline and then flows out of the other pipeline, and then the two-side refrigeration effect of the evaporator is combined, so that the purpose of three-side refrigeration (two side surfaces and the bottom surface) is realized, and the ice making efficiency is improved by increasing the way of taking away the heat; when ice is got to needs, the platform main part can be descended by actuating mechanism drive to end shrouding and the bottom separation of evaporimeter, the ice-cube that makes can be driven by lift platform and descend, pass through heating medium in to a pipeline through medium supply system this moment, the in-process that heating medium flows in the flow channel can carry out the heating of certain degree to the bottom of ice-cube, then flow out in following another pipeline, so that the ice-cube is difficult to bond with the surface of end shrouding mutually, thereby conveniently take out the ice-cube on the lift platform.

To sum up, the utility model discloses a beneficial technological effect does:

firstly, when ice is needed to be made, the platform main body can be driven to rise, so that the bottom sealing plate is abutted and sealed with the bottom of the evaporator, a refrigeration medium is introduced into one pipeline at the moment, the refrigeration medium can take away the heat at the bottom of the water in the evaporator in the flowing process of the pipeline and then flows out of the other pipeline, and then the two-side refrigeration effect of the evaporator is combined, so that the purpose of three-side refrigeration (two side surfaces and the bottom surface) is achieved, and the ice making efficiency is improved by increasing the way of taking away the heat; when ice needs to be taken, the platform main body can be driven to descend, so that the bottom sealing plate is separated from the bottom of the evaporator, the prepared ice blocks can be driven to descend by the lifting platform, at the moment, a heating medium passes through one pipeline, the bottom of the ice blocks can be heated to a certain degree in the flowing process of the heating medium in the flow channel, and then the ice blocks flow out of the other pipeline, so that the ice blocks are not easy to adhere to the surface of the bottom sealing plate, and the ice blocks on the lifting platform can be conveniently taken out;

secondly, when refrigeration medium or heating medium circulated in the through-hole, the arch increased the area of contact of through-hole inner wall with refrigeration medium or heating medium, in order to make things convenient for the refrigeration medium to take away more heats, in order to strengthen heating medium's heating effect, energy-concerving and environment-protective, and the arch can strengthen the structural strength of board is frozen to the aluminium, make it be difficult for the pressurized deformation, bellied direction of laying is unanimous with the extending direction of through-hole simultaneously, refrigeration medium or heating medium pass through the in-process in the through-hole like this, the arch is smaller to refrigeration medium or heating medium's resistance, the circulation is more smooth and easy.

Drawings

Fig. 1 is a schematic structural diagram of a first embodiment of the present invention;

FIG. 2 is a schematic cross-sectional view of an aluminum freezing plate according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a plug according to a first embodiment of the present invention;

FIG. 4 is a schematic front view of an aluminum freezing plate according to an embodiment of the present invention;

FIG. 5 is an enlarged view at A in FIG. 1;

fig. 6 is a schematic structural diagram of a second embodiment of the present invention.

Reference numerals: 1. a frame; 2. a lifting platform; 21. a platform body; 211. a frame; 212. heat preservation cotton; 213. covering a skin; 22. a bottom sealing plate; 221. a frozen plate; 2211. a through hole; 2212. a first separator; 2213. a protrusion; 2214. clamping the strip; 2215. a card slot; 2216. a notch; 222. a plug; 2221. a concave cavity; 2222. a second separator; 23. a pipeline; 3. an evaporator; 4. a drive mechanism; 5. a media supply system.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The first embodiment is as follows:

referring to fig. 1, for the utility model discloses a lift platform with refrigeration and heating function, include: platform body 21, bottom closure plate 22 and conduits 23.

The platform main body 21 is driven to ascend and descend, the bottom sealing plate 22 is disposed on the upper surface of the platform main body 21 and used for abutting against and sealing the bottom of the evaporator 3 (shown in fig. 6), a circuitous flow channel is disposed in the bottom sealing plate 22, two pipes 23 are disposed at the end of the bottom sealing plate 22, one pipe 23 is used for inputting a cooling medium or a heating medium into the flow channel, and the other pipe 23 is used for discharging the cooling medium or the heating medium from the flow channel.

As shown in connection with fig. 1, bottom closure plate 22 includes: the aluminum plate 221 and the plug 222, the aluminum plate 221 has three blocks, but in other embodiments, two or four or more blocks of the aluminum plate 221 may also be provided, as shown in fig. 2, a plurality of through holes 2211 are arranged at intervals in the aluminum plate 221, the through holes 2211 are used for circulating a cooling medium or a heating medium, and adjacent through holes 2211 are separated by a first partition 2212; as shown in fig. 3, two plugs 222 are provided and are respectively provided at two ends of the freeze plate 221, a concave cavity 2221 is provided at one side of the plug 222 close to the freeze plate 221, a plurality of second partition plates 2222 are provided in the concave cavity 2221, and the second partition plates 2222 and the first partition plates 2212 are arranged in a staggered manner to form a circuitous flow passage in the bottom seal plate 22 (in other embodiments, the circuitous water pipe may be pre-buried in the bottom seal plate 22 in a formation manner of the flow passage, and then a refrigeration medium is introduced into the water pipe to realize a refrigeration function, and a heating medium is introduced into the water pipe to realize a heating function; while the two tubes 23 are connected to the same plug 222, in other embodiments, the two tubes 23 may be connected to the two plugs 222, respectively, and the tubes 23 are in communication with the corresponding cavities 2221. The bottom sealing plate 22 with the structure is firm, the freezing plate 221 and the plug 222 are manufactured and assembled conveniently, a flow passage is formed by the staggered arrangement of the first partition 2212 and the second partition 2222 and the combination of the through hole 2211 and the cavity 2221, and the manufacturing cost is low.

The inner wall of the through hole 2211 is provided with a plurality of protrusions 2213, and the arrangement direction of the protrusions 2213 is consistent with the extending direction of the through hole 2211. When the refrigeration medium or the heating medium circulates in the through hole 2211, the contact area between the inner wall of the through hole 2211 and the refrigeration medium or the heating medium is increased by the protrusion 2213, so that more heat can be taken away by the refrigeration medium conveniently, the heating effect of the heating medium is enhanced, the energy conservation and the environmental protection are realized, the structural strength of the aluminum freezing plate 221 can be enhanced by the protrusion 2213, the aluminum freezing plate is not easy to deform under pressure, meanwhile, the arrangement direction of the protrusion 2213 is consistent with the extension direction of the through hole 2211, in the circulation process of the refrigeration medium or the heating medium in the through hole 2211, the resistance of the protrusion 2213 to the refrigeration medium or the heating medium is smaller, and the circulation is.

The number of the through holes 2211 is 5, and in other embodiments, the number may be 3, 4 or 6, and the cross section of the through holes 2211 may be rectangular, and in other embodiments, the shape may be circular or elliptical. The number of the through holes 2211 is within the above range, which not only can ensure that the flow rate in a single through hole 2211 is relatively large, but also cannot be blocked due to the undersize of the through hole 2211, and the structural strength of the aluminum freezing plate 221 cannot be influenced due to the oversized through hole 2211, and meanwhile, the cross section of the through hole 2211 is designed to be rectangular, so that the cross section is just matched with the rectangular structure of the aluminum freezing plate 221, and the aluminum freezing plate is easy to mold and manufacture.

As shown in fig. 2 and 4, a clamping strip 2214 is disposed on one side of the freezing plate 221, and a clamping groove 2215 matched with the clamping strip 2214 is disposed on the other side of the freezing plate 221. When needing welded fastening between two adjacent aluminium freeze boards 221, can insert draw-in groove 2215 with card strip 2214 earlier to realize two adjacent aluminium freeze boards 221 between the pre-fixing, can conveniently weld both like this, after fixed between two adjacent aluminium freeze boards 221, card strip 2214 and draw-in groove 2215 separate the fender each other, prevent effectively that two adjacent aluminium from freezing that each other is unsmooth dislocation between the board 221, the structure is more firm.

The board 221 that freezes all is provided with breach 2216 at the one side both ends that are equipped with draw-in groove 2215, breach 2216 is fan-shaped form, breach 2216 is used for adjacent aluminium to freeze welded fastening between the board 221, when needs welded fastening between two adjacent aluminium freeze boards 221, great space can be reserved to breach 2216 to be used for the welding, after filling up this breach 2216 completely when the solder joint, can weld more firmly between two aluminium freeze boards 221, difficult not hard up.

As shown in fig. 1 and 5, the platform main body 21 includes: frame 211, heat preservation cotton 212 and covering 213, covering 213 specifically is formed by the stainless steel welding, and frame 211 is provided with the pit that supplies end shrouding 22 to imbed, and heat preservation cotton 212 fills in frame 211 and arranges around end shrouding 22 side wall and bottom, and covering 213 is fixed in the surface of frame 211 and keeps off heat preservation cotton 212 in frame 211. The heat preservation cotton 212 has good heat preservation effect, and from the in-process of refrigeration medium or heating medium circulation in end seal board 22, the energy is difficult for losing, and is more energy-concerving and environment-protective, and frame 211 has strengthened the structural strength of platform main part 21, and covering 213 can prevent that the heat preservation cotton 212 from droing moreover, has good guard action to the cotton 212 of heat preservation.

The implementation principle of the embodiment is as follows: when ice is needed to be made, the platform main body 21 is driven to rise, so that the bottom sealing plate 22 is abutted and sealed with the bottom of the evaporator 3, a refrigeration medium is introduced into one pipeline 23 at the moment, the refrigeration medium takes away heat at the bottom of water in the evaporator 3 in the flowing process of the pipeline, then flows out of the other pipeline 23, and then the two-side refrigeration effect of the evaporator 3 is combined, so that the purpose of three-side refrigeration (two side surfaces and the bottom surface) is achieved, and the ice making efficiency is improved by increasing the way of taking away the heat; when ice is got to needs, platform main part 21 can be driven and descend to end shrouding 22 and the 3 bottom phase separations of evaporimeter, the ice-cube that makes can be driven by lift platform 2 and descend, pass through heating medium in to a pipeline 23 this moment, the in-process that heating medium flowed in the runner can carry out the heating of certain degree to the bottom of ice-cube, then flow out in following another pipeline 23, so that the ice-cube is difficult to bond with end shrouding 22's surface mutually, thereby conveniently take out the ice-cube on the lift platform 2.

Example two:

referring to fig. 1 and 6, for the utility model discloses an ice cube maker, include: the lifting platform 2 with cooling and heating functions, the frame 1, the evaporator 3, the driving mechanism 4 and the medium supply system 5 are as described in the first embodiment. The evaporator 3 and the driving mechanism 4 are installed on the frame 1, the lifting platform 2 is located below the evaporator 3, the driving mechanism 4 is used for driving the lifting platform 2 to lift, and the medium supply system 5 is communicated with the pipeline 23 and is used for providing a refrigerating medium or a heating medium.

The principle of actuating mechanism 4 is unanimous with the principle that chinese utility model patent publication number is CN207180120U discloses a direct evaporation formula piece ice maker, orders about lift platform 2 through motor and screw lead screw and goes up and down equally, the structure of evaporimeter 3 and chinese utility model patent publication number is CN207797474U disclose a novel structure of piece ice maker unanimous, medium supply system 5 can provide power through compressor or liquid pump, the refrigerant medium can be refrigerant or secondary refrigerant, the heating medium then can be for hot water or hot oil etc. that have heated.

The implementation principle of the embodiment is as follows: when ice is needed to be made, the platform main body 21 is driven to rise by the driving mechanism 4, so that the bottom sealing plate 22 is abutted and sealed with the bottom of the evaporator 3, at the moment, a refrigeration medium is introduced into one pipeline 23 through the medium supply system 5, the refrigeration medium can take away heat at the bottom of water in the evaporator 3 in the flowing process of the pipeline and then flows out of the other pipeline 23, and then the two-side refrigeration effect of the evaporator 3 is combined, so that the purpose of three-side refrigeration (two side surfaces and the bottom surface) is realized, and the ice making efficiency is improved by increasing the way of taking away the heat; when ice is got to needs, platform main part 21 can be driven by actuating mechanism 4 and descend to end shrouding 22 and the 3 bottom phase separations of evaporimeter, the ice-cube that makes can be driven by lift platform 2 and descend, pass through heating medium in 5 to a pipeline 23 through medium supply system this moment, the in-process that heating medium flows in the runner can carry out the heating of certain degree to the bottom of ice-cube, then flow out from another pipeline 23, so that the ice-cube is difficult to bond with end shrouding 22's surface mutually, thereby conveniently take out the ice-cube on the lift platform 2.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (8)

1. The utility model provides a lift platform with refrigeration and heating function which characterized in that includes: a platform main body (21), a bottom sealing plate (22) and a pipeline (23);

the platform is characterized in that the platform main body (21) is driven to lift, the bottom sealing plate (22) is arranged on the upper surface of the platform main body (21) and used for abutting against and sealing the bottom of the evaporator (3), a flow channel which is arranged in a winding manner is arranged in the bottom sealing plate (22), two pipelines (23) are arranged at the end parts of the bottom sealing plate (22), one pipeline (23) is used for inputting a refrigerating medium or a heating medium into the flow channel, and the other pipeline (23) is used for discharging the refrigerating medium or the heating medium in the flow channel.

2. Lifting platform with cooling and heating functions, according to claim 1, characterized in that said bottom closing plate (22) comprises: an aluminum freezing plate (221) and a plug (222),

the aluminum freezing plate (221) is provided with a plurality of through holes (2211) which are arranged at intervals, the through holes (2211) are used for circulation of a refrigerating medium or a heating medium, and the adjacent through holes (2211) are separated by a first partition plate (2212);

the two plugs (222) are arranged at two ends of the aluminum freezing plate (221) respectively, a cavity (2221) is arranged at one side, close to the aluminum freezing plate (221), of each plug (222), a plurality of second partition plates (2222) are arranged in each cavity (2221), and the second partition plates (2222) and the first partition plates (2212) are arranged in a staggered mode to form the circuitous flow channel in the bottom sealing plate (22);

the two pipelines (23) are connected to the same plug (222) or are respectively connected to the two plugs (222), and the pipelines (23) are communicated with the corresponding cavities (2221).

3. The lifting platform with cooling and heating functions as claimed in claim 2, wherein the inner wall of the through hole (2211) is provided with a plurality of protrusions (2213), and the arrangement direction of the protrusions (2213) is consistent with the extension direction of the through hole (2211).

4. Lifting platform with cooling and heating functions, according to claim 2, characterized by the fact that the number of through holes (2211) is comprised between 3 and 6, the cross section of said through holes (2211) being rectangular.

5. The lifting platform with cooling and heating functions as claimed in claim 2, wherein a clamping strip (2214) is provided on one side of the freezing plate (221), and a clamping groove (2215) adapted to the clamping strip (2214) is provided on the other side of the freezing plate (221).

6. The lifting platform with cooling and heating functions as claimed in claim 5, wherein both ends of one side of the freezing plate (221) provided with the clamping grooves (2215) are provided with notches (2216), and the notches (2216) are used for welding and fixing the adjacent freezing plates (221).

7. Lifting platform with cooling and heating functions, according to claim 1, characterized in that said platform body (21) comprises: frame (211), heat preservation cotton (212) and covering (213), frame (211) are provided with the confession the pit of end shrouding (22) embedding, heat preservation cotton (212) fill in frame (211) and around end shrouding (22) side wall and bottom are arranged, covering (213) are fixed in the surface of frame (211) and will heat preservation cotton (212) separate keep off in frame (211).

8. An ice cube maker, comprising: the lifting platform (2) with cooling and heating function, the machine frame (1), the evaporator (3), the drive mechanism (4) and the medium supply system (5) as claimed in any of claims 1 to 7;

the evaporator (3) and the driving mechanism (4) are installed on the rack (1), the lifting platform (2) is located below the evaporator (3), the driving mechanism (4) is used for driving the lifting platform (2) to lift, and the medium supply system (5) is communicated with the pipeline (23) and is used for providing a refrigerating medium or a heating medium.

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