CN213480664U

CN213480664U - Ice maker with placement moving frame

Info

Publication number: CN213480664U
Application number: CN202022290015.XU
Authority: CN
Inventors: 倪建伟
Original assignee: Shaoxing Shangyu North Electronic Manufacturing Co ltd
Current assignee: Shaoxing Shangyu North Electronic Manufacturing Co ltd
Priority date: 2020-10-15
Filing date: 2020-10-15
Publication date: 2021-06-18
Anticipated expiration: 2030-10-15

Abstract

The utility model discloses an ice maker with a mounting and moving frame, which comprises an ice maker body and a mounting and moving frame; the placing and moving frame comprises a frame; a rectangular groove-shaped placing groove is formed in the center of the upper end face of the rack; the ice maker body is arranged in the arranging groove; the left end and the right end of the lower end surface of the rack are respectively formed with a rectangular groove-shaped telescopic accommodating groove; a pair of telescopic supporting plates which are symmetrically arranged front and back are arranged in the telescopic accommodating groove; the bottom surface of the telescopic supporting plate is provided with a roller; a pair of telescopic supporting plates in the same telescopic accommodating groove are arranged in an inclined moving mode, and the inclined direction of the pair of telescopic supporting plates is inclined downwards from inside to outside; in the moving process, the telescopic supporting plate is always kept in a vertical state; the utility model has the advantages that: the ice machine body is convenient to move, the movable frame can be selectively used or not used, and the application range is greatly increased.

Description

Ice maker with placement moving frame

Technical Field

The utility model relates to a technical field of ice machine, concretely relates to ice machine with settle and remove frame.

Background

The ice maker is a refrigeration mechanical device which cools water through an evaporator by a refrigeration system refrigerant to generate ice, the ice maker adopts a refrigeration system, uses a water carrier to make ice after passing through a certain device in a power-on state, and the shape of the generated ice block is different according to the principle and the production mode of the evaporator; ice machines are generally classified in ice form into a pellet ice machine, a flake ice machine, a slab ice machine, a tube ice machine, a shell ice machine, and the like.

At present, the application of ice machines is very wide, and food processing and industrial production can both be used, but the current ice machine is not convenient for a user to move because of the big size, and when the user moves the ice machine, time and labor are wasted, and the practicability of the ice machine is reduced.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an ice machine with settle and remove frame to the technical problem that current ice machine removed and wasted time and energy.

The utility model provides an above-mentioned technical problem's technical scheme as follows: an ice maker with a placement moving rack comprises an ice maker body and the placement moving rack; the placing and moving frame comprises a rectangular frame; a rectangular groove-shaped placing groove is formed in the center of the upper end face of the rack; the ice maker body is arranged in the arranging groove; the left end and the right end of the lower end surface of the rack are respectively formed with a rectangular groove-shaped telescopic accommodating groove; a pair of telescopic supporting plates which are symmetrically arranged front and back are arranged in the telescopic accommodating groove; the bottom surface of the telescopic supporting plate is provided with a roller; a pair of telescopic supporting plates in the same telescopic accommodating groove are arranged in an inclined moving mode, and the inclined direction of the pair of telescopic supporting plates is inclined downwards from inside to outside; in the moving process, the telescopic supporting plate is always kept in a vertical state.

Preferably, two groups of inclined guide sets are formed on the left side wall and the right side wall of the telescopic accommodating groove in a front-back symmetrical mode respectively; the inclined guide group comprises a plurality of inclined guide grooves which are arranged in parallel; the inclined guide groove at the front side is arranged obliquely downwards from back to front; the inclined guide groove at the rear side is obliquely arranged downwards from front to back; the left end surface and the right end surface of the telescopic supporting plate are respectively provided with a plurality of cylindrical inclined guide posts matched with the inclined guide grooves; the inclined guide posts are arranged in the inclined guide grooves on the corresponding sides in a sliding manner; a vertical guide groove which penetrates through the telescopic support plate from front to back is formed on the telescopic support plate; a driving block is vertically movably arranged in the vertical guide groove; the front pair of driving blocks and the rear pair of driving blocks are synchronously arranged to be far away from or close to each other.

Preferably, the cross section of the vertical guide groove is in a cross shape; the driving block is shaped into a cross shape matched with the vertical guide groove.

Preferably, a front and rear driving threaded rod is pivoted between the lower parts of the front and rear side walls of the telescopic accommodating groove; external threads with opposite rotation directions are formed at the front part and the rear part of the front and rear driving threaded rod; a pair of driving blocks in the same telescopic accommodating groove is sleeved in the front-back direction and is in threaded connection with different external thread parts of the same front-back driving threaded rod; the lower part of the rear end surface of the frame is provided with a synchronous driving device; the synchronous driving device is used for driving the pair of front and back driving threaded rods to synchronously rotate.

Preferably, the left end and the right end of the lower part of the rear end surface of the frame are respectively provided with a rotary driving support plate; the synchronous driving device comprises a main driving screw rod; the main driving screw rod is pivoted on the rear end surface of the frame, and a rotating handle is fixed at the rear end of the main driving screw rod; a synchronous driving central column is rotatably arranged between the pair of rotary driving supporting plates; the left end and the right end of the synchronous driving central column are respectively provided with a driven worm; a driven worm wheel is fixed at the rear end of the front and rear driving threaded rods; the driven worm wheel is meshed with the driven worm on the corresponding side; a main driving worm wheel is fixed at the center of the synchronous driving central column; the main drive worm gear is engaged with the main drive screw.

Preferably, the left side wall and the right side wall of the placing groove respectively penetrate left and right and are in threaded connection with a plurality of limiting bolts; the front end surface and the rear end surface of the ice maker body are respectively provided with a lifting handle; the upper ends of the front and rear side walls of the placing groove are provided with avoidance grooves which penetrate through the front and rear sides; the lifting handle is higher than the bottom surface of the avoiding groove.

Preferably, in the above aspect, a rectangular groove-shaped tool receiving groove is formed in a lower portion of the front end surface of the frame.

The beneficial effects of the utility model reside in that: the ice machine body is convenient to move, the movable frame can be selectively used or not used, and the application range is greatly increased.

Drawings

Fig. 1 is a schematic structural view of a cross section of the present invention;

fig. 2 is a schematic structural view of a cross section a-a in fig. 1 according to the present invention;

fig. 3 is a rear view schematically illustrating the structure of the present invention;

in the figure, 10, an ice maker body; 11. lifting the handle; 20. arranging a movable frame; 21. a frame; 210. a placing groove; 2100. an avoidance groove; 211. a tool receiving slot; 212. a telescopic storage groove; 213. an inclined guide groove; 214. rotationally driving the support plate; 22. a telescopic supporting plate; 220. a vertical guide groove; 221. inclining the guide post; 23. a roller; 24. a drive block; 25. driving the threaded rod back and forth; 26. a driven worm gear; 27. synchronously driving the central column; 271. a driven worm; 272. a main drive worm gear; 28. a main drive screw; 281. rotating the handle; 29. and a limiting bolt.

Detailed Description

As shown in fig. 1 to 3, an ice maker having a mounting moving frame includes an ice maker body 10 and a mounting moving frame 20; the mounting moving frame 20 includes a rectangular frame 21; a rectangular groove-shaped placing groove 210 is formed in the center of the upper end face of the frame 21; the ice maker body 10 is placed in the seating groove 210; the left end and the right end of the lower end surface of the frame 21 are respectively formed with a rectangular groove-shaped telescopic receiving groove 212; a pair of telescopic supporting plates 22 which are symmetrically arranged front and back are arranged in the telescopic accommodating groove 212; the bottom surface of the telescopic supporting plate 22 is provided with a roller 23; the pair of telescopic support plates 22 in the same telescopic receiving groove 212 are arranged to be inclined and moved in an inclined direction from inside to outside; during the movement, the telescopic support plate 22 is always kept in a vertical state.

As shown in fig. 1 to 3, two sets of inclined guide sets are formed on the left and right side walls of the telescopic receiving slot 212; the inclined guide group comprises a plurality of inclined guide grooves 213 which are arranged in parallel; the inclined guide groove 213 of the front side is disposed obliquely downward from the rear to the front; the inclined guide groove 213 of the rear side is disposed obliquely downward from front to rear; a plurality of cylindrical inclined guide posts 221 matched with the inclined guide grooves 213 are respectively formed on the left end surface and the right end surface of the telescopic supporting plate 22; the inclined guide post 221 is arranged in the inclined guide groove 213 on the corresponding side in a sliding manner; a vertical guide groove 220 which penetrates through the telescopic support plate 22 from front to back is formed on the telescopic support plate; the driving block 24 is vertically movably arranged in the vertical guide groove 220; the pair of driving blocks 24 on the front side and the pair of driving blocks 24 on the rear side are simultaneously disposed to be distant from or close to each other in front and rear.

As shown in fig. 1 and 2, the cross section of the vertical guide slot 220 is cross-shaped; the driving block 24 is shaped in a cross shape to be fitted with the vertical guide groove 220.

As shown in fig. 1 to 3, a front and rear driving threaded rod 25 is pivotally connected between lower portions of front and rear side walls of the telescopic receiving groove 212; external threads with opposite rotation directions are formed at the front part and the rear part of the front and rear driving threaded rod 25; a pair of driving blocks 24 in the same telescopic receiving groove 212 are sleeved in the front-rear direction and are screwed on different external thread parts of the same front-rear driving threaded rod 25; the lower part of the rear end surface of the frame 21 is provided with a synchronous driving device; the synchronous drive means is for driving the pair of front and rear drive threaded rods 25 to rotate synchronously.

As shown in fig. 1 to 3, the left end and the right end of the lower part of the rear end surface of the frame 21 are respectively formed with a rotary driving support plate 214; the synchronous drive includes a main drive screw 28; the main driving screw 28 is pivoted on the rear end face of the frame 21 and a rotary handle 281 is fixed at the rear end of the main driving screw 28; a pair of rotary drive support plates 214 between which the synchronous drive central post 27 rotates; the left end and the right end of the synchronous driving central column 27 are respectively provided with a driven worm 271; a driven worm wheel 26 is fixed at the rear end of the front and rear driving threaded rod 25; the driven worm wheel 26 meshes with the driven worm 271 on the corresponding side; a main driving worm gear 272 is fixed at the center of the synchronous driving central post 27; the main drive worm gear 272 meshes with the main drive screw 28.

As shown in fig. 1 to 3, the left and right side walls of the installation groove 210 respectively penetrate left and right and are screwed with a plurality of limit bolts 29; the front end surface and the rear end surface of the ice maker body 10 are respectively provided with a lifting handle 11; an avoidance groove 2100 penetrating in the front and back direction is formed at the upper end of the front and back side walls of the placing groove 210; the pulling handle 11 is higher than the bottom surface of the escape groove 2100.

As shown in fig. 1, a tool receiving groove 211 having a rectangular groove shape is formed in a lower portion of the front end surface of the frame 21.

The working principle of the ice maker with the movable rack is provided;

as shown in fig. 1 to 3, in the initial state, the ice maker body 10 is placed in the placement groove 210, and the retractable support plate 22 is completely received in the retractable receiving groove 212;

when the ice maker needs to move, the pair of front and rear driving threaded rods 25 are synchronously driven to rotate through the synchronous driving device, the pair of driving blocks 24 at the front side and the pair of driving blocks 24 at the rear side are far away from each other, so that the pair of telescopic supporting plates 22 at the front side and the pair of telescopic supporting plates 22 at the rear side are downwards extended in the matching of the inclined guide column 221 and the inclined guide groove 213, and the ice maker body 10 can move by means of the placing and moving frame;

when the ice maker does not need to be moved, the ice maker body 10 can be directly placed on a table top, and also can be placed on the placing and moving frame 20 when the telescopic supporting plate 22 does not extend, so that the ice maker body 10 is convenient to use.

The above description is only for the preferred embodiment of the present invention, and for those skilled in the art, there are variations on the detailed description and the application scope according to the idea of the present invention, and the content of the description should not be construed as a limitation to the present invention.

Claims

1. An ice maker having a stationary movable rack, comprising: comprises an ice maker body (10) and a movable rack (20); the mounting moving frame (20) comprises a rectangular frame (21); a rectangular groove-shaped placing groove (210) is formed in the center of the upper end face of the rack (21); the ice maker body (10) is arranged in the arrangement groove (210); the left end and the right end of the lower end surface of the frame (21) are respectively formed with a rectangular groove-shaped telescopic receiving groove (212); a pair of telescopic supporting plates (22) which are symmetrically arranged front and back are arranged in the telescopic accommodating groove (212); the bottom surface of the telescopic supporting plate (22) is provided with a roller (23); a pair of telescopic supporting plates (22) in the same telescopic receiving groove (212) are arranged in an inclined moving way, and the inclined direction is from inside to outside and moves downwards in an inclined way; in the moving process, the telescopic supporting plate (22) is always kept in a vertical state.

2. The ice maker with a movable rack according to claim 1, wherein: two groups of inclined guide groups which are symmetrically arranged in front and back are respectively formed on the left side wall and the right side wall of the telescopic accommodating groove (212); the inclined guide group comprises a plurality of inclined guide grooves (213) which are arranged in parallel; the inclined guide groove (213) at the front side is arranged downwards obliquely from back to front; the inclined guide groove (213) at the rear side is obliquely arranged downwards from front to back; a plurality of cylindrical inclined guide posts (221) matched with the inclined guide grooves (213) are respectively formed on the left end surface and the right end surface of the telescopic supporting plate (22); the inclined guide post (221) is arranged in the inclined guide groove (213) on the corresponding side in a sliding manner; a vertical guide groove (220) which penetrates through the telescopic support plate (22) from front to back is formed on the telescopic support plate; a driving block (24) is vertically arranged in the vertical guide groove (220) in a moving way; the front pair of driving blocks (24) and the rear pair of driving blocks (24) are synchronously arranged to be far away from or close to each other.

3. The ice maker with a movable rack according to claim 2, wherein: the cross section of the vertical guide groove (220) is in a cross shape; the driving block (24) is shaped into a cross shape which is matched with the vertical guide groove (220).

4. The ice maker with a movable rack according to claim 2, wherein: a front and back driving threaded rod (25) is pivoted between the lower parts of the front and back side walls of the telescopic accommodating groove (212); external threads with opposite rotation directions are formed at the front part and the rear part of the front and rear driving threaded rod (25); a pair of driving blocks (24) in the same telescopic accommodating groove (212) are sleeved in the front-back direction and are screwed on different external thread parts of the same front-back driving threaded rod (25); a synchronous driving device is arranged at the lower part of the rear end surface of the frame (21); the synchronous driving device is used for driving a pair of front and back driving threaded rods (25) to synchronously rotate.

5. The ice maker with a movable rack according to claim 4, wherein: the left end and the right end of the lower part of the rear end surface of the frame (21) are respectively provided with a rotary driving support plate (214); the synchronous drive comprises a main drive screw (28); the main driving screw rod (28) is pivoted on the rear end surface of the frame (21), and a rotary handle (281) is fixed at the rear end of the main driving screw rod (28); a synchronous driving central column (27) is rotated between the pair of rotary driving support plates (214); driven worms (271) are respectively formed at the left end and the right end of the synchronous driving central column (27); a driven worm wheel (26) is fixed at the rear end of the front and rear driving threaded rod (25); the driven worm wheel (26) is meshed with the driven worm (271) on the corresponding side; a main driving worm wheel (272) is fixed at the center of the synchronous driving central post (27); a main drive worm gear (272) engages the main drive screw (28).

6. The ice maker with a movable rack according to claim 1, wherein: the left side wall and the right side wall of the placing groove (210) respectively penetrate left and right and are in threaded connection with a plurality of limiting bolts (29); the front end surface and the rear end surface of the ice maker body (10) are respectively provided with a lifting handle (11); an avoidance groove (2100) which penetrates through the front and the back is formed at the upper end of the front and the back side walls of the placing groove (210); the lifting handle (11) is higher than the bottom surface of the avoiding groove (2100).

7. The ice maker with a movable rack according to claim 1, wherein: a rectangular groove-shaped tool receiving groove (211) is formed in the lower portion of the front end face of the frame (21).