CN213631101U

CN213631101U - Large-scale fruit freezer

Info

Publication number: CN213631101U
Application number: CN202020822238.3U
Authority: CN
Inventors: 傅峰峰; 江志强; 何静子; 聂健基; 张兴伟; 李焯荣
Original assignee: Guangzhou Fugang Wanjia Intelligent Technology Co Ltd
Current assignee: Guangzhou Fugang Life Intelligent Technology Co Ltd
Priority date: 2020-05-15
Filing date: 2020-05-15
Publication date: 2021-07-06
Anticipated expiration: 2030-05-15

Abstract

The utility model relates to a large-scale fruit freezer, a wall A of the cabinet body is opened there is the feed opening, and the feed opening department installs a body, from feed opening one side edge P, the distance L of the required removal of adjacent wall P is less than from this edge P to its distance H to the side edge q toward keeping away from the feed opening direction, and the door body is the flexible deformation structure, and the door body is opened the door toward wall P along wall A removes, removes to wall P department then flexible deformation turn to continue to remove until opening the feed opening completely along wall P. Although the distance L from the edge P of the feeding opening to the wall surface P is smaller than the distance H from the edge P to the opposite side edge q of the feeding opening, the door body is of a flexible deformation structure, after the door body is moved to the position of the wall surface P, the flexible deformation turns to the movement along the wall surface P, the door body moves along the wall surface of the cabinet body, and compared with a switch door used in the prior art, a sector space for rotating the switch door does not need to be reserved, so that the occupied space of the large-sized fruit refrigerator is reduced.

Description

Large-scale fruit freezer

Technical Field

The utility model relates to an automatic sell the field, especially relate to a large-scale fruit freezer.

Background

The device used in the vending machine specifically for refrigerating large fruits such as watermelon or cantaloupe can be called a large fruit refrigerator. At present, a large-sized fruit refrigerator is generally provided with a cabinet body for containing large-sized fruits, a feed opening is formed in a certain wall surface of the cabinet body, and a feed door is installed at the feed opening. For the large-scale fruit refrigerator, the commonly used discharging door comprises a movable baffle and an opening and closing door.

As shown in fig. 1, a wall a of the cabinet is provided with a feed opening M, and if a movable baffle for opening the door upwards is installed at the feed opening M, the distance L from the edge P of the feed opening M to the wall P is greater than the distance H from the edge P to the opposite edge q, so that the movable baffle installed at the feed opening M can move upwards to completely open the feed opening M. If the distance L from the edge P of the discharging opening M to the wall surface P is smaller than the distance H from the edge P to the opposite side edge q, as shown in fig. 2, if a movable baffle is installed at the discharging opening M, the movable baffle moves upwards to not completely open the discharging opening M, so that fig. 2 uses a pivoting type opening and closing door without using the movable baffle, and thus, a sector space for the opening and closing door to rotate needs to be reserved.

SUMMERY OF THE UTILITY MODEL

The technical problem solved by the utility model is to provide a large-scale fruit freezer that occupation space is little.

In order to realize the above-mentioned purpose, the utility model provides a large-scale fruit freezer, a wall A of the cabinet body is opened there is the feed opening, the feed opening department installs a body, from feed opening one side edge P, the distance L of the required removal of adjacent wall P is less than from this edge P to its distance H to side edge q, the door body is the flexible deformation structure, the door body is opened the door along wall A toward wall P removal, remove to wall P department then the flexible deformation turn to continue to remove until opening the feed opening completely along wall P.

The utility model provides a pair of large-scale fruit freezer, although feed opening edge P is less than edge P to its distance H to edge q to wall P's distance L, nevertheless because this door body is the flexible deformation structure, after removing to wall P department, the flexible deformation turns to for continuing to remove along wall P, this door body removes along the wall of the cabinet body, compare with the switch door that prior art used, need not reserve out and supply switch door pivoted fan-shaped space to this kind of large-scale fruit freezer's occupation space has been reduced.

Drawings

FIG. 1 is a schematic view of a prior art large fruit chiller;

FIG. 2 is a schematic view of another prior art large fruit chiller;

FIG. 3 is a front view of a large fruit chiller;

FIG. 4 is a perspective view of the large fruit chiller shown in FIG. 1;

FIG. 5 is a schematic view of the large fruit chiller shown in FIG. 1 with the roller blinds and watermelon removed;

fig. 6 is a schematic view of the transparentization of fig. 5.

In the figure: A. front wall surface, P, top wall surface, Q, rear wall surface, P, upper edge, Q, lower edge, 1, cabinet body, 2, feeding port, 3, storage channel, 31, bottom storage channel, 4, feeding guide, 41, first guide rod, 42, second guide rod, 5, circular arc-shaped bearing part, 61, first watermelon, 62, second watermelon, 7, blanking guide, 81, third guide rod, 82, fourth guide rod, 9, blanking port, 10, pushing mechanism, 101, bottom pushing mechanism, 11, pushing plate, 12, motor, 13, front guide shaft, 14, rear synchronous shaft, 15, driving motor, 16, fifth idle wheel, 17, sixth idle wheel, 18, third synchronous belt, 191, first idle wheel, 192, second idle wheel, 201, first smooth pulley, 202, second smooth pulley, 211, third idle wheel, 212, fourth idle wheel, 221, left track, 222. right track, 231, first synchronous belt, 232, second synchronous belt, 24, rolling door, 241, lower extreme.

Detailed Description

As shown in fig. 3 and 4, the large-scale fruit refrigerator includes a cabinet 1, a feed opening 9 is opened at the right part of the front wall surface a of the cabinet 1, a roller shutter door 24 is installed at the feed opening 9, and the roller shutter door 24 is provided with a left rail 221 and a right rail 222. As shown in fig. 4, a left rail 221 and a right rail 222 are respectively installed at the left edge and the right edge of the feed opening, the left rail 221 and the right rail 222 are identical in shape and are installed inside the wall surface of the cabinet 1, and extend from the lower edge Q of the feed opening 9 to the top wall surface P through the upper edge P, as shown in fig. 6, the rails turn to extend continuously along the top wall surface P, and turn to extend continuously along the rear wall surface Q when extending to the rear wall surface Q of the cabinet 1. As shown in fig. 6, a first timing belt 231 and a second timing belt 232 are respectively accommodated in the left rail 221 and the right rail 222, and the first timing belt 231 and the second timing belt 232 are respectively connected to both sides of the roll door 24. The first timing belt 231 is mounted on the first idler 191, the first optical pulley 201, and the third idler 211, and the second timing belt 232 is mounted on the second idler 192, the second optical pulley 202, and the fourth idler 212. A third idle gear 211 is installed at a lower portion of the front wall surface a, a fourth idle gear 212 is installed at a lower portion of the right wall surface near the front wall surface a, first and second

smooth pulleys

201 and 202 are installed at both ends of the front synchronizing shaft 13, respectively, and first and second idle gears 191 and 192 are installed at both ends of the rear synchronizing shaft 14, respectively. The front synchronous shaft 13 and the rear synchronous shaft 14 are both mounted on the bottom wall surface of the cabinet body 1, the front synchronous shaft 13 is located at the middle part of the bottom wall surface, the rear synchronous shaft 14 is located near the rear wall surface Q, the middle part of the rear synchronous shaft 14 is provided with a fifth idle pulley 16, the rear synchronous shaft 14 is driven by a driving motor 15, a sixth idle pulley 17 (see fig. 3) is mounted on the shaft of the driving motor 15, a third synchronous belt 18 (see fig. 3) is mounted on the fifth idle pulley 16 and the sixth idle pulley 17, the driving motor 15, the first idle pulley 191, the second idle pulley 192, the first light pulley 201, the second light pulley 202, the third idle pulley 211, the fourth idle pulley 212, the front synchronous shaft 13 and the rear synchronous shaft 14 jointly form a driving device, the driving motor 15 rotates to drive the third synchronous belt 18 to rotate so as to drive the rear synchronous shaft 14 to rotate, and the first idle pulley 191 and the second idle pulley 192 mounted at two ends of the rear synchronous shaft 14 respectively drive, The second synchronous belt 232 rotates simultaneously, the first synchronous belt 231 and the second synchronous belt 232 drive the roller shutter door 24 to move along the left rail 221 and the right rail 222 together, as shown in fig. 4, the roller shutter door 24 moves to the position of the top wall surface P along the front wall surface a and then turns to move continuously along the top wall surface P, and moves to the position of the rear wall surface Q and then turns to move continuously along the rear wall surface Q until the lower end 241 of the roller shutter door 24 moves up to the position of the upper edge P and then the feed opening 9 is completely opened.

As shown in fig. 4, the left wall of the cabinet body 1 is provided with four feeding ports 2 arranged up and down, the four feeding ports 2 are respectively corresponding to four feeding doors, the four feeding doors are respectively used for covering the corresponding feeding ports 2, the four feeding doors can be installed on the cabinet body 1 and also can be installed on the fruit vending machine, as long as the four feeding doors can be ensured to cover the corresponding feeding ports 2 respectively so that the cabinet body 1 forms a closed environment, and the feeding doors in the embodiment are installed on the fruit vending machine. As shown in fig. 4 to 6, four storage channels 3 for placing large fruits are arranged in the cabinet body up and down, the four storage channels 3 respectively have four inlets, the four inlets respectively correspond to the four feeding ports, the four storage channels 3 respectively have four outlets, and the four outlets are arranged up and down. In order to simplify the door opening control of the feed opening 9, the four outlets face the feed opening 9 together, the upper edge p of the feed opening 9 is not lower than the upper edge of the uppermost outlet, and the lower edge q of the feed opening is not higher than the lower edge of the lowermost outlet, so that when the lower end 241 of the rolling door 24 moves up to the upper edge p, the feed opening 9 is completely opened, the four outlets are all opened, and large fruits placed in the four storage channels 3 can be fed from the feed opening 9. The four material storage channels 3 are respectively and correspondingly provided with four material pushing mechanisms 10, and the working process will be described below by taking a bottom layer material storage channel 31 with an inlet corresponding to the feeding port 21 and a bottom layer material pushing mechanism 101 with an inlet corresponding to the bottom layer material storage channel 31 as an example.

As shown in fig. 6, the bottom layer storing channel 31 includes a feeding guide 4, an arc-shaped bearing member 5 and a discharging guide 7, the feeding guide 4 includes two first guide rods 41 and two second guide rods 42 which are high right and low left, the left side of the arc-shaped bearing member 5 is open and faces the feeding opening 21, two ends of the arc-shaped bearing member 5 are respectively connected with the right end of the first guide rod 41 and the right end of the second guide rod 42, the left end of the first guide rod 41 and the left end of the second guide rod 42 are connected with the inner side of the left wall surface, as shown in fig. 4, two

watermelons

61 and 62 can be placed on the bottom layer storing channel 31, during the process that a user puts

watermelons

61 and 62 from the feeding opening 21 to the bottom layer storing channel 31, the first watermelon 61 passes through the feeding opening 21 and is placed on the feeding guide 4 by the user, the first watermelon 61 automatically rolls to the arc-shaped bearing member 5 under the action of the feeding guide 4, the second watermelon 62 is supported by the circular arc-shaped support part 5 and then does not move, passes through the feeding hole 21 and is placed on the feeding guide 4 by a user, and the second watermelon 62 stays on the feeding guide 4 because of being blocked by the first watermelon 61. Referring to fig. 3 and 4, the first watermelon 61 is carried by the circular arc-shaped bearing part 5 and does not move any more, and if the first watermelon 61 is to be separated from the circular arc-shaped bearing part 5, a bottom layer pushing mechanism 101 capable of pushing the first watermelon 61 away from the circular arc-shaped bearing part 5 needs to be installed. The bottom layer pushing mechanism 101 is positioned at the rear side of the circular arc-shaped bearing part 5 and comprises a pushing plate 11 and a motor 12, the motor 12 drives the pushing plate 11 to rotate from the horizontal position to the vertical position, the pushing plate 11 pushes the first watermelon 61 away from the circular arc-shaped bearing part 5, the first watermelon 61 leaves the circular arc-shaped bearing part 5 and enters the blanking guide 7, simultaneously, the motor 15 is driven to rotate forward to move the lower end 241 (see figure 4) of the roller shutter door 24 upwards to open the feed opening 9, as shown in fig. 5, the blanking guide 7 includes a third guide bar 81 and a fourth guide bar 82 which are high at the back and low at the front, as shown in fig. 6, the rear ends of the third guide bar 81 and the fourth guide bar 82 are connected to the front side of the circular arc-shaped carrier 5, respectively, and the discharging guide 7 guides the watermelon leaving the circular arc-shaped carrier 5 to the outlet of the bottom layer storing passage 31 so that the watermelon is discharged from the opened discharging opening 9. The feed opening 9 does not need to be completely opened, the lower end 241 (see fig. 4) only needs to be moved to a position where the first watermelon 61 can pass through, after the first watermelon 61 leaves from the feed opening 9, the rotating motor 15 is driven to rotate reversely to enable the lower end 241 to move downwards to close the feed opening 9, meanwhile, the material pushing plate 11 rotates to be in a horizontal state, and the second watermelon 62 is automatically rolled to the circular arc-shaped bearing part 5 under the action of the feeding guide 4 without the blockage of the first watermelon 61, so that the circular arc-shaped bearing part 5 bears the load.

Claims

1. A large-scale fruit freezer, a wall A of the cabinet body is opened there is the feed opening, and the feed opening department installs a body, from feed opening one side edge P, toward keeping away from its to the required distance L that moves of adjacent wall P to the direction of side edge q is less than from this edge P to its to the distance H of side edge q, and its characterized in that door body is the flexible deformation structure, and the door body is opened the door along wall A toward wall P removal, moves to wall P department then the flexible deformation turns to and continues to move along wall P until opening the feed opening completely.

2. A large fruit chiller as claimed in claim 1 wherein the door is a roller door.

3. A large fruit chiller as claimed in claim 1 wherein: wall a is a side wall and wall P is a top wall.

4. A large fruit chiller as claimed in claim 1 wherein the door is located inwardly of the wall when the door is opened.

5. A large fruit chiller as claimed in claim 1 wherein the door continues to move along wall P to wall Q adjacent wall P, the flexing is diverted to continue to move along wall Q until the discharge opening is fully opened.

6. A large fruit chiller as claimed in claim 1 wherein the main body has a plurality of storage channels for large fruit to be stored therein, the plurality of storage channels being arranged one above the other, the upper edge of the discharge opening being no lower than the upper edge of the outlet of the uppermost storage channel and the lower edge of the discharge opening being no higher than the lower edge of the outlet of the lowermost storage channel.

7. A large fruit chiller as claimed in claim 6 wherein edge p is the upper edge of the feed opening and edge q is the lower edge of the feed opening.

8. The large-scale fruit refrigerating cabinet according to claim 6, wherein a plurality of pushing mechanisms are correspondingly installed on the plurality of storing channels respectively for pushing the large-scale fruit placed on the storing channels to the outlet of the storing channels.

9. A large fruit chiller as claimed in any one of claims 1 to 8 wherein the door is provided with a track along which the door is adapted to move.

10. A large fruit chiller as claimed in claim 9 wherein two rails are provided, one at each edge of the feed opening adjacent edge P, the rails extending from edge q to wall P past edge P, the two sides of the door being received in the rails.

11. A large fruit chiller as claimed in claim 10 wherein the two tracks each contain two timing belts, the two timing belts are connected to respective sides of the door, and the cabinet is internally provided with a drive means for driving the door along the tracks via the timing belts.