CN213713688U - Double-temperature-zone material exchange device - Google Patents

Abstract

A double-temperature-zone material exchange device comprises a material storage box body, wherein the material storage box body is provided with a double-temperature-zone partition plate, the double-temperature-zone partition plate is provided with a material exchange port, and a movable guide rail is fixed on the side part of the material exchange port; the movable guide rail is connected with an electric slide block, the side part of the electric slide block is connected with a sealing piece, the lower end of the sealing piece is connected with a bearing piece, and a material box placing space is formed between the bearing piece and the sealing piece; the electric slide block drives the sealing element and the bearing element to move along the movable guide rail, and the bearing element is attached to the material exchange port when being located inside the material storage box body. This technical scheme can effectively seal the cold storage district with the material at cold storage district and normal atmospheric temperature district exchange process, prevents that the temperature from crosstalking, improves the storage quality of material, only adopts a mechanism to play two effects of sealed material exchange opening and material exchange simultaneously, has simplified equipment structure, has reduced equipment cost.

Description

Double-temperature-zone material exchange device

Technical Field

The utility model relates to a food and beverage technical field, concretely relates to dual temperature zone material exchange device.

Background

With the development of science and technology, the automation degree of various industries is higher and higher. At present, people in the catering field are dedicated to research on an intelligent kitchen to replace the traditional manual cooking mode. There are a variety of intelligent kitchen solutions in the present stage, particularly one-piece solutions that can be deployed anywhere as needed, like juice beverage vending.

For automatic cooking equipment, a lot of materials need to be stored in a cold storage mode when being stored, and a door of a storage device needs to be opened to take out the materials when the automatic cooking equipment is used. The process of transferring from the cold storage area to the normal temperature area is necessarily involved in the management process of materials, as long as the materials are automatically taken and placed by using machinery, a window for a mechanical device to pass through is necessarily reserved between the cold storage area and the normal temperature area, and in the prior art, in order to avoid the loss of cold energy of the cold storage area as much as possible, a heat preservation device is generally arranged, but the heat preservation device is only limited to a heat preservation curtain and the like, and the heat preservation device cannot provide a good enough heat preservation function, so that the cold energy of the cold storage area is leaked.

In addition, prior art has set up the sealing door of independent operation specially in order to realize better sealed effect, and its mechanism of business turn over material is independent each other with the opening mechanism of sealing door, and the independent operation leads to equipment structure to complicate, has increased equipment production and maintenance cost.

SUMMERY OF THE UTILITY MODEL

Therefore, the utility model provides a dual temperature district material exchange device to solve the problem that the cold volume that brings with the material from the cold storage district shifts to the normal warm district in prior art and leaks in a large number.

In order to achieve the above object, the present invention provides the following technical solutions: a dual-temperature-zone material exchange device comprises a material storage box body, wherein a dual-temperature-zone partition plate is arranged on the material storage box body, a material exchange port is formed in the dual-temperature-zone partition plate, and a movable guide rail is fixed on the side portion of the material exchange port; the movable guide rail is connected with an electric slide block, the side part of the electric slide block is connected with a sealing piece, the lower end of the sealing piece is connected with a bearing piece, and a material box placing space is formed between the bearing piece and the sealing piece;

the electric slider drives the sealing element and the bearing element to move along the movable guide rail, and the bearing element is positioned in the material storage box body and enables the sealing element to be attached to the material exchange port.

As a preferred scheme of the dual-temperature-zone material exchange device, the top of the movable guide rail is connected with a bearing piece, and the side part of the bearing piece is connected with a driving motor; the middle part of the bearing piece is connected with an upper belt wheel; the bottom of the movable guide rail is connected with a lower belt wheel, a driving belt is connected between the upper belt wheel and the lower belt wheel, and the electric sliding block is connected with the driving belt.

As a preferred scheme of the double-temperature-zone material exchange device, matching steps are formed at the edges of the material exchange ports; the sealing element comprises an upper sealing plate and a lower sealing plate, and the sealing element is matched with the matching step through the upper sealing plate; the lower sealing plate is located in the material exchange port.

As the preferred scheme of the double-temperature-zone material exchange device, the tail end of the bearing piece is provided with fork teeth, and the fork teeth support the material box out of the material storage box body through the material exchange through hole.

As the preferred scheme of the double-temperature-zone material exchange device, the material exchange port is arranged at the top of the material storage box body, and the bearing part of the bearing part is parallel to the material exchange port.

As the preferred scheme of the double-temperature-zone material exchange device, the material exchange port is arranged on the side part of the material storage box body, and the bearing part of the bearing part is vertical to the material exchange port.

As the preferred scheme of the double-temperature-zone material exchange device, the material storage box is used for taking out the lunch box from the inside of the material storage box body, and the bottom of the lunch box is provided with an inserting and taking opening.

As the preferable scheme of the double-temperature-zone material exchange device, the double-temperature-zone material exchange device is used for an automatic cooker, an unmanned dining room or an intelligent kitchen.

The utility model comprises a material storage box body, wherein the material storage box body is provided with a double-temperature-zone clapboard, the double-temperature-zone clapboard is provided with a material exchange port, and the side part of the material exchange port is fixed with a movable guide rail; the movable guide rail is connected with an electric slide block, the side part of the electric slide block is connected with a sealing piece, the lower end of the sealing piece is connected with a bearing piece, and a material box placing space is formed between the bearing piece and the sealing piece; the electric slide block drives the sealing element and the bearing element to move along the movable guide rail, and the bearing element is attached to the material exchange port when being located inside the material storage box body. This technical scheme can effectively seal the cold storage district with the material at cold storage district and normal atmospheric temperature district exchange process, prevents that the temperature from crosstalking, improves the storage quality of material, only adopts a mechanism to play two effects of sealed material exchange opening and material exchange simultaneously, has simplified equipment structure, has reduced equipment cost.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

The structure, ratio, size and the like shown in the present specification are only used for matching with the content disclosed in the specification, so as to be known and read by people familiar with the technology, and are not used for limiting the limit conditions which can be implemented by the present invention, so that the present invention has no technical essential significance, and any structure modification, ratio relationship change or size adjustment should still fall within the scope which can be covered by the technical content disclosed by the present invention without affecting the efficacy and the achievable purpose of the present invention.

Fig. 1 is a schematic structural view of a dual-temperature-zone material exchange device provided in an embodiment of the present invention;

fig. 2 is a schematic view of a driving mechanism of a material exchange device mainly embodying a dual temperature zone provided in an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a dual-temperature-zone material exchange device provided in an embodiment of the present invention in an idle state;

fig. 4 is a schematic structural diagram of a dual-temperature-zone material exchange device provided in an embodiment of the present invention in a loading state;

fig. 5 is a schematic diagram of the magazine exchange of the dual-temperature-zone material exchange device provided in the embodiment of the present invention.

In the figure: 1. a material storage box body; 2. a dual temperature zone partition; 3. a material exchange port; 4. a moving guide rail; 5. an electric slider; 6. a seal member; 7. a carrier; 8. a material box placing space; 9. a bearing member; 10. a drive motor; 11. an upper belt wheel; 12. a lower belt wheel; 13. a drive belt; 14. matching with the step; 15. an upper sealing plate; 16. a lower sealing plate; 17. a tine.

Detailed Description

The present invention is described in terms of specific embodiments, and other advantages and benefits of the present invention will become apparent to those skilled in the art from the following disclosure. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1 and 2, a dual-temperature-zone material exchanging device is provided, which can be used for taking out a meal box of an automatic cooker, an unmanned restaurant or a smart kitchen from the inside of a material storage box body 1, and comprises the material storage box body 1, wherein the material storage box body 1 is provided with a dual-temperature-zone partition plate 2, the dual-temperature-zone partition plate 2 is provided with a material exchanging port 3, and a movable guide rail 4 is fixed on the side part of the material exchanging port 3; the movable guide rail 4 is connected with an electric slide block 5, the side part of the electric slide block 5 is connected with a sealing part 6, the lower end of the sealing part 6 is connected with a bearing part 7, and a material box placing space 8 is formed between the bearing part 7 and the sealing part 6;

the electric slider 5 drives the sealing element 6 and the bearing element 7 to move along the movable guide rail 4, and the bearing element 7 is positioned in the material storage box body 1 to ensure that the sealing element 6 is attached to the material exchange port 3.

In one embodiment of the dual-temperature-zone material exchange device, the top of the moving guide rail 4 is connected with a bearing member 9, and the side part of the bearing member 9 is connected with a driving motor 10; the middle part of the bearing part 9 is connected with an upper belt wheel 11; the bottom of the moving guide rail 4 is connected with a lower belt wheel 12, a driving belt 13 is connected between the upper belt wheel 11 and the lower belt wheel 12, and the electric slider 5 is connected with the driving belt 13. The driving motor 10 drives the upper belt wheel 11 to operate, the upper belt wheel 11 is matched with the lower belt wheel 12 to drive the driving belt 13 to operate, and then the electric sliding block 5 connected with the driving belt 13 moves.

In one embodiment of the dual-temperature-zone material exchange device, the edge of the material exchange port 3 is formed with a matching step 14; the sealing member 6 comprises an upper sealing plate 15 and a lower sealing plate 16, and the sealing member 6 is matched with the matching step 14 through the upper sealing plate 15; the lower sealing plate 16 is located in the material exchange port 3. The design of cooperation step 14 makes sealing member 6 can with the inseparable combination of cooperation step 14, only when need remove the material from the cold-stored district the short-lived state of sealing off, material exchange back, sealing member 6 seals up material exchange port 3 through cooperation step 14, reduces the cold volume under the normality and leaks.

Referring to fig. 3 and 4, in one embodiment of the dual-temperature-zone material exchanging device, the end of the carrier 7 is provided with a fork 17, and the fork 17 lifts the material box out of the material storage box 1 through the material exchanging port 3. When the material box is a lunch box, the fork teeth 17 extend to the bottom of the lunch box through the inserting and taking opening to transfer the lunch box by correspondingly arranging the inserting and taking opening at the bottom of the lunch box.

In one embodiment of the dual-temperature-zone material exchange device, the material exchange port 3 is arranged at the top of the material storage box 1, and the bearing part of the bearing part 7 is parallel to the material exchange port 3. According to the design demand of reality, can establish material exchange port 3 at the top that the box 1 was deposited to the material, the portion of bearing that holds carrier 7 that corresponds is parallel with material exchange port 3 to can follow material exchange port 3 with the material box and shift out perpendicularly.

In one embodiment of the dual-temperature-zone material exchange device, the material exchange opening 3 is arranged on the side of the material storage box 1, and the bearing part of the bearing part 7 is perpendicular to the material exchange opening 3. According to the design demand of reality, can establish material exchange port 3 at the lateral part of material storage box 1, the portion of bearing that the carrier 7 that corresponds bears is perpendicular with material exchange port 3 to can shift out the material box from material exchange port 3 level.

Referring to fig. 5, in an embodiment of the dual-temperature-zone material exchange device, the sealing member 6 is located at the material exchange port 3 by default, and the sealing member 6 seals the material exchange port 3; the carrier 7 is located in the material storage box 1, and the material of the material storage box 1 can be placed on the carrier 7.

When the material needs to be taken out, the sealing element 6 and the bearing part 7 move upwards along the direction of the movable guide rail 4 under the driving of the electric sliding block 5, and meanwhile, the material box placed on the bearing part 7 is driven to be transferred to the normal temperature area from the cold storage area. After the material box placed on the bearing part 7 is completely taken out of the material storage box body 1 for refrigeration, the material is taken away by a peripheral butt joint mechanism (such as a mechanical arm), the electric slide block 5 drives the sealing element 6 and the bearing part 7 to descend and restore to an initial state, and therefore leakage of cold energy in a refrigeration area is reduced.

The utility model comprises a material storage box body 1, wherein the material storage box body 1 is provided with a double-temperature-zone clapboard 2, the double-temperature-zone clapboard 2 is provided with a material exchange port 3, and a movable guide rail 4 is fixed on the side part of the material exchange port 3; the movable guide rail 4 is connected with an electric slide block 5, the side part of the electric slide block 5 is connected with a sealing piece 6, the lower end of the sealing piece 6 is connected with a bearing piece 7, and a material box placing space 8 is formed between the bearing piece 7 and the sealing piece 6; electric slider 5 drives sealing member 6 and holds carrier 7 and removes along moving guide 4, holds carrier 7 and makes sealing member 6 and material exchange port 3 laminating when being in the inside of box 1 is deposited to the material. The utility model discloses in the use, driving motor 10 drives band pulley 11 operation, goes up band pulley 11 cooperation down band pulley 12 and drives driving band 13 operation, and then realizes the motion of the electronic slider 5 of being connected with driving band 13. The design of cooperation step 14 makes sealing member 6 can with the inseparable combination of cooperation step 14, only when need remove the material from the cold-stored district the short-lived state of sealing off, material exchange back, sealing member 6 seals up material exchange port 3 through cooperation step 14, reduces the cold volume under the normality and leaks. According to the design demand of reality, can establish material exchange port 3 at the top that the box 1 was deposited to the material, the portion of bearing that holds carrier 7 that corresponds is parallel with material exchange port 3 to can follow material exchange port 3 with the material box and shift out perpendicularly. Also can establish material exchange port 3 at the lateral part of material storage box 1, the position of bearing that the carrier 7 that corresponds is perpendicular with material exchange port 3 to can shift out the material box from material exchange port 3 level. This technical scheme can effectively seal the cold storage area with the material in cold storage area and normal atmospheric temperature district exchange process, prevents that the temperature from crosstalking, improves the storage quality of material, only adopts a mechanism to play two effects of sealed material exchange port 3 and material exchange simultaneously, has simplified equipment structure, has reduced equipment cost.

Although the invention has been described in detail with respect to the general description and the specific embodiments, it will be apparent to those skilled in the art that modifications and improvements can be made based on the invention. Therefore, such modifications and improvements are intended to be within the scope of the invention as claimed.

Claims (8)

1. A dual-temperature-zone material exchange device comprises a material storage box body (1), wherein the material storage box body (1) is provided with a dual-temperature-zone partition plate (2), and is characterized in that the dual-temperature-zone partition plate (2) is provided with a material exchange port (3), and a movable guide rail (4) is fixed on the side part of the material exchange port (3); the movable guide rail (4) is connected with an electric sliding block (5), the side part of the electric sliding block (5) is connected with a sealing part (6), the lower end of the sealing part (6) is connected with a bearing part (7), and a material box placing space (8) is formed between the bearing part (7) and the sealing part (6);

the electric sliding block (5) drives the sealing element (6) and the bearing element (7) to move along the movable guide rail (4), and the bearing element (7) is positioned in the material storage box body (1) to enable the sealing element (6) to be attached to the material exchange port (3).

2. The dual-temperature-zone material exchange device according to claim 1, wherein a bearing member (9) is connected to the top of the moving guide rail (4), and a driving motor (10) is connected to the side of the bearing member (9); the middle part of the bearing piece (9) is connected with an upper belt wheel (11); the bottom of the movable guide rail (4) is connected with a lower belt wheel (12), a driving belt (13) is connected between the upper belt wheel (11) and the lower belt wheel (12), and the electric sliding block (5) is connected with the driving belt (13).

3. The dual-temperature-zone material exchange device according to claim 1, characterized in that the edges of the material exchange openings (3) are formed with mating steps (14); the sealing element (6) comprises an upper sealing plate (15) and a lower sealing plate (16), and the sealing element (6) is matched with the matching step (14) through the upper sealing plate (15); the lower sealing plate (16) is located in the material exchange opening (3).

4. The dual-temperature-zone material exchange device according to claim 1, characterized in that a fork (17) is arranged at the end of the carrier (7), and the fork (17) lifts the material box out of the material storage box (1) through the material exchange port (3).

5. The dual-temperature-zone material exchange device according to claim 1, characterized in that the material exchange opening (3) is arranged on the top of the material storage box (1), and the bearing portion of the bearing member (7) is parallel to the material exchange opening (3).

6. The dual-temperature-zone material exchange device according to claim 1, characterized in that the material exchange opening (3) is arranged at the side of the material storage box (1), and the bearing portion of the bearing member (7) is perpendicular to the material exchange opening (3).

7. The dual temperature zone material exchanging device according to any one of claims 1 to 6, wherein for taking out the lunch box from the inside of the material storing box body (1), the bottom of the lunch box is provided with an inserting and taking opening.

8. The dual temperature zone material exchange device of any one of claims 1 to 6, wherein the device is used in an automatic cooker, an unmanned restaurant or a smart kitchen.

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