CN219858836U - Material storage device supporting high-automation management - Google Patents

Abstract

The utility model provides a material storage device supporting high-automation management, which relates to the field of food production and comprises: the top of the refrigerating chamber is provided with a discharging mechanism, and the side wall of the refrigerating chamber is provided with a feeding door; a refrigeration assembly in communication with the refrigeration compartment; the translation mechanism horizontally pushes the materials; the lifting mechanism moves the material up and down; the lifting mechanism corresponds to the discharging mechanism, the translation mechanism pushes the materials to the lifting mechanism, the lifting mechanism lifts the loaded materials upwards to trigger the discharging mechanism to expose a part of the materials outside the refrigerating chamber, and the rest materials are still in the closed space in the refrigerating chamber. The material management equipment can be freely combined with the cooking equipment for use, and has the advantages of high automation degree, good heat preservation effect, convenience in maintenance and the like.

Description

Material storage device supporting high-automation management

Technical Field

The utility model relates to the field of food production, in particular to a material storage device supporting high-automation management.

Background

In the food processing field and the automatic vending field, food (such as steamed stuffed buns, steamed bread, bread and cakes) to be steamed is generally produced in a centralized production mode, and then finished food products are packaged and placed into an automatic vending machine for vending. The large-scale production equipment is required to process food and cool and pack the food finished product, so that extra materials are consumed for packaging, more logistics resources are consumed for food delivery, the biggest pain point is that the freshness of the food cannot be guaranteed, and the food finished product which is usually subjected to logistics delivery is required to be heated for the second time to meet the demands of consumers. Therefore, the food manufacturing and selling integrated machine becomes a new development direction, and although the food manufacturing and selling integrated machine (food selling machine) can solve the above problems, a new problem is also caused: the food selling integrated machine needs to store semi-finished products, and if the traditional refrigeration equipment is directly adopted, automatic feeding cannot be realized; in addition, semi-manufactured goods can follow the order demand, at any time transfer to processing equipment from the storeroom, and the period repeatedly opens the storeroom, can cause the cold storage performance of refrigeration plant to descend, influences the material freshness.

Therefore, how to design a material management device with stable refrigeration performance and supporting automatic control is a technical problem to be solved.

Disclosure of Invention

The utility model aims to at least solve one of the technical problems in the prior art or related technologies, and provides the material storage equipment supporting the high-automation management, which has the advantages of high automation degree, good heat preservation effect, convenient maintenance and the like.

The utility model is realized by the following technical scheme: a material storage device supporting highly automated management, comprising: the food vending machine comprises a food vending machine body, a refrigerating chamber, a feeding door, a discharging mechanism, a feeding mechanism and a feeding mechanism, wherein the refrigerating chamber is arranged inside the food vending machine body and used for storing materials to be processed; the refrigerating assembly is communicated with the refrigerating chamber and used for refrigerating the interior of the refrigerating chamber; the translation mechanism is arranged at the bottom of the refrigerating chamber and is contacted with the side surfaces of the materials stacked in the refrigerating chamber so as to facilitate horizontal pushing of the materials; the lifting mechanism is arranged at the bottom of the refrigerating chamber and is contacted with the bottom surfaces of the materials stacked in the refrigerating chamber so as to move the materials up and down; the lifting mechanism corresponds to the discharging mechanism, the translation mechanism pushes the materials to the lifting mechanism, the lifting mechanism lifts the loaded materials upwards to trigger the discharging mechanism to expose a part of the materials outside the refrigerating chamber, and the rest materials are still in the closed space in the refrigerating chamber.

The material storage device supporting high-automation management provided by the utility model preferably further comprises: the material trays support each other and pile up between a plurality of material trays, can get into the walk-in from the feed gate, and material tray inner space is used for bearing the weight of the material, is equipped with the fork arm hole on the lateral wall of material tray to the material tray is taken through the fork arm to automatic arm.

According to the material storage device supporting high-automation management provided by the utility model, preferably, the discharging mechanism specifically comprises: a movable cover plate correspondingly covering a discharge hole at the top of the refrigerating chamber; the guide piece is arranged between the movable cover plate and the refrigerating chamber and consists of a guide pillar and a guide sleeve, and the guide sleeve is in sliding fit with the guide pillar so as to support the movable cover plate to move in the vertical direction; the lifting mechanism pushes the material to jack up the movable cover plate, the movable cover plate moves upwards under the constraint of the guide piece, the uppermost material is exposed, and after the lifting mechanism moves downwards, the movable cover plate falls back by self weight and seals the refrigerating chamber.

According to the material storage device supporting high-automation management provided by the utility model, preferably, the translation mechanism specifically comprises: the horizontal power system is arranged outside the refrigerating chamber and driven by a motor to provide power in the horizontal direction; the push plate is arranged in the refrigerating chamber and connected with the horizontal power system, and can translate on the side surface of the material to push the material to a preset position.

According to the material storage device supporting high-automation management provided by the utility model, preferably, the lifting mechanism specifically comprises: the vertical power system is arranged outside the refrigerating chamber and driven by a motor to provide power in the vertical direction; the supporting plate is arranged in the refrigerating chamber and is connected with the vertical power system, and can support materials from the bottom and move upwards so that the materials pass through the discharging mechanism.

According to the material storage device supporting high-automation management, preferably, the bottom of the movable cover plate is provided with the protruding conical surface structure, so that the sealing degree between the movable cover plate and the refrigerating chamber is improved.

According to the material storage device supporting high-automation management provided by the utility model, preferably, the part of the refrigerating chamber contacted with the bottom of the movable cover plate is provided with a corresponding conical surface sinking structure.

According to the material storage device supporting high-automation management, preferably, the material trays are stacked in three rows and three columns to form a layer, and a plurality of layers are stacked according to actual requirements.

The beneficial effects obtained by the utility model at least comprise: the material inlet and the material outlet of the refrigerating chamber are designed separately, the larger material inlet is convenient for stacking materials and only needs to be opened once when the materials are added, the smaller material outlet is matched with the material outlet mechanism to reduce the cold air loss during repeated discharging (the lifting mechanism only lifts the uppermost layer of materials to the outside of the refrigerating chamber, the whole refrigerating chamber is still in a closed state), the temperature in the refrigerating chamber is kept stable, and the energy consumption is reduced; the stacking management is carried out on the materials to be processed through the material tray, automatic material taking is convenient, and the material transfer can be completed only through a simple mechanical arm device; the discharging mechanism formed by the movable cover plate and the guide piece belongs to a passive structure, and additional automatic control is not needed, so that the complexity of the system is reduced.

Drawings

FIG. 1 illustrates a schematic view of the use of a material storage device in a vending machine that supports highly automated management according to an embodiment of the present utility model.

FIG. 2 illustrates a side view of the internal structure of a material storage device supporting highly automated management in accordance with an embodiment of the present utility model.

Fig. 3 illustrates a rear view of the internal structure of a material storage device supporting highly automated management according to an embodiment of the present utility model.

Fig. 4 illustrates an isometric view of the internal structure of a material storage device supporting highly automated management in accordance with an embodiment of the present utility model.

Detailed Description

In order that the above-recited objects, features and advantages of the present utility model will be more clearly understood, a more particular description of the utility model will be rendered by reference to the appended drawings and appended detailed description.

In the description of the present utility model, it should be understood that the terms "center", "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model. In the description of the present utility model, unless otherwise indicated, the meaning of "a plurality" is two or more. The terms "mounted," "connected," "coupled," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art in a specific case.

As shown in fig. 1, 2, 3 and 4, the material storage device supporting highly automated management according to the present disclosure includes: the food vending machine comprises a refrigerating chamber 1, a feeding door and a discharging mechanism, wherein the refrigerating chamber 1 is arranged in a food vending machine body and is used for storing materials to be processed; the refrigerating assembly 2 is communicated with the refrigerating chamber and used for refrigerating the interior of the refrigerating chamber; the translation mechanism 3 is arranged at the bottom of the refrigerating chamber and is contacted with the side surfaces of the materials stacked in the refrigerating chamber so as to facilitate horizontal pushing of the materials; the lifting mechanism 4 is arranged at the bottom of the refrigerating chamber and is contacted with the bottom surfaces of the materials stacked in the refrigerating chamber so as to move the materials up and down; the lifting mechanism corresponds to the discharging mechanism, the translation mechanism pushes the materials to the lifting mechanism, the lifting mechanism lifts the loaded materials upwards to trigger the discharging mechanism to expose a part of the materials outside the refrigerating chamber, and the rest materials are still in the closed space in the refrigerating chamber.

According to the above embodiment, preferably, further comprising: the material tray 5 supports each other and piles up between a plurality of material trays, can get into the walk-in from the feed gate, and material tray inner space is used for bearing the material, is equipped with the fork arm hole on the lateral wall of material tray to the material tray is taken through the fork arm to automatic arm.

According to the above embodiment, preferably, the discharging mechanism specifically includes: a movable cover plate 6 correspondingly covering a discharge hole at the top of the refrigerating chamber; the guide piece 7 is arranged between the movable cover plate and the refrigerating chamber and consists of a guide pillar and a guide sleeve, and the guide sleeve is in sliding fit with the guide pillar so as to support the movable cover plate to move in the vertical direction; the lifting mechanism pushes the material to jack up the movable cover plate, the movable cover plate moves upwards under the constraint of the guide piece, the uppermost material is exposed, and after the lifting mechanism moves downwards, the movable cover plate falls back by self weight and seals the refrigerating chamber.

According to the above embodiment, preferably, the translation mechanism specifically includes: the horizontal power system is arranged outside the refrigerating chamber and driven by a motor to provide power in the horizontal direction; the push plate 8 is arranged in the refrigerating chamber and connected with a horizontal power system, and can translate on the side surface of the material to push the material to a preset position.

According to the above embodiment, preferably, the lifting mechanism specifically includes: the vertical power system is arranged outside the refrigerating chamber and driven by a motor to provide power in the vertical direction; and the supporting plate 9 is arranged in the refrigerating chamber and is connected with a vertical power system, and can support materials from the bottom and move upwards so that the materials pass through the discharging mechanism.

According to the above embodiment, preferably, the bottom of the movable cover plate has a protruding conical surface structure to improve the sealing degree between the movable cover plate and the refrigerating chamber.

According to the above embodiment, it is preferable that the portion of the refrigerating chamber contacting the bottom of the movable cover plate has a corresponding tapered surface depressed structure.

According to the embodiment, preferably, the material trays are stacked in three rows and three columns to form one layer, and multiple layers are stacked according to actual requirements.

According to the embodiment, the design that the feed inlet and the discharge outlet of the refrigerating chamber of the material storage device supporting the high-automation management are separated is provided, the larger feed inlet is convenient for stacking materials and only needs to be opened once when the materials are added, the smaller discharge outlet is matched with the discharge mechanism to reduce the loss of cold air during repeated discharging (the lifting mechanism only lifts the uppermost layer of materials to the outside of the refrigerating chamber, and the whole refrigerating chamber is still in a closed state), so that the temperature in the refrigerating chamber is kept stable, and the energy consumption is reduced; the stacking management is carried out on the materials to be processed through the material tray, automatic material taking is convenient, and the material transfer can be completed only through a simple mechanical arm device; the discharging mechanism formed by the movable cover plate and the guide piece belongs to a passive structure, and additional automatic control is not needed, so that the complexity of the system is reduced.

The above description is only of the preferred embodiments of the present utility model and is not intended to limit the present utility model, but various modifications and variations can be made to the present utility model by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (8)

1. A material storage device supporting highly automated management, comprising:

the food vending machine comprises a food vending machine body, a refrigerating chamber, a feeding door and a discharging mechanism, wherein the refrigerating chamber is arranged in the food vending machine body and used for storing materials to be processed;

the refrigerating assembly is communicated with the refrigerating chamber and used for refrigerating the interior of the refrigerating chamber;

the translation mechanism is arranged at the bottom of the refrigerating chamber and is contacted with the side surfaces of the materials stacked in the refrigerating chamber so as to facilitate horizontal pushing of the materials;

the lifting mechanism is arranged at the bottom of the refrigerating chamber and is contacted with the bottom surface of the materials stacked in the refrigerating chamber so as to move the materials up and down;

the lifting mechanism corresponds to the discharging mechanism, the translation mechanism pushes the materials to the lifting mechanism, the lifting mechanism lifts the loaded materials upwards to trigger the discharging mechanism to expose a part of the materials outside the refrigerating chamber, and the rest materials are still in the closed space inside the refrigerating chamber.

2. The material storage device supporting highly automated management of claim 1, further comprising:

the material trays support each other and pile up, can follow between the material trays the feed gate gets into the walk-in, material tray inner space is used for bearing the material, be equipped with the fork arm hole on the lateral wall of material tray to automatic arm passes through the fork arm and takes the material tray.

3. The material storage device supporting highly automated management of claim 1, wherein the outfeed mechanism specifically comprises:

a movable cover plate correspondingly covers a discharge hole at the top of the refrigerating chamber;

the guide piece is arranged between the movable cover plate and the refrigerating chamber and consists of a guide pillar and a guide sleeve, and the guide sleeve is in sliding fit with the guide pillar so as to support the movable cover plate to move in the vertical direction;

the lifting mechanism pushes the material to jack up the movable cover plate, the movable cover plate moves upwards under the constraint of the guide piece to expose the uppermost material, and after the lifting mechanism moves downwards, the movable cover plate falls back by self weight and seals the refrigerating chamber.

4. The material storage device supporting highly automated management of claim 1, wherein the translation mechanism specifically comprises:

the horizontal power system is arranged outside the refrigerating chamber and driven by a motor to provide power in the horizontal direction;

the pushing plate is arranged in the refrigerating chamber and connected with the horizontal power system, and can translate on the side surface of the material to push the material to a preset position.

5. The material storage device supporting highly automated management of claim 1, wherein the lifting mechanism specifically comprises:

the vertical power system is arranged outside the refrigerating chamber and driven by a motor to provide power in the vertical direction;

the supporting plate is arranged in the refrigerating chamber and connected with the vertical power system, and can support the materials from the bottom and move upwards so that the materials pass through the discharging mechanism.

6. The material storage apparatus supporting high-automation management as claimed in claim 3, wherein the movable cover plate has a protruding cone structure at a bottom thereof to enhance a degree of closure between the movable cover plate and the refrigerating compartment.

7. A material storage apparatus supporting high degree of automation according to claim 3, wherein the portion of the refrigerating chamber contacting the bottom of the removable cover has a corresponding tapered depressed structure.

8. The material storage device supporting highly automated management as defined in any one of claims 2 to 7, wherein the material trays are stacked in three rows and three columns to form a layer, supporting stacking of multiple layers according to actual demand.