CN220208347U - Storage cabinet - Google Patents

Abstract

The utility model discloses a storage cabinet, which comprises a cabinet body, wherein a plurality of storage grids with two-way openings are arranged in the cabinet body, and a first cabinet door and a second cabinet door are respectively arranged at two ends of each storage grid; the electromagnetic lock catch is respectively arranged on the first cabinet door and the second cabinet door; the electromagnetic locks are arranged on the inner sides of the two ends of the storage grid and are matched with the electromagnetic locks at the corresponding positions, and each electromagnetic lock is provided with an electromagnetic lock deflector rod penetrating out of the electromagnetic lock and extending towards the inside of the storage grid; the emergency pull rod is provided with a plurality of emergency toggle pins which are sequentially connected with electromagnetic lock shifting rods of the storage lattices in a clamping mode, the electromagnetic lock shifting rods are driven to move along a preset unlocking direction by pulling the emergency pull rod, the electromagnetic lock is triggered to unlock, emergency safety doors can be rapidly detached in an emergency, and the storage lattices corresponding to the emergency pull rod are opened in a mechanical mode, so that rapid unlocking is realized.

Description

Storage cabinet

Technical Field

The utility model belongs to the technical field of article storage cabinets, and particularly relates to a storage cabinet.

Background

Along with the enrichment of substances and the continuous upgrading of consumption, people's daily life consumption is more and more considered convenience and intelligent, and the rapid development of intelligent counter such as intelligent storage counter, intelligent taking counter, automatic sales counter is brought along with this.

The storage cabinet is a storage cabinet capable of containing articles and generally comprises a cabinet body and cabinet doors, wherein a plurality of mutually independent storage cavities are formed in the cabinet body, each storage cavity can correspond to one independent cabinet door, each cabinet door is locked by an electromagnetic lock, and the opening of the electromagnetic lock is controlled by control equipment. However, when the control device fails accidentally or the electromagnetic locks fail, the control device cannot control the opening of each electromagnetic lock, so that the cabinet door cannot be opened, and inconvenience is caused. Therefore, how to realize manual unlocking of the electromagnetic lock in an emergency situation is a problem to be solved.

Disclosure of Invention

The utility model provides a locker which is used for solving the problem of how to realize manual unlocking of an electromagnetic lock under an emergency.

In order to solve the technical problem, the present utility model provides a locker, comprising:

the cabinet body is internally provided with a plurality of storage grids with two-way openings, and two ends of each storage grid are respectively provided with a first cabinet door and a second cabinet door;

the electromagnetic lock catch is respectively arranged on the first cabinet door and the second cabinet door;

the electromagnetic locks are arranged on the inner sides of the two ends of the storage grid and are matched with the electromagnetic locks at the corresponding positions, and each electromagnetic lock is provided with an electromagnetic lock deflector rod penetrating out of the electromagnetic lock and extending towards the inside of the storage grid;

the emergency pull rod is provided with a plurality of emergency toggle pins which are sequentially clamped with electromagnetic lock deflector rods of the same-row storage grids, the electromagnetic lock deflector rods are driven to move along the preset unlocking direction by pulling the emergency pull rod, and the same-row electromagnetic lock is triggered to unlock.

As a further improvement of the utility model, the positions of the emergency pull rods corresponding to the electromagnetic lock deflector rods in the same row are provided with emergency poking pins, one end of each emergency poking pin is fixed on the side wall of each emergency pull rod, and the other end of each emergency poking pin is clamped below the corresponding electromagnetic lock deflector rod;

the emergency pull rod extends to the top of the cabinet body, and the emergency pull rod is pulled to drive the emergency toggle pin of the emergency pull rod to enable the corresponding electromagnetic lock toggle rod to move along the preset unlocking direction, so that the same row of electromagnetic lock unlocking is realized.

As a further improvement of the utility model, limiting blocks for limiting the poking distance of the electromagnetic lock poking rod are arranged on the inner side wall of the storage grid along the preset unlocking direction, and the number of the limiting blocks is equal to that of the emergency poking pins;

the distance between the limiting block and the emergency poking pin is greater than or equal to the shortest poking distance required by poking the electromagnetic lock poking rod to unlock the corresponding electromagnetic lock.

As a further improvement of the utility model, the storage grid comprises a top plate, a bottom plate, a left side plate and a right side plate, wherein the top plate, the bottom plate, the left side plate and the right side plate are spliced to form a storage space with two open ends;

the outer side walls of the top plate, the bottom plate, the left side plate and the right side plate are respectively covered with top heat preservation cotton, bottom heat preservation cotton, left side heat preservation cotton and right side heat preservation cotton, and a plurality of heating plates are further arranged between the bottom plate and the bottom heat preservation cotton.

As a further improvement of the utility model, the connection part of the bottom plate and the bottom heat-insulating cotton is provided with a downward turnover structure, the bottom of the bottom heat-insulating cotton is provided with a plurality of mounting bars and mounting bolts, and the mounting bolts sequentially penetrate through the mounting bars, the heat-insulating cotton and the bottom plate to fix the heat-insulating cotton at the bottom of the bottom plate, so that two ends of the bottom heat-insulating cotton are attached to the downward turnover structure of the bottom plate.

As a further improvement of the utility model, disinfection illuminating lamps are arranged at the positions, close to the first cabinet door and the second cabinet door, of the two ends of the top heat-insulating cotton, and a light outlet through which the irradiation light of the disinfection illuminating lamps passes is arranged at the position, corresponding to the disinfection illuminating lamps, of the top plate.

As a further improvement of the utility model, the top edges of the first cabinet door and the second cabinet door are provided with rotating shaft bolts, a first bolt seat is arranged at the position of the storage grid close to the rotating shaft bolts, and a first bolt hole for the tail end of the rotating shaft bolts to pass through is arranged on the first bolt seat;

the first cabinet door and the second cabinet door are provided with second bolt seats at positions corresponding to the first bolt seats on the inner sides of the first cabinet door, second bolt holes for the tail ends of the rotating shaft bolts to pass through are formed in the second bolt seats, and the tail ends of the rotating shaft bolts sequentially pass through the first bolt holes and the second bolt holes so as to realize the hinging of the first cabinet door and the second cabinet door with the storage grid.

As a further improvement of the utility model, the detachable emergency safety door is arranged at the top of the cabinet body, and the emergency pull rod is arranged below the emergency safety door.

As a further improvement of the utility model, the first cabinet door and the second cabinet door are respectively provided with an observation view port for observing the interior of the storage grid, and the observation view ports are provided with observation windows made of transparent materials.

As a further improvement of the utility model, the side wall of the cabinet door is provided with a vehicle-mounted electric cabinet and a wiring port, and a plurality of control wires of the electromagnetic locks are connected into the vehicle-mounted electric cabinet after passing through the wiring port.

Compared with the prior art, the storage cabinet provided by the embodiment of the utility model adopts a double-sided storage design, so that the space utilization rate of the cabinet is improved, the storage space of each storage grid is provided with a large size, and the applicable storage grid can be selected for placing and distributing the meal according to actual requirements, so that the working efficiency is improved; meanwhile, the sterilizing lighting lamp in each storage grid can sterilize and disinfect the food and also has a lighting function, and the heat preservation cotton arranged in each storage grid can preserve heat of the food, so that the heating plate further ensures the temperature of the food and reduces the heat loss of the food; the vehicle-mounted electric control box arranged on the side edge of the cabinet body is an integration of all electric control parts in the cabinet and is used for correspondingly controlling electronic devices in the cabinet; the electromagnetic lock and the electromagnetic lock catch configured by each storage grid can realize automatic opening and closing of cabinet doors at two ends of the storage grid, under the condition of temporary demand, the emergency safety door can be quickly detached, the same-row storage grid corresponding to the emergency pull rod is opened in a mechanical mode, workers can conveniently take out articles in the grid, and related maintenance and cleaning operations are carried out on the grid.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of a locker according to an embodiment of the present utility model;

FIG. 2 is a schematic diagram of a structure of a rotary shaft latch in a locker according to an embodiment of the present utility model;

FIG. 3 is a schematic view of an emergency pull rod in a locker according to an embodiment of the present utility model;

FIG. 4 is a schematic view of an emergency toggle pin in a locker according to an embodiment of the present utility model;

fig. 5 is a schematic structural diagram of a storage compartment in a storage cabinet according to an embodiment of the present utility model.

Description of the reference numerals

10-a cabinet body; 11-emergency safety door; 12-a vehicle-mounted electric cabinet; 13, a wiring port;

20-storing grids; 21-top plate; 210-top insulation cotton; 211-sterilizing lighting lamp; 212-a light outlet; 22-a bottom plate; 220-bottom insulation cotton; 221-heating plate; 222-mounting bars; 223-mounting bolts; 23-left side plate; 230-left heat preservation cotton; 24-right side plate; 240-right side heat preservation cotton; 25-electromagnetic lock; 26-electromagnetic lock deflector rod; 27-limiting blocks;

30-a first cabinet door; 40-a second cabinet door;

50-a rotating shaft bolt; 51-a first latch seat; 52-first pin holes; 53-a second latch seat; 54-second pin holes; 55-electromagnetic lock catches; 56-control lines;

60-an emergency pull rod; 61-emergency toggle pin; 62-pull ring; 63-pulling holes; 70-view port.

Detailed Description

In order to make the objects, technical solutions and advantages of the present utility model more apparent, the present utility model will be described in further detail with reference to the accompanying drawings and specific embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

In the description of the present utility model, the meaning of "plurality" means at least two, for example, two, three, etc., unless specifically defined otherwise. All directional indications (such as up, down, left, right, front, back … …) in embodiments of the present utility model are merely used to explain the relative positional relationship, movement, etc. between the components in a particular gesture (as shown in the drawings), and if the particular gesture changes, the directional indication changes accordingly. Furthermore, the terms "comprise" and "have," as well as any variations thereof, are intended to cover a non-exclusive inclusion.

In order that the present disclosure may be more fully described and fully understood, the following description is provided by way of illustration of embodiments and specific examples of the present utility model; this is not the only form of practicing or implementing the utility model as embodied. The description covers the features of the embodiments and the method steps and sequences for constructing and operating the embodiments. However, other embodiments may be utilized to achieve the same or equivalent functions and sequences of steps.

Referring to fig. 1-5, in order to solve the problem of how to realize manual unlocking of an electromagnetic lock in an emergency in the prior art, an embodiment of the present utility model provides a locker, and further referring to fig. 1, a schematic structural diagram of the locker provided in the embodiment of the present utility model includes a cabinet body 10, which is designed as an integrated platinum plate, so as to ensure the overall rigidity of the cabinet body 10, a plurality of storage grids 20 with two-way openings are provided in the cabinet body 10 in a penetrating manner, and a storage space for storing is provided in each storage grid 20, and since the storage grids 20 are designed with two-way openings, objects stored in the storage space can be taken out through the openings at any ends of the storage grids 20, so that the space utilization rate of the cabinet body 10 is ensured, and the grid openings and the storage space size of the storage grids 20 can be adjusted according to the actual storage requirements.

Further, the two ends of the storage compartment 20 are respectively connected to the first cabinet door 30 and the second cabinet door 40, and the connection manner is preferably a flexible connection such as a hinge connection, so long as the first cabinet door 30 and the second cabinet door 40 can be opened to enable the objects in the storage space to be put into or taken out.

As an alternative embodiment, each storage compartment 20 is formed by splicing a top plate 21, a bottom plate 22, a left side plate 23 and a right side plate 24, the top plate 21, the bottom plate 22, the left side plate 23 and the right side plate 24 are spliced to form an internal storage space with two open ends, and the top plate 21, the bottom plate 22, the left side plate 23 and the right side plate 24 are preferably configured as a platinum plate structure, so that rapid assembly of each storage compartment 20 is realized by splicing.

In a specific embodiment provided in the application, the top border of first cabinet door 30 and second cabinet door 40 all is provided with pivot bolt 50, and first cabinet door 30 and second cabinet door 40 of this application not only set up to platelike structure, but rather in order to more closely laminate with storage check 20, at platelike structure's border and be provided with round and storage check 20 tip looks adaptation's clamp plate 51, therefore the top border of above-mentioned first cabinet door 30 and second cabinet door 40 also can understand that the bottom side that first cabinet door 30 is located the clamp plate 51 that the top set up is provided with pivot bolt 50.

Referring to fig. 2, a schematic structural view of a rotary shaft latch 50 in a locker according to an embodiment of the present utility model is provided, the rotary shaft latch 50 is preferably configured as an "L" structure, a first end of the L-shaped structure is fixedly connected to the bottom of the pressing plate 51, a first latch seat 51 is disposed at a position of the storage compartment 20 near the rotary shaft latch 50, a first latch hole 52 for allowing a terminal end of the rotary shaft latch 50, that is, a second end of the rotary shaft latch 50, to pass through is disposed on the first latch seat 51, the first latch seat 51 is also preferably configured as an "L" structure, unlike the rotary shaft latch 50, the rotary shaft latch 50 is preferably configured as a cylindrical middle with a bent "L" structure, the first latch seat 51 is preferably configured as a plate-like or sheet-like "L" structure for better fixing the whole on the storage compartment 20, one end of the first latch seat 51 is fixed on a port of the storage compartment by a screw, the other end extends in a direction away from the storage compartment, and a first latch hole 52 for allowing a second end of the rotary shaft 50 to pass through is disposed on the extension 211.

Further, a second latch seat 53 is correspondingly disposed at a position corresponding to the first latch seat 51 on the inner side of the first cabinet door 30 and the second cabinet door 40, and a second latch hole 54 through which the end of the rotating shaft latch 50, that is, the second end thereof, passes is disposed on the second latch seat 53, and when the first cabinet door 30 or the second cabinet door 40 needs to be hinged to the storage compartment 20, the first end of the rotating shaft latch 50 passes through the first latch hole 52 and the second latch hole 54 in sequence, so as to realize the hinge connection between the first cabinet door 30 and the second cabinet door 40 and the storage compartment 20.

Of course, the hinge pins 50 and the matching structures thereof may also be disposed at the bottom edges of the first cabinet door 30 and the second cabinet door 40 corresponding to the top edges thereof, so as to realize the hinge connection between the first cabinet door 30 and the second cabinet door 40 and the storage compartment 20, or the hinge connection between the first cabinet door 30 and the second cabinet door 40 and the storage compartment 20 may be realized by matching the hinge connection with the hinge pins 50.

Further, electromagnetic locks 25 are further arranged on the inner sides of two ends of the storage grids 20, electromagnetic locks 55 are arranged at positions of the first cabinet door 30 and the second cabinet door 40 corresponding to the electromagnetic locks 25, the electromagnetic locks 25 at two ends of each storage grid 20 are matched with the electromagnetic locks 55 at the corresponding positions, and each electromagnetic lock 25 is provided with an electromagnetic lock deflector rod 26 penetrating out of the electromagnetic lock 25 and extending towards the inside of the storage grid 20.

It should be noted that, in a practical application scenario, the electromagnetic lock 25 may not be opened by a normal unlocking method, so that the existing electromagnetic lock 25 is provided with the same-column electromagnetic lock mechanical unlocking realized on the basis of the electromagnetic lock 25 emergency unlocking realized by the electromagnetic lock poking rod 26 in a mechanical manner, that is, by poking the electromagnetic lock poking rod 26, the electromagnetic lock 25 can be realized.

In order to solve the above emergency situation that can not be unlocked, the present application is specifically characterized in that each row of storage lattices 20 is provided with an emergency pull rod 60, the mechanical unlocking of the whole row of storage lattices 20 is realized by pulling the emergency pull rod 60, please further refer to fig. 3, in an alternative embodiment, one end of the emergency pull rod 60 extends to the top of the cabinet body 10, and because each electromagnetic lock 25 is provided with an electromagnetic lock pulling rod 26 penetrating out of the electromagnetic lock 25 and extending towards the inside of the storage lattice 20, the present application is provided with a plurality of emergency pulling pins 61 on the emergency pull rod 60, and the plurality of emergency pulling pins 61 provided on the emergency pull rod 60 are sequentially clamped with the electromagnetic lock pulling rod 26 of the storage lattice in the same row, and the electromagnetic lock pulling rod 26 is driven to move along the preset unlocking direction by pulling the emergency pull rod 60, so as to trigger the electromagnetic lock 25 in the same row to unlock.

Specifically, the emergency pull rod 60 is provided with emergency toggle pins 61 at positions corresponding to the plurality of electromagnetic lock toggle rods 26 in the same row, and in principle, the number of the emergency toggle pins 61 should be equal to the number of the electromagnetic lock toggle rods 26 in the same row, so that the whole mechanical opening and closing of the electromagnetic locks 25 in the same row can be realized, the emergency toggle pins 61 can be in an L-shaped plate structure, the first end of the emergency toggle pins 61 is fixed on the side wall of the emergency pull rod 60, the other end of the emergency toggle pins is clamped at the lower position of the corresponding electromagnetic lock toggle rod 26, and the emergency toggle pins 61 driving the emergency pull rod 60 move the corresponding electromagnetic lock toggle rods 26 along the preset unlocking direction to unlock the electromagnetic locks 25 in the same row. In a specific embodiment provided in the application, the emergency pull rod 60 extends to the top of the cabinet body 10, and the detachable emergency safety door 11 is arranged at the position of the top of the cabinet body 10 corresponding to the emergency pull rod 60, and the unlocking of the electromagnetic locks 25 in the same column can be realized by pulling the emergency pull rod 60 extending to the top of the cabinet body 10 upwards under the assumption that the preset unlocking direction of each electromagnetic lock 25 is to dial the electromagnetic lock shifting rod 26 upwards to unlock the electromagnetic lock shifting rod 26.

In order to limit the upward pulling distance of the emergency pull rod 60 and avoid that the pulling distance of each electromagnetic lock pulling rod 26 is too small to unlock so as to influence the unlocking effect, referring further to fig. 4, for the structural schematic diagram of the emergency pulling pin 61 in the locker provided by the embodiment of the utility model, in the embodiment of the utility model, a limiting block 27 for limiting the pulling distance of the electromagnetic lock pulling rod 26 is arranged on the inner side wall of the storage grid 20 along the preset unlocking direction of each electromagnetic lock 25, the number of the limiting blocks 27 is equal to that of the electromagnetic lock pulling rods 26 and the emergency pulling pins 61, that is, the distance formed between one limiting block 27 and each emergency pulling pin 61 is larger than or equal to the shortest pulling distance required by pulling the electromagnetic lock pulling rod 26 to unlock the corresponding electromagnetic lock 25, and the distance between the limiting block 27 and the emergency pulling pin 61 at least enables a worker to open the electromagnetic lock 25; it should be noted that, the shortest poking distance of the electromagnetic lock 25 refers to the shortest distance that the corresponding electromagnetic lock 25 can be opened after the electromagnetic lock poking rod 26 is poked along the preset unlocking direction, the shortest poking distances of different electromagnetic locks 25 may not be the same, the distance formed between the corresponding limiting block 27 and the corresponding emergency poking pin 61 needs to be correspondingly adjusted according to the actual situation, and the distance between the corresponding emergency poking pins 61 needs to be correspondingly adjusted according to the setting distance of each actual electromagnetic lock 25.

It should be noted that, in fig. 4, two electromagnetic lock levers 26 are marked, which indicate two states of whether the electromagnetic lock levers 26 have been mechanically unlocked, the electromagnetic lock levers 26 that are not mechanically unlocked are located at the lower positions in the figure and are located at the upper positions in the opposite positions, which are the electromagnetic lock levers 26 that have been mechanically unlocked by the emergency toggle pin 61, where the two electromagnetic lock levers 26 do not mean that the electromagnetic lock 25 is provided with two electromagnetic lock levers 26, but indicate two states of the electromagnetic lock levers 26 that are mechanically unlocked, and those skilled in the art should know.

As an alternative embodiment, the end of the emergency toggle pin 61 near the electromagnetic lock toggle lever 26 may not be disposed below the corresponding electromagnetic lock toggle lever 26, but may be configured as a through hole (not shown in the drawing), where the electromagnetic lock toggle lever 26 is clamped inside the through hole, and it should be noted that the aperture of the through hole should also be greater than or equal to the shortest toggle distance required for toggling the electromagnetic lock toggle lever 26 to achieve unlocking of the corresponding electromagnetic lock 25, and in principle, the clamped position of the electromagnetic lock toggle lever 26 should not fall off during the upward pulling of the emergency pull lever 60.

Furthermore, the mechanical unlocking of all the storage compartments 20 in the same row of the storage cabinet is not limited, but the corresponding emergency pull rods 60 are arranged by taking a certain storage compartment 20 in the same row as a unit, or on the premise of allowing the cost, the corresponding emergency pull rods 60 are arranged corresponding to each storage compartment 20, so that the above is feasible.

In a specific embodiment that this application provided, every row of storing check 20 all is provided with an emergent pull rod 60, and the emergent pull rod 60 of every two rows of storing check 20 shares an emergent emergency exit 11, under the circumstances that has the temporary demand, can dismantle this emergent emergency exit 11 fast, adopts the mode of machinery to open the corresponding same row of storing check 20 of this emergent pull rod 60, and the convenience staff takes out the article in the check to carry out relevant maintenance clearance operation to the check.

It can be observed that when two emergency pull rods 60 share an emergency safety door 11, the electromagnetic locks 25 of the two rows of storage grids 20 need to be adjacently arranged, and meanwhile, in order to facilitate the operator to pull the emergency pull rods 60, the embodiment of the application is further provided with a bent pull ring 62 at the top of the emergency pull rods 60, and a pull hole 63 which is convenient to pull is formed in the pull ring 62, so that the operator can conveniently operate the emergency pull rods 60.

Further, the side wall of the cabinet door 10 is further provided with a vehicle-mounted electric cabinet 12 and a wiring port 13, the control wires 56 of each electromagnetic lock 25 are connected to the vehicle-mounted electric cabinet 12 for unified management after passing through the wiring port 13, how to unlock and manage each electromagnetic lock 25 through the vehicle-mounted electric cabinet 12, and how to wire each control wire 56 in the cabinet body 10 are well known to those skilled in the art, and the application does not describe this too much.

In a specific embodiment provided in the present application, the above-mentioned locker may be used for storing take-out, considering the heat preservation function required in the take-out catering industry and the disinfection and sterilization required in the transferring process of the meal, please further refer to fig. 5, for a schematic structural diagram of the storage grid 20 in the locker provided in the embodiment of the present utility model, the outer side walls of the top plate 21, the bottom plate 22, the left side plate 23 and the right side plate 24 are respectively covered with the top heat preservation cotton 210, the bottom heat preservation cotton 220, the left side heat preservation cotton 230 and the right side heat preservation cotton 240, thereby realizing the heat preservation effect on the meal inside the storage grid 20, reducing the heat dissipation of the meal inside the storage grid 20, simplifying the production and assembly of the locker, and simultaneously, also ensuring the whole rigidity of the locker.

Further, a plurality of heating plates 221 are further arranged between the bottom plate 22 and the bottom heat-insulating cotton 220, the heating plates 221 are connected into the vehicle-mounted electric cabinet 12 through wires, the heating time and the heating power of the heating plates 221 are adjusted by the vehicle-mounted electric cabinet 12, the heating plates are matched with the top heat-insulating cotton 210, the bottom heat-insulating cotton 220, the left heat-insulating cotton 230 and the right heat-insulating cotton 240 together, the heat-insulating function of catering can be met under the condition of low temperature, and a better heat-insulating effect is achieved. Of course, temperature and humidity sensors (not shown) may be disposed in each storage compartment 20 to monitor the temperature and humidity in the storage compartment 20, thereby meeting better storage requirements.

Specifically, a structure of turning down is arranged at the connection part of the bottom plate 22 and the bottom heat preservation cotton 220, a plurality of mounting bars 222 and mounting bolts 223 are further arranged at the bottom of the bottom heat preservation cotton 220, and when the heating plate 221 is actually arranged between the bottom plate 22 and the bottom heat preservation cotton 220, the mounting bolts 223 sequentially penetrate through the mounting bars 222, the heat preservation cotton 220 and the bottom plate 22, so that the heat preservation cotton 220 is fixed at the bottom of the bottom plate 22, and two ends of the bottom heat preservation cotton 220 are attached to the structure of turning down the bottom plate 22; it should be noted that, when the mounting bolts 223 pass through the insulating cotton 220 and the bottom plate 22, attention should be paid to avoid the plurality of heating plates 221 and the wiring between the plurality of heating plates 221 and the vehicle-mounted electric cabinet 12, which are disposed on the bottom plate 22 and the bottom insulating cotton 220. Of course, the heating plate 211 may be replaced by a cooling plate (not shown) according to the requirement, so as to meet the low-temperature refrigeration effect required by the respective catering, or the heating plate 211 and the cooling plate may be disposed in the storage compartment 20 at the same time, and the working modes of heating or cooling may be switched by the vehicle-mounted electric cabinet 12 according to the use requirement, which is all feasible.

Further, in order to realize disinfection and sterilization to the meal in the storage grid 20 and in the transfer process, the application is provided with a disinfection lighting lamp 211 on the top heat preservation cotton 210, and a light outlet 212 for the disinfection lighting lamp 211 to irradiate light to pass through is arranged at the position of the top plate 21 corresponding to the disinfection lighting lamp 211, meanwhile, each disinfection lighting lamp 211 is connected into the vehicle-mounted electric cabinet 12 through a lead, and the illumination time length and illumination power of each disinfection lighting lamp 211 are adjusted by the vehicle-mounted electric cabinet 12.

In one embodiment provided in the present application, the sterilizing illumination lamps 211 are disposed at two ends of the top heat-insulating cotton 210 near the positions of the first cabinet door 30 and the second cabinet door 40, and the positions of the top plates corresponding to the sterilizing illumination lamps 211 are provided with light outlets 212 through which the sterilizing illumination lamps 211 irradiate light, which can correspondingly adjust the number and the specific positions of the sterilizing illumination lamps 211 according to the actual storage conditions, which is not limited in this application.

Further, the first cabinet door 30 and the second cabinet door 40 are further provided with an observation view port 70 for observing the inside of the storage lattices 20, and the observation view port 70 is provided with an observation window made of transparent materials, such as mounting glass or an acrylic plate, so long as the transparent materials can observe the inside of the storage lattices 20 through the observation window, the state of the articles inside each storage lattice 20 can be observed conveniently and clearly, and the use of the storage cabinet and the later maintenance and cleaning function are facilitated.

In a specific application scenario that this application provided, above-mentioned locker can be applied to the on-vehicle locker on the unmanned food delivery dolly, because the cabinet body 10 of locker designs as an organic wholely, consequently can satisfy rack load and the required rigidity and the intensity demand of unmanned food delivery dolly, be provided with on this on the on-vehicle electric cabinet 12 with unmanned food delivery dolly carry out information connection's interface and signal line, insert this signal line unmanned food delivery dolly during the application, can control the electrical components that set up on the locker through the main control unit on the unmanned food delivery dolly, if this locker does not cooperate when using with unmanned food delivery dolly, then continue to carry out corresponding control by the electrical components that set up on this locker by on-vehicle electric cabinet 12. How to control the electric devices arranged on the storage cabinet through the main control unit on the unmanned meal delivery trolley is a widely applied prior art in the field, and the application does not make excessive description on the control device.

According to the storage cabinet provided by the embodiment of the utility model, the double-sided storage design is adopted, so that the space utilization rate of the cabinet is improved, the storage space of each storage grid 20 is provided with a large size, and the applicable storage grid 20 can be selected for placing and distributing the meal according to actual requirements, so that the working efficiency is improved; meanwhile, the sterilizing lighting lamp 211 in each storage grid 20 can sterilize and disinfect the food and also has a lighting function, and the heat preservation cotton arranged in each storage grid 20 can preserve heat of the food, so that the heating plate 221 further ensures the temperature of the food and reduces the heat loss of the food; the vehicle-mounted electric control box 12 arranged on the side of the cabinet body 10 is the integration of all electric control parts in the cabinet and is used for correspondingly controlling electronic devices in the cabinet; the electromagnetic lock 25 and the electromagnetic lock 55 configured on each storage grid 20 can realize automatic opening and closing of cabinet doors at two ends of the storage grid 20, under the condition of temporary requirement, the emergency safety door 11 can be quickly detached, the same-row storage grids 20 corresponding to the emergency pull rod 60 are opened in a mechanical mode, workers can conveniently take out articles in the grids, and related maintenance and cleaning operations are carried out on the grids.

It is to be understood that the above embodiments are merely illustrative of the application of the principles of the present utility model, but not in limitation thereof. Various modifications and improvements may be made by those skilled in the art without departing from the spirit and substance of the utility model, and are also considered to be within the scope of the utility model.

Claims (10)

1. A locker, comprising:

the cabinet body is internally provided with a plurality of storage grids with two-way openings, and two ends of each storage grid are respectively provided with a first cabinet door and a second cabinet door;

the electromagnetic lock catch is respectively arranged on the first cabinet door and the second cabinet door;

the electromagnetic locks are arranged on the inner sides of the two ends of the storage grid and are matched with the electromagnetic locks at the corresponding positions, and each electromagnetic lock is provided with an electromagnetic lock deflector rod penetrating out of the electromagnetic lock and extending towards the inside of the storage grid;

the emergency pull rod is provided with a plurality of emergency toggle pins which are sequentially clamped with electromagnetic lock deflector rods of the same-row storage grids, the electromagnetic lock deflector rods are driven to move along the preset unlocking direction by pulling the emergency pull rod, and the same-row electromagnetic lock is triggered to unlock.

2. The locker of claim 1, wherein emergency toggle pins are arranged at positions of the emergency pull rods corresponding to the electromagnetic lock deflector rods in the same row, one ends of the emergency toggle pins are fixed on the side walls of the emergency pull rods, and the other ends of the emergency toggle pins are clamped below the corresponding electromagnetic lock deflector rods;

the emergency pull rod extends to the top of the cabinet body, and the emergency pull rod is pulled to drive the emergency toggle pin of the emergency pull rod to enable the corresponding electromagnetic lock toggle rod to move along the preset unlocking direction, so that the same row of electromagnetic lock unlocking is realized.

3. The locker of claim 2, wherein limiting blocks for limiting the poking distance of the electromagnetic lock poking rod are arranged on the inner side wall of the storage grid along the preset unlocking direction, and the number of the limiting blocks is equal to that of the emergency poking pins;

the distance between the limiting block and the emergency poking pin is greater than or equal to the shortest poking distance required by poking the electromagnetic lock poking rod to unlock the corresponding electromagnetic lock.

4. The locker of claim 1 wherein said storage compartment comprises a top panel, a bottom panel, a left side panel and a right side panel, said top panel, bottom panel, left side panel and right side panel being spliced to form a storage space having two open ends;

the outer side walls of the top plate, the bottom plate, the left side plate and the right side plate are respectively covered with top heat preservation cotton, bottom heat preservation cotton, left side heat preservation cotton and right side heat preservation cotton, and a plurality of heating plates are further arranged between the bottom plate and the bottom heat preservation cotton.

5. The cabinet of claim 4, wherein a connection portion between the bottom plate and the bottom heat-insulating cotton is provided with a structure turned down, the bottom of the bottom heat-insulating cotton is provided with a plurality of mounting bars and mounting bolts, and the mounting bolts sequentially penetrate through the mounting bars, the heat-insulating cotton and the bottom plate to fix the heat-insulating cotton at the bottom of the bottom plate, so that two ends of the bottom heat-insulating cotton are attached to the structure turned down by the bottom plate.

6. The cabinet of claim 4, wherein said top insulating cotton is provided with sterilizing lamps at positions of both ends thereof adjacent to said first and second cabinet doors, and said top plate is provided with light outlets for passing said sterilizing lamps.

7. The cabinet of claim 1, wherein the top edges of the first cabinet door and the second cabinet door are provided with rotating shaft bolts, a first bolt seat is arranged at a position of the storage grid close to the rotating shaft bolts, and a first bolt hole for allowing the tail end of the rotating shaft bolts to pass through is arranged on the first bolt seat;

the first cabinet door and the second cabinet door are provided with second bolt seats at positions corresponding to the first bolt seats on the inner sides of the first cabinet door, second bolt holes for the tail ends of the rotating shaft bolts to pass through are formed in the second bolt seats, and the tail ends of the rotating shaft bolts sequentially pass through the first bolt holes and the second bolt holes so as to realize the hinging of the first cabinet door and the second cabinet door with the storage grid.

8. A cabinet according to claim 1, wherein the top of the cabinet is provided with a removable emergency door, and the emergency pull rod is arranged below the emergency door.

9. The cabinet of claim 1, wherein the first door and the second door are each provided with an observation window for observing the interior of the storage compartment, and the observation window is provided with an observation window made of transparent material.

10. The cabinet of claim 1, wherein the side wall of the cabinet door is provided with a vehicle-mounted electric cabinet and a wiring port, and the control wires of the electromagnetic locks are connected into the vehicle-mounted electric cabinet after passing through the wiring port.