CN220010722U

CN220010722U - Fresh-keeping storage machine

Info

Publication number: CN220010722U
Application number: CN202321294607.6U
Authority: CN
Inventors: 邓少斌
Original assignee: Shanghai Xigranule Food Technology Co ltd
Current assignee: Shanghai Xigranule Food Technology Co ltd
Priority date: 2023-05-25
Filing date: 2023-05-25
Publication date: 2023-11-14
Anticipated expiration: 2033-05-25

Abstract

The utility model discloses a fresh-keeping storage machine, which comprises a cabinet body and a temperature control unit for controlling the temperature in the cabinet body; the cabinet body is internally provided with a plurality of storage grids for placing raw material bottles, each storage grid is provided with a special bottle cap, a discharging pipe is arranged on each special bottle cap, the outer end of each discharging pipe extends out of the cabinet body, an outlet is positioned outside the cabinet body, the cabinet body is internally provided with a refrigerating element or a heating element of a temperature control unit and a temperature sensor, a control circuit of the temperature control unit is connected with the refrigerating element or the heating element and the temperature sensor, and the control circuit controls the refrigerating element or the heating element to work according to the temperature in the cabinet body sensed by the temperature sensor. Therefore, the raw materials can be stored conveniently, and the preparation are realized, so that the use is very convenient. The remote control unit can be connected with the central controller of other tea drinking equipment, so that the ice raw material or the hot raw material can be regulated, the remote application of combining the fresh-keeping storage machine with other tea drinking equipment is realized, the requirements of batch milk tea production are met, and the manual operation is reduced.

Description

Fresh-keeping storage machine

Technical Field

The utility model relates to a fresh-keeping storage machine which can be used for refrigerating or heating a plurality of stored food materials so as to meet the demands of places such as milk tea shops on cold and hot raw materials and is convenient to use.

Background

The milk tea is mainly prepared by mixing tea soup and milk, and then properly adding syrup, fruit juice, pearl balls and other raw materials according to different tastes of each person. Milk tea with different tastes is prepared from different raw materials. In addition, the milk tea is divided into ice milk tea, hot milk tea and other varieties with different temperatures, cold or ice raw materials are generally added into the ice milk tea, and hot raw materials are added into the hot milk tea, so that milk tea products with different tastes and different temperatures suitable for customers are prepared, and the requirements and the hobbies of the customers are met.

In the existing milk tea shop, raw materials (such as juice, milk and pearl balls) of the ice milk tea are generally dispersed in a refrigerator or a freezer, and when the ice milk tea is required to be made, the raw materials of the ice are taken out one by one and then added into the milk tea, so that the ice milk tea is made; and the raw materials (such as syrup and milk) of the normal-temperature milk tea are dispersed and placed, and when the hot milk tea needs to be prepared, the raw materials are heated one by one and then added into the milk tea, so that the hot milk tea is prepared. The existing ice and hot raw materials in the milk tea store are very inconvenient to take, and particularly the hot raw materials are temporarily treated, so that the hot milk tea is more inconvenient to manufacture, moreover, the raw materials are added by a producer through experience, the taste of the same milk tea cannot be guaranteed to be consistent, and the product quality cannot be guaranteed.

Therefore, the inventor specially designs a fresh-keeping storage machine which is suitable for the current milk tea shop based on the experience accumulation of long-term research and manufacturing milk tea processing equipment so as to solve the problem that the raw materials of the current milk tea shop are inconvenient to store and take.

Disclosure of Invention

The utility model aims to provide a fresh-keeping storage machine which can be used for conveniently storing raw materials, is convenient to prepare and use.

The utility model also aims to provide a fresh-keeping storage machine, which has accurate raw material consumption and ensures the quality of products such as milk tea and the like.

In order to achieve the above object, the solution of the present utility model is:

a fresh-keeping storage machine comprises a cabinet body and a temperature control unit for controlling the temperature in the cabinet body; the cabinet body is internally provided with a plurality of storage grids for placing raw material bottles, each storage grid is provided with a special bottle cap, a discharging pipe is arranged on each special bottle cap, the outer end of each discharging pipe extends out of the cabinet body, an outlet is positioned outside the cabinet body, the cabinet body is internally provided with a refrigerating element or a heating element of a temperature control unit and a temperature sensor, a control circuit of the temperature control unit is connected with the refrigerating element or the heating element and the temperature sensor, and the control circuit controls the refrigerating element or the heating element to work according to the temperature in the cabinet body sensed by the temperature sensor.

The temperature control unit is a device with a refrigerating function and comprises a control circuit, a compressor, a radiator, a refrigerating element and a temperature sensor, wherein the compressor and the radiator are arranged at the bottom of the cabinet body, the storage grid is arranged at the upper part of the cabinet body, the refrigerating element is arranged around the storage grid, and the control circuit controls the compressor and the refrigerating element to work according to the temperature in the cabinet body sensed by the temperature sensor.

The temperature control unit is a device with a heating function and comprises a control circuit, a heating element and a temperature sensor, wherein the heating element is arranged at the bottom of the cabinet body, the storage grid is arranged at the upper part of the cabinet body, and the control circuit controls the heating element to work according to the temperature in the cabinet body sensed by the temperature sensor.

The storage grid is obliquely arranged. The special bottle cap is positioned at the high position of the storage grid, so that the bottle mouth is inclined upwards when the raw material bottle is placed on the storage grid, and the inner end of the discharging pipe on the special bottle cap extends into the raw material bottle to the bottle bottom. Or, the special bottle cap is positioned at the lower part of the storage grid, so that the bottle mouth is inclined downwards when the raw material bottle is placed on the storage grid.

The grid plates of the storage grid are hollowed-out plates.

The storage grid is provided with a weight sensor, the cabinet body is provided with a display panel, the weight sensor and the display panel are connected with a control circuit, and data acquired by the weight sensor are displayed on the display panel through the control circuit.

The discharge pipe on the special bottle cap is provided with a flowmeter, the cabinet body is provided with a display panel, the flowmeter and the display panel are connected with a control circuit, and data acquired by the flowmeter are displayed on the display panel through the control circuit.

The surface of the cabinet body is provided with a visual area corresponding to the storage grid, a display panel is arranged below the visual area, and the display panel is connected with a control circuit.

The electromagnetic valve on the discharging pipe is connected with the remote control unit, and the control circuit of the temperature control unit is also connected with the remote control unit.

After the scheme is adopted, the beneficial effects of the utility model are as follows:

according to the utility model, various milk tea raw materials can be stored by virtue of the storage grid, the raw material bottle on the storage grid can be connected with the special discharging pipe by virtue of the special bottle cap, the raw materials are output one by virtue of the special discharging pipe, meanwhile, the raw materials in the cabinet body can be kept at a required temperature by virtue of the temperature control unit, for example, the temperature control unit selects a refrigerating element, the raw materials (such as juice, milk and pearl balls) of the ice milk tea can be refrigerated, the raw materials (such as syrup and milk) of the hot milk tea can be conveniently taken at any time when the ice milk tea is manufactured, the raw materials (such as syrup and milk) of the hot milk tea can be conveniently taken at any time when the hot milk tea is manufactured, and the problem that the syrup and the like at normal temperature are too viscous to be conveniently taken is avoided.

Moreover, the utility model can further control the accurate consumption of raw materials by adding a weight sensor or a flowmeter and the like, thereby ensuring the quality of the milk tea product. Still further, the utility model can be connected with a remote control unit, the remote control unit can be connected with a central controller of other tea drinking equipment, so that ice raw materials or hot raw materials can be regulated, the remote application of combining a fresh-keeping storage machine with other tea drinking equipment is realized, the requirement of batch milk tea making is met, and manual operation is reduced.

Drawings

FIG. 1 is a schematic view of the appearance of a refrigerated fresh-keeping embodiment of the present utility model;

FIG. 2 is a cross-sectional view of a refrigerated fresh-keeping embodiment of the present utility model;

FIG. 3 is an internal block diagram of a refrigerated fresh food embodiment of the present utility model;

FIG. 4 is a schematic view showing the appearance of a heating and preserving embodiment of the present utility model;

FIG. 5 is an internal block diagram of a heated fresh-keeping embodiment of the utility model;

FIG. 6 is a cross-sectional view of a heated fresh-keeping embodiment of the utility model;

fig. 7 is a schematic structural view of the special bottle cap of the present utility model.

Description of the reference numerals:

the cabinet body 10, the storage grid 11, the special bottle cap 12, the discharging pipe 13, the connector 131, the weight sensor 14, the display panel 15 and the visible area 16;

a temperature control unit 20, a refrigerating element 21, a heating element 22, a temperature sensor 23, a compressor 24 and a radiator 25;

a raw material bottle 30.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model. It is to be understood that the described embodiments are preferred embodiments of the utility model and should not be taken as excluding other embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present utility model without creative efforts, are within the protection scope of the present utility model.

The utility model provides a fresh-keeping storage machine, which is shown in fig. 1 to 7 and comprises a cabinet body 10 and a temperature control unit 20. The temperature control unit 20 is used for controlling the temperature in the cabinet body 10, and can select heating to enable the cabinet body 10 to be a heating and heat-preserving cabinet, or select refrigeration to enable the cabinet body 10 to be a refrigerating and fresh-keeping cabinet.

The cabinet body 10 is provided with a plurality of storage grids 11 for placing raw material bottles 30, each storage grid 11 is provided with a special bottle cap 12, each special bottle cap 12 is provided with a discharging pipe 13, the outer end of each discharging pipe 13 extends out of the cabinet body 10, the outlet of each discharging pipe 13 is located outside the cabinet body 10, the outlet (joint 131) of each discharging pipe 13 is arranged on the back of the cabinet body 10, the discharging pipes 13 are of a certain length and are arranged according to specific conditions, only the matched part of each discharging pipe 13 and the corresponding special bottle cap 12 and the joint 131 located on the back of the cabinet body 10 are shown in the attached drawings, and the middle part of each discharging pipe 13 is not shown in the drawings. In order to save space and simultaneously enable raw materials to be always concentrated, the storage grid 11 is further obliquely arranged. In the figure, the storage grid 11 is inclined from inside to outside, the special bottle cap 12 is positioned at the height of the storage grid 11, so that the bottle mouth is inclined upwards when the raw material bottle 30 is placed on the storage grid 11, raw materials in the raw material bottle 30 are always concentrated at the bottle bottom, the inner end of the discharging pipe 13 on the special bottle cap 12 stretches into the raw material bottle 30 to the bottle bottom, and the inner end of the discharging pipe 13 can conveniently suck the raw materials at the bottle bottom. Of course, the storage grid 11 can also incline from inside to outside, the special bottle cap 12 is arranged at the lower part of the storage grid 11, so that the bottle mouth inclines downwards when the raw material bottle 30 is placed on the storage grid 11, raw materials in the raw material bottle 30 are always concentrated at the bottle mouth, and at the moment, the inner end of the discharging pipe 13 only slightly stretches into the raw material bottle 30, so that the raw materials can be guided out of the raw material bottle 30. In order to better conduct cold and heat, the utility model designs the grid plates of the storage grid 11 as hollowed-out plates so as to facilitate air convection and enable the temperature in the cabinet body 10 to reach a set value rapidly.

Also provided in the cabinet 10 are a cooling element 21 (fig. 1-3) or a heating element 22 (fig. 4-6) of the temperature control unit 20 and a temperature sensor 23. A control circuit (not shown in the figure) of the temperature control unit 20 is connected with the refrigerating element 21 or the heating element 22 and the temperature sensor 23, and the control circuit controls the refrigerating element 21 or the heating element 22 to work according to the temperature in the cabinet 10 sensed by the temperature sensor 23. As shown in fig. 1-3, the temperature control unit 20 is a device with a refrigerating function, and includes a control circuit, a compressor 24, a radiator 25, a refrigerating element 21 and a temperature sensor 23, where the compressor 24 and the radiator 25 are installed at the bottom of the cabinet 10, the storage grid 11 is disposed at the upper part of the cabinet 10, the refrigerating element 21 is disposed around the storage grid 11, and the control circuit controls the compressor 24 and the refrigerating element 21 to work according to the temperature in the cabinet 10 sensed by the temperature sensor 23, so that the cabinet 10 maintains the functions of refrigeration and fresh-keeping. As shown in fig. 4-6, the temperature control unit 20 is a device with a heating function, and includes a control circuit, a heating element 22 and a temperature sensor 23, wherein the heating element 22 is installed at the bottom of the cabinet 10, the storage grid 11 is arranged at the upper part of the cabinet 10, and the control circuit controls the heating element 22 to work according to the temperature in the cabinet 10 sensed by the temperature sensor 23, so that the cabinet 10 keeps the heating and heat preserving functions.

In this way, according to the utility model shown in fig. 1-3, the storage grid 11 can store various ice milk tea raw materials, such as juice, milk, pearl balls and the like, so that the ice milk tea can be conveniently taken at any time during manufacturing, and the storage grid 11 can store various hot milk tea or normal-temperature milk tea raw materials, such as syrup, milk and the like, so that the hot milk tea can be stored, and particularly can avoid the problem that the normal-temperature syrup and the like are too viscous to be conveniently taken, so that the raw materials can be conveniently taken at any time during manufacturing, thereby not only facilitating raw material storage, but also enabling raw materials to be prepared at any time during manufacturing of the milk tea, and greatly facilitating use.

According to the utility model, the weight sensor 14 can be further arranged on the storage grid 11, the display panel 15 is arranged on the cabinet body 10, the weight sensor 14 and the display panel 15 are connected with the control circuit, the data acquired by the weight sensor 14 are displayed on the display panel 14 through the control circuit, so that a user can timely acquire the residual amount of the raw materials of the raw material bottle 30, and the raw material bottle can be conveniently and timely supplied. Of course, a flow meter or other means may be used to obtain the remaining amount of material in the material bottle 30. For example, a flowmeter (not shown in the figure) is installed on the discharging pipe 13 on the special bottle cap 12 or on a pipeline externally connected with the discharging pipe 13, a display panel 15 is installed on the cabinet body 10, the flowmeter and the display panel 15 are connected with a control circuit, and data acquired by the flowmeter are displayed on the display panel 15 through the control circuit. The utility model can also control the accurate raw material consumption through the weight sensor 14 or the flowmeter and the like, and ensure the quality of the milk tea product.

The utility model can further arrange a visual area 16 on the surface of the cabinet body 10 corresponding to the storage grid 11 so as to observe the condition in the cabinet body 10 and the consumption of the raw material bottle 30, and a display panel 15 is arranged below the visual area 16, wherein the display panel 15 is connected with a control circuit.

The utility model further can connect the electromagnetic valve (not shown in the figure) on the discharging pipe 13 with a remote control unit, the control circuit of the temperature control unit 20 is also connected with the remote control unit, the remote control unit can be connected with the central controller of other tea drinking equipment, so that the ice raw material or the hot raw material can be regulated, the remote application of combining the fresh-keeping storage machine with other tea drinking equipment is realized, the requirement of batch milk tea manufacturing is met, and the manual work is reduced.

In the claims, specification and drawings of the present utility model, the terms "comprising," having, "and variations thereof as used herein, are intended to be" including but not limited to.

The terms upper, lower, left, right, front, rear, front, back, top, bottom, etc. mentioned or possible to be mentioned in the present specification are defined with respect to the configurations shown in the drawings, which are relative concepts, and thus may be changed accordingly depending on the location and use state thereof. These and other directional terms should not be construed as limiting terms.

The above embodiments are only preferred embodiments of the present utility model, and are not limited to the present utility model, and all equivalent changes made according to the design key of the present utility model fall within the protection scope of the present utility model.

Claims

1. A fresh-keeping storage machine which is characterized in that: comprises a cabinet body and a temperature control unit for controlling the temperature in the cabinet body; the cabinet body is internally provided with a plurality of storage grids for placing raw material bottles, each storage grid is provided with a special bottle cap, a discharging pipe is arranged on each special bottle cap, the outer end of each discharging pipe extends out of the cabinet body, an outlet is positioned outside the cabinet body, the cabinet body is internally provided with a refrigerating element or a heating element of a temperature control unit and a temperature sensor, a control circuit of the temperature control unit is connected with the refrigerating element or the heating element and the temperature sensor, and the control circuit controls the refrigerating element or the heating element to work according to the temperature in the cabinet body sensed by the temperature sensor.

2. A fresh-keeping storage machine according to claim 1, wherein: the temperature control unit is a device with a refrigerating function and comprises a control circuit, a compressor, a radiator, a refrigerating element and a temperature sensor, wherein the compressor and the radiator are arranged at the bottom of the cabinet body, the storage grid is arranged at the upper part of the cabinet body, the refrigerating element is arranged around the storage grid, and the control circuit controls the compressor and the refrigerating element to work according to the temperature in the cabinet body sensed by the temperature sensor.

3. A fresh-keeping storage machine according to claim 1, wherein: the temperature control unit is a device with a heating function and comprises a control circuit, a heating element and a temperature sensor, wherein the heating element is arranged at the bottom of the cabinet body, the storage grid is arranged at the upper part of the cabinet body, and the control circuit controls the heating element to work according to the temperature in the cabinet body sensed by the temperature sensor.

4. A fresh-keeping storage machine according to claim 1, wherein: the storage grid is obliquely arranged.

5. A fresh-keeping storage machine according to claim 4, wherein: the special bottle cap is positioned at the high position of the storage grid, so that the bottle mouth is inclined upwards when the raw material bottle is placed on the storage grid, and the inner end of the discharging pipe on the special bottle cap extends into the raw material bottle to the bottle bottom; or, the special bottle cap is positioned at the lower part of the storage grid, so that the bottle mouth is inclined downwards when the raw material bottle is placed on the storage grid.

6. A fresh-keeping storage machine according to claim 1, wherein: the grid plates of the storage grid are hollowed-out plates.

7. A fresh-keeping storage machine according to claim 1, wherein: the storage grid is provided with a weight sensor, the cabinet body is provided with a display panel, the weight sensor and the display panel are connected with a control circuit, and data acquired by the weight sensor are displayed on the display panel through the control circuit.

8. A fresh-keeping storage machine according to claim 1, wherein: the discharge pipe on the special bottle cap is provided with a flowmeter, the cabinet body is provided with a display panel, the flowmeter and the display panel are connected with a control circuit, and data acquired by the flowmeter are displayed on the display panel through the control circuit.

9. A fresh-keeping storage machine according to claim 7 or 8, wherein: the surface of the cabinet body is provided with a visual area corresponding to the storage grid, a display panel is arranged below the visual area, and the display panel is connected with a control circuit.

10. A fresh-keeping storage machine according to claim 1, wherein: the electromagnetic valve on the discharging pipe is connected with the remote control unit, and the control circuit of the temperature control unit is also connected with the remote control unit.