WO2019000278A1

WO2019000278A1 - Flexible assembled freezer

Info

Publication number: WO2019000278A1
Application number: PCT/CN2017/090562
Authority: WO
Inventors: 龚志明
Original assignee: 龚志明
Priority date: 2017-06-28
Filing date: 2017-06-28
Publication date: 2019-01-03

Abstract

A flexible assembled freezer. The flexible assembled freezer comprises a freezer compartment (10), a freezer body component, a cooling component, a barrier module, and a computer control room (8). The cooling component is arranged within the freezer body component. The computer control room (8) is arranged at the periphery of the freezer body component. The freezer body component comprises a fiber-reinforced plastic outer wall (1), a freezer thermal insulation layer (2), and a barrier module track (3). The fiber-reinforced plastic outer wall (1) is arranged at the periphery of the freezer thermal insulation layer (2). The barrier module (9) is provided within the freezer compartment (10). By constructing the barrier module (9) in different ways, sealed spaces of different shapes and sizes are formed within the freezer compartment, thus not only satisfying requirements of frozen goods for independent storage, but also preventing wastage of the internal storage space of the freezer compartment (10), increasing the utilization rate of the freezer, and reducing freezing costs for enterprises.

Description

Flexible assembly freezer

Technical field

The invention relates to a flexible assembled freezer, belonging to the technical field of refrigeration equipment.

Background technique

The freezer is a building mainly used for frozen storage of foods and medicines. As the economy develops and technology advances, the types of items that need to be refrigerated become more and more. Different cold collections cannot be stored in the same space at the same time because of the difference in storage conditions required. Therefore, in real production, multiple freezer libraries are needed to meet the storage requirements of different collections. If there are a small number of collections and need to be refrigerated separately, it will cause waste of the internal space of the freezer. This not only does not meet the call for energy conservation and emission reduction advocated by the state, but also greatly increases the operating costs of enterprises and reduces their profitability and market competitiveness. Therefore, there is an urgent need in the market for a freezer that can adjust the internal storage space according to the size of the items to be stored.

Summary of the invention

The present invention is directed to the technical problems existing in the prior art, and provides a flexible assembled freezer, the whole technical solution is compact in structure, low in cost, energy-saving and environmentally friendly, and the technical solution is arranged in the freezer through the setting of the baffle assembly. A confined space of different shapes and sizes is formed inside. The design not only satisfies the requirements for independent storage of cold collections, but also avoids waste of storage space in the freezing compartment, and truly performs various refrigeration in a limited space.

In order to achieve the above object, the technical solution of the present invention is as follows: a flexible assembled freezer, characterized in that the flexible assembled freezer includes a freezing compartment, a library assembly, a refrigeration component, a blocking module, and a computer control room; The refrigeration assembly is located within the library assembly; the computer control chamber is located at the periphery of the library assembly; the library assembly includes glass The steel outer wall, the cold storage insulation layer and the blocking module are aligned with the track; the FRP outer wall is located at the periphery of the cold storage insulation layer; and the blocking module is disposed in the freezing chamber. The design structure is simple and clear, and the components are closely connected without affecting each other, and the required components are easily replaced, which is easy for maintenance and maintenance of the products in the future.

As an improvement of the present invention, the refrigeration assembly includes a refrigerator, an insulation baffle, a supply duct, a high efficiency fan and a fan; the refrigerator is located behind the high efficiency fan; and the high efficiency fan is connected to the fan through the air supply duct; The fan is mounted on a reserved hole of the insulating partition; the freezing compartment is separated by an insulating partition and a baffle assembly. The design of the chiller, high-efficiency fan and fan is closely designed to effectively reduce the laying of the air supply duct. Avoid the problem that the cooling effect is deteriorated due to the temperature rise caused by the cold air flowing in the pipeline for a long time.

As an improvement of the present invention, the computer controlled chiller and the high efficiency fan operate within the computer controlled room. The computer control room is located beside the glass exterior wall; the computer control room controls the operation of the refrigerator and the high efficiency fan. The operation of the computer-controlled chiller and the high-efficiency fan can accurately control the temperature in the freezer, which is conducive to maintaining a constant temperature in the freezer for a long time. Improve the refrigerating effect and storage time of the item.

As an improvement of the present invention, the barrier module comprises an aluminum casing, a rigid foam polyurethane insulation layer and a slider; the aluminum casing is covered outside the rigid foam polyurethane insulation layer; and the slider is fixed at the bottom of the barrier module. The design and materials of the barrier module provide long-lasting insulation and ruggedness. Therefore, this product is more suitable for small and medium-sized cold storage enterprises to produce and sell. The design of the barrier module alignment track enables the two docking modules to be spliced quickly, and the required docking points are quickly aligned to speed up the installation and improve production efficiency. A strip slider is mounted in the alignment module alignment rail, and its cross-sectional size is the same as the size of the slider included in the blocking module. To. The design of the slider can reduce the friction generated when the blocking module is spliced, so that the worker can quickly and effectively complete the assembly work of the blocking module.

As an improvement of the present invention, the computer control room can control the independent switch and wind power of all fans. Each fan is independently controlled by a computer, and can be flexibly controlled according to the amount of stored items and the size of the confined space constructed by the blocking module. Avoid the energy loss and mechanical loss caused by the ineffective operation of the fan, thus improving the efficiency of the cold storage.

As an improvement of the present invention, the blocking module is provided as one or more of a left blocking module, a right blocking module, and a double blocking module, and the blocking module includes three shapes shown in the figure, through different manners. Combined construction, the freezing chamber can be divided into confined spaces of different sizes. By constructing the barrier module in different ways, a confined space of different shapes and sizes is formed in the freezer. This product not only satisfies the requirements for independent storage of cold collection, but also avoids waste of storage space inside the freezer. It not only improves the utilization rate of the freezer, but also reduces the refrigeration cost of the enterprise.

Compared with the prior art, the present invention has the following advantages: 1) the overall structural design of the technical solution is ingenious, compact, and low in cost; 2) the method uses the design of the blocking module to align the track, and can make the two blocking modules spliced. The joints need to be quickly aligned to speed up the installation and improve the production efficiency; 3) The design of the slider can reduce the friction when the blocking module is spliced, so that the workers can complete the assembly work of the blocking module quickly and effectively; 4) the refrigerator, The high efficiency fan and fan are closely designed to effectively reduce the laying of the air supply duct. Avoid the problem that the temperature rises and the cooling effect becomes worse due to the long-term operation of cold air in the pipeline; 5) The computer control room controls the operation of the chiller and the high-efficiency fan. Computer control The operation of the cold machine and the high-efficiency fan can accurately control the temperature in the freezer, which is conducive to maintaining a constant temperature in the freezer for a long time. Improve the refrigerating effect and storage time of the items; 6) Each fan is independently controlled by the computer, and can be flexibly controlled according to the amount of stored items and the size of the confined space constructed by the blocking module. Avoid the energy loss and mechanical loss caused by the ineffective operation of the fan, thereby improving the efficiency of the cold storage; 7) The insulation board material selected in this design not only has good insulation effect, but also is durable, which is very suitable for the construction of the cold storage insulation layer. 8) By constructing the barrier module in different ways, a confined space of different shapes and sizes is formed in the freezer, so that the product satisfies the requirements for independent storage of the cold collection, and avoids storage in the freezer compartment. The waste of space. It not only improves the utilization rate of the freezer, but also reduces the refrigeration cost of the enterprise; 9) The technical solution has lower cost and is further promoted and applied.

DRAWINGS

Figure 1 is a schematic view of the overall structure of the present invention;

Figure 2 is a plan view;

Figure 3 is a plan view of the installation of the barrier module;

4 is a schematic structural view of a blocking module;

In the picture: 1, FRP outer wall, 2, cold storage insulation layer, 3, barrier module alignment track, 4, refrigerator, 5, insulation partition, 6, high efficiency fan, 7, fan, 8, computer control room, 9, Barrier module, 91, aluminum casing, 92, rigid foam polyurethane insulation, 93, slider, 10 freezer, 11, computer.

Detailed ways:

In order to deepen the understanding of the present invention, the present embodiment will be described in detail below with reference to the accompanying drawings. Bright.

Embodiment 1: Referring to Figures 1 to 4, a flexible assembled freezer includes a freezing compartment, a library assembly, a refrigeration component, a blocking module, and a computer control room; the refrigeration component is located in the library The computer control room is located at the periphery of the library assembly; the library assembly includes a FRP outer wall 1, a cold storage insulation layer 2, and a barrier module alignment track 3; the FRP outer wall is located at the periphery of the cold storage insulation layer; The blocking module is placed in the freezer compartment. The design structure is simple and clear, the components are closely connected and do not affect each other, and the required components are easily replaced, and the maintenance of the product in the future is easy to be used; the refrigeration component includes the refrigerator 4, the insulation partition 5, and the delivery a wind pipe, a high efficiency fan 6 and a fan 7; the refrigerator is located behind the high efficiency fan; the high efficiency fan is connected to the fan through a supply duct; the fan is installed on a reserved hole of the insulation partition; The plate assembly separates the freezer compartments. The design of the chiller, high-efficiency fan and fan is closely designed to effectively reduce the laying of the air supply duct. Avoid the problem that the cooling effect is deteriorated due to the temperature rise caused by the cold air flowing in the pipeline for a long time.

Embodiment 2: Referring to Figures 1 - 4, as a modification of the present invention, the computer 11 in the computer control room 8 controls the operation of the refrigerator and the high efficiency fan. The computer control room is located beside the glass exterior wall; the computer control room controls the operation of the refrigerator and the high efficiency fan. The operation of the computer-controlled chiller and the high-efficiency fan can accurately control the temperature in the freezer, which is conducive to maintaining a constant temperature in the freezer for a long time. Improve the refrigerating effect and storage time of the item.

Embodiment 3: Referring to FIG. 3 and FIG. 4, as a modification of the present invention, the barrier module 9 comprises an aluminum casing 91, a rigid foam polyurethane insulation layer 92 and a slider 93; The outer casing is covered on the outside of the rigid foam polyurethane insulation layer; the slider is fixed on the bottom of the barrier module. The design and materials of the barrier module provide long-lasting insulation and ruggedness. Therefore, this product is more suitable for small and medium-sized cold storage enterprises to produce and sell. The design of the barrier module alignment track enables the two docking modules to be spliced quickly, and the required docking points are quickly aligned to speed up the installation and improve production efficiency. A strip slider is mounted in the alignment module alignment rail, and its cross-sectional size is the same as the size of the slider included in the blocking module. The design of the slider can reduce the friction generated when the blocking module is spliced, so that the worker can quickly and effectively complete the assembly work of the blocking module.

Embodiment 4: Referring to Figures 1-2, as a modification of the present invention, the computer control room can control the independent switch and wind power of all fans. Each fan is independently controlled by a computer, and can be flexibly controlled according to the amount of stored items and the size of the confined space constructed by the blocking module. Avoid the energy loss and mechanical loss caused by the ineffective operation of the fan, thus improving the efficiency of the cold storage.

Embodiment 5: Referring to FIG. 1 to FIG. 2, as a modification of the present invention, the blocking module is disposed as one or more of a left blocking module, a right blocking module, and a double blocking module, and the blocking module includes a figure. The three shapes shown in the figure can be divided into different types of confined spaces by dividing the freezing chamber into different sizes. By constructing the barrier module in different ways, a confined space of different shapes and sizes is formed in the freezer. This product not only satisfies the requirements for independent storage of cold collection, but also avoids waste of storage space inside the freezer. It not only improves the utilization rate of the freezer, but also reduces the refrigeration cost of the enterprise.

It should be noted that the above embodiments are not intended to limit the scope of the present invention, and equivalent changes or substitutions made on the basis of the above technical solutions are all in the present invention. The scope of the claims is protected.

Claims

A flexible assembled freezer, characterized in that the flexible assembled freezer comprises a freezing compartment, a library component, a refrigeration component, a blocking module and a computer control room; the refrigeration component is located in the library component; the computer The control room is located at the periphery of the library assembly; the library assembly comprises a FRP outer wall, a cold storage insulation layer and a barrier module track; the FRP outer wall is located at the periphery of the cold storage insulation layer; and the blocking module is disposed in the freezing chamber.
The flexible assembled freezer according to claim 1, wherein the refrigeration assembly comprises a refrigerator, an insulation baffle, a supply duct, a high efficiency fan and a fan; the refrigerator is located behind the high efficiency fan; The fan is connected to the fan through the air supply duct; the fan is installed on the reserved hole of the heat insulating partition; the freezing chamber is separated by the heat insulating partition and the baffle assembly.
The flexible assembled freezer of claim 2 wherein the computer controlled chiller and the high efficiency fan operate within the computer controlled room.
The flexible assembled freezer according to claim 3, wherein the barrier module comprises an aluminum casing, a rigid foam polyurethane insulation layer and a slider; the aluminum casing is covered on the outside of the rigid foam polyurethane insulation layer; The slider is fixed at the bottom of the blocking module.
The flexible assembled freezer according to claim 3 or 4, wherein the blocking module is provided as one or more of a left blocking module, a right blocking module, and a double blocking module.