JPH0440134Y2 - - Google Patents

Description

[Detailed explanation of the invention] [Industrial application field] The present invention arranges a cold storage agent around the refrigerant evaporation tube,
This invention relates to a cold storage plate that can store cold temperature.

[Conventional technology]

As shown in FIG. 3, a conventional cold storage plate has a hollow container body 1 in the shape of a flat plate. The main body 1 is constructed by forming two plate-shaped metal plates 3 and 4 with excellent thermal conductivity into a plate shape by squeezing, and then symmetrically overlapping and bonding them together to create a hollow part. It is made.

Around the metal plates 3 and 4, flange portions 7,
8 is formed. The flange parts 7, 8 are tightly fitted and connected to each other. To join the flange parts 7 and 8, the flange part 7 of one metal plate 3 is folded back so as to wrap around the other flange part 8 and brought into close contact. flange part 7,
8 may be joined to each other by welding such as seam welding.

A cool storage agent 10 is sealed inside the main body 1 made in this way. Further, inside the main body 1, a plurality of cooling refrigerant evaporation pipes 12 are arranged so as to be in contact with the cool storage agent 10. Both ends of these refrigerant evaporation tubes 12 extend outside the main body 1 and are connected to the cooling system. Further, the refrigerant evaporation tube 12 is cooled by evaporating the refrigerant therein, and the refrigerant 10 is precooled by heat exchange between the refrigerant 10 and the refrigerant evaporation tube 12.

[Problem that the invention attempts to solve]

By the way, the main body in Fig. 3 has flange parts 7 and 8.
Since it is made by bending or joining together by welding, etc., it has poor sealing performance and workability.

That is, after the plate-shaped metal plates 3 and 4 are squeezed, the flange portions 7 and 8 are reworked, and fixing devices for the internal refrigerant evaporation tube 12 are also installed in post-processing, which is time-consuming and time-consuming. There are also problems with sealing.

Furthermore, since heat exchange occurs only between the surface of the refrigerant evaporation tube 12 and the regenerator, there is also a problem in cooling performance.

Therefore, an object of the present invention is to provide a cold storage plate that is easy to process, has excellent sealing properties and strength for the cold storage agent, is lightweight, and has high cooling efficiency.

[Means for solving problems]

According to the present invention, in a cold storage plate in which a cold storage agent is arranged around a refrigerant evaporation tube, there are two flat plate portions facing each other at a distance, and a plurality of ribs protruding from the two flat plate portions to face each other. and a flat hollow container body integrally formed by extrusion molding of aluminum, the refrigerant piping is sandwiched between the mutually opposing ribs, and the cool storage agent is sealed in the container body. A cold storage plate is obtained.

〔Example〕

FIGS. 1 and 2 show an embodiment of the cold storage plate of the present invention.

The illustrated cold storage plate has a hollow container body 21 in the shape of a flat plate with excellent heat conduction. The main body 21 includes two opposing flat plate parts 23 and 24, and a side wall part 2 that connects the pair of side sides of these flat plate parts 23 and 24.
7, 28. In reality, the main body 21 is made in one piece by extrusion molding of aluminum material.

A plurality of ribs 30 protruding from the inner surfaces of the flat plate portions 23 and 24 are integrally formed inside the main body 21 . These ribs 30 extend parallel to the side walls 27, 28 and at equal intervals from each other. Furthermore, ribs 3 extending from one flat plate portion 23
0 faces the rib 30 extending from the other flat plate portion 24. An arcuate holding portion 33 is formed at the tip of the rib 30 . That is, the opposing holding parts 3
No. 3 is formed such that the arcuate recessed portions face each other.

A refrigerant evaporation tube 35 is sandwiched between the holding parts 33 facing each other. Refrigerant evaporation pipe 35
is held by the holding portion 33 and extends in a meandering manner.

Further, the ends of the side wall portions 27 and 28 of the main body 21, that is, both ends of the main body 21 in the longitudinal direction are open. A header pipe 40 is installed at the open end of the main body 21.
is fixed so as to seal the main body 21. Both end portions of the refrigerant evaporation pipe 35 are connected to header pipes 40.
and is connected as part of the refrigeration circuit.

Furthermore, a cool storage agent 42 for exchanging heat with the refrigerant evaporation tube 35 is sealed in the hollow portion of the main body 21 . That is, by evaporating the refrigerant inside the refrigerant evaporation tube 12, the cool storage agent 42 is precooled.

Therefore, the above-mentioned cold storage plate is suitable for being provided inside a refrigerator or a freezer to maintain the temperature when the power supply is cut off.

Note that although the tip of the rib 30 is an arc-shaped holding portion 33, it goes without saying that the same effect can be obtained with other shapes as long as the shape can hold down the cooling evaporation tube 35.

[Effect of idea]

As explained above with reference to the embodiments, according to the cold storage plate of the present invention, the main body is made by extrusion molding, so it is easy to process without requiring multiple processing treatments, and it also has excellent sealing properties for the cold storage agent. It becomes something.

In addition, since the main body is made of aluminum material, the weight is significantly reduced compared to iron plates etc.
For example, when it is mounted in a freezer or the like, the increase in weight can be reduced. Therefore, it is possible to increase the loading efficiency of the cargo.

Furthermore, since the refrigerant evaporation tube is sandwiched between ribs and fixed, there is no need for post-processing using fixing tools, etc., and the rib portion can be used as a fin for heat exchange with the cold storage agent. It can also contribute to the cooling effect. Further, even when the cold storage plate receives compressive force from the outside, the rib portion serves as a reinforcing material and can prevent the flat plate portion from deforming. Therefore, the present invention can provide a cold storage plate that is easy to process, lightweight, has excellent strength, and has high cooling efficiency.

[Brief explanation of the drawing]

Figure 1 shows an embodiment of the cold storage plate of the present invention.
FIG. 2 is a cross-sectional view of the negative portion of FIG. 1, and FIG. 3 is a cross-sectional view of a conventional cold storage plate. 1... Hollow container body, 3, 4... Flat plate part, 7,
8...Flange part, 10...Cold storage agent, 12...
Cooling evaporation tube, 21... Hollow container body, 23, 24
... Flat plate part, 27, 28 ... Side wall part, 30 ... Rib, 33 ... Holding part, 35 ... Refrigerant evaporation tube, 42
...Cold storage agent.

Claims (1)

[Claims for Utility Model Registration] 1. A cold storage plate in which a cold storage agent is arranged around a refrigerant evaporation tube, which includes two flat plate portions facing each other with a space between them, and a portion protruding from the two flat plate portions to face each other. The container body includes a flat hollow container body integrally formed with a plurality of ribs by extrusion molding of aluminum, the refrigerant piping is sandwiched between the ribs facing each other, and the cool storage agent is sealed in the container body. A cold storage plate characterized by: 2. The tip of the rib has an arc shape that fits the refrigerant pipe.Claim 1)
Cold storage plate as described in section.