JPH03160242A - Heat storage device for air conditioner - Google Patents

Abstract

PURPOSE:To accumulate a large quantity of waste heat quickly in a heat storage device by so adhering a sheet having high thermal conductivity between the storage device and a compressor as not to generate an air layer. CONSTITUTION:When a horseshoe-shaped heat storage device 1 is so mounted fixedly at heat storage device securing fittings 5 around a compressor body 2 as to be opposed to an accumulator 3, a thermal conductive sheet 6 is adhered in close contact between the body 2 and the device 1. Here, the component of the sheet is of thermosetting type to improve its adhesive properties and to further effectively store waste heat. A compressor and the device are integrated through the thermosetting type sheet to prevent phase difference due to the operating vibration, thereby eliminating generation of an abnormal sound.

Description

[Detailed Description of the Invention] The present invention relates to a heat storage device used in an air conditioner.
More specifically, it relates to a heat storage device that uses radiant heat from the surface of a compressor as a heat source.

2. Description of the Related Art Conventional heat storage devices for air conditioners utilize the heat source of a compressor. As an example, as shown in FIG. 3, the compressor is integrated with a heat storage container 7 attached to the outer circumference of the compressor body 2 by welding or the like. A plate-fin type heat exchanger is housed inside this heat storage container, and it is filled with a heat storage material such as paraffin. By incorporating the heat storage device configured in this way into the refrigeration cycle of a heat pump type air conditioner, it is possible to improve operating efficiency by utilizing the waste heat of the compressor body 2. You can improve your abilities.

However, the problem to be solved by the invention is similar to the conventional example described above.The heat storage device is integrated with the compressor. (Na, heat loss increases as the accumulated heat flows to the accumulator 3. In order to store the necessary heat, a large amount of heat storage material such as paraffin is required. Also, welding with the compressor body 2 is required. This increases the constraints on the shape of the compressor, making the compressor itself extremely large.Also, during service, it becomes impossible to remove or replace the heat storage device alone, and the service cost becomes relatively high. The present invention solves the above problems and provides a heat storage device that enables more efficient heat exchange by separating the heat storage device from the compressor.

Means to solve the problem To solve the above problem, separate the compressor and heat storage device
As long as the horse-shaped heat storage device is attached and fixed to the compressor.
A highly thermally conductive sheet (for example, NBR + filler) so that no air layer is formed between the heat storage device and the compressor.
This is intended to allow the heat storage device to quickly store a large amount of waste heat. Furthermore, according to the present invention, by using a thermosetting type as the component of the sheet with high thermal conductivity, the heat storage device and the compressor are integrated, and the generation of abnormal noise caused by different phases due to vibration etc. can be prevented, and waste heat can be prevented. The purpose is to store effectively.

Effect: Due to the above structure, the compressor main body remains in the conventional shape, there is no need for special specifications, there is no need for welding, sealing, etc., and the quality is stable. Regarding storage of waste heat from a certain compressor L: By preventing contact between the accumulator, which is a low-temperature part, and the heat storage device, unnecessary heat loss can be kept to a minimum by keeping the accumulator, which is a low-temperature part, in close contact with only the compressor body, which is a high-temperature part. It becomes possible,
Only the necessary amount of heat storage material is needed, and the shape can be made more compact, which can lead to significant cost reductions.

Furthermore, since the compressor and the heat storage device are separated, repair and replacement work is easy during service, and service costs can be reduced. In addition, when metals are made of metal, it is possible to prevent deterioration in corrosion resistance due to scratches on each other and peeling off the paint, ensuring a long life and stabilizing quality. By making a portion of the highly thermally conductive sheet a thermosetting type, it is possible to achieve better adhesion and store waste heat more effectively.
The compressor and the heat storage device are integrated into one body by means of a thermosetting type sheet, which eliminates the possibility of out of phase during vibration during operation and generation of abnormal noise.

EXAMPLE Hereinafter, an example of the present invention will be described with reference to the drawings. In Fig. 1, the compressor main body 2 and the accumulator 3
A compressor is constructed by a compressor leg portion 4 and a heat storage device fixing fitting 5. A horse-shaped heat storage device 1 is attached and fixed to the heat storage device fixing fitting 5 around the compressor main body 2 so as to face the accumulator 3.
At this time, a heat conductive sheet 6 is pasted between the compressor main body 2 and the heat storage device 1 to bring them into close contact. When the compressor main body 2 and the heat storage device 1 are installed, as shown in FIG.
Although it is possible that a gap 7 (air layer) may occur, as is well known, when a gap occurs, the air acts as a heat insulator and it takes a very long time to store the waste heat of the compressor in the heat storage device 1. Sometimes the necessary amount of heat cannot be used. Maf. Conversely, if there is no gap 7 and the compressor main body 2 and the heat storage device 1 are installed with their faces touching,
Because they are metal comrades, they may make abnormal noises or rub against each other and peel off the paint, so in order to prevent corrosion resistance from deteriorating and stability and quality decreasing, we use a soft rubber-based sheet with high thermal conductivity. , and can absorb the above two contents. Next, a second embodiment of the present invention will be described. By using a thermosetting type as the component of the conductive sheet 7, it can be hardened by the waste heat of the installed compressor using the same work procedure as in the first embodiment (X. Since the equipment is integrated, there are many problems such as abnormal noises.

Effects of the Invention As is clear from the above embodiments, the present invention (by separating the compressor and heat storage device reduces the number of parts, reduces processability and costs), and efficiently stores the waste heat of the compressor during heating operation. This can improve the feel of the parts.Also, since they are separated during service, only one can be replaced or repaired.

[Brief explanation of the drawing]

Figure 1(a). (b)i;L FIG. 2 is a plan view and front view of an M heat storage device showing an embodiment of the present invention. FIG. 3 is a perspective view of a heat storage device showing a conventional example. 1... Heat storage device, 2... Compressor base 3...
・・Accumure Ku 4・・・・Compressor leg R. 5...
・・Metal fittings for fixing the heat storage device 6・・・Thermal conductive sheet,
7...Gap

Claims (2)

[Claims] (1) An air conditioner in which a compressor and a heat storage part that effectively utilizes the heat of the compressor to improve the feeling during heating are joined without gaps through a highly thermally conductive rubber sheet. Heat storage device. (2) The heat storage device for an air conditioner according to claim 1, wherein the rubber-like sheet is made of a thermosetting type.