JPS6050394A - Heat exchanging device - Google Patents

Abstract

PURPOSE:To obtain the lightweight heat exchanging device by a method wherein a heat exchanger is formed in semicircular shape, a heat exchanging fin is fixed with an adhesive, and a blower block formed in semicircular shape, that is, the blower and a combination member for mounting plate are fixed with the adhesive. CONSTITUTION:One side end parts of fins 14a of a heat exchanger 14 are respectively fixed with an adhesive 19, accordingly, the heat exchanger 14 is given a rigidity, and formed without requiring a plith. The heat exchanger 14 is formed in plane semicircular cylinder shape. By opening the back side of a diameter part of the semicircular cylinder, the arranging of a casing side plate is not required. A blower 2 is secured to a mounting plate 17, the periphery part of a ventilating port of the blower 2 of the mounting plate 17 is protruded toward the flow out direction, thereby, the function as a bellmouth for regulating an air flow and the action as a reinforcing body are added. By protruding the outer periphery part of the mounting plate 17 with wrapping of the heat exchanger 14, the mounting surface of the heat exchanging device is formed, while an action as the reinforcing plate is obtained.

Description

DETAILED DESCRIPTION OF THE INVENTION [Technical Field of the Invention] The present invention relates to a heat exchange device such as a refrigeration cycle.

[Prior art]

Conventionally, there have been heat exchange devices of this type as shown in FIGS. 1 to 3. In these figures, l is a plate heat exchanger composed of plate fins and heat transfer tubes, 2 is a blower, 3 is an underframe for fixing the heat exchanger l and the blower 2,
4 and 5 are casing side plates that form a heat exchange device and block the flow of air; 6 is a cooling sink top plate that has the same function as the casing side plates 4 and 5; 7 is a power supply tap for the blower 2; and 8 is a refrigerant This is a tII connection pipe.

FIG. 4 shows a refrigerant system diagram of a refrigeration system using the heat exchange device described above. 1 to 3 indicate the same parts, 9 is a refrigerant compressor, 10 is an indoor heat exchanger (acts as an evaporator), 11 is a blower, 12 is an expansion valve, and 13 is a refrigeration-refrigerant.・Refrigerant piping that connects each device to form a cycle.

Next, a method of using the above-described heat exchange device will be explained. The refrigerant gas compressed by the refrigerant compressor 9 becomes a high-temperature, high-pressure gas and flows into the heat exchanger l. The refrigerant gas radiates heat to the air by the blower 2 and condenses.

It becomes a high-pressure refrigerant liquid. The high-pressure refrigerant liquid is depressurized by the expansion valve 12 to become a low-pressure refrigerant liquid, which flows into the indoor heat exchanger 10 to perform an evaporation action, and the blower 11 transports cold air to perform air conditioning.

In the conventional heat exchange device, as shown in FIGS. 1 to 3, a pair of heat exchangers 1 are fixed on a frame 3, and a blower 2 is placed between them at 5, facing each other. Both sides of the heat exchanger l are closed off by casing side plates 4 and 5. The blower 2 is fixed to a support base 1 that engages with a frame 3, and the area around the air outlet of the blower 2 is closed off by a cage jig plate 6. In addition, the power supply tap 7 is incorporated into the electrical circuit of the refrigeration equipment.

By connecting the refrigerant pipe 13 to the refrigerant pipe connecting pipe 8, a refrigerant circuit shown in FIG. 4 is constructed.

Conventional heat exchange equipment has a 5iC configuration as described above, so it has many parts and has installation constraints such as the need for a space for cooling air on one side of the heat exchanger. However, the disadvantage is that it is expensive in terms of cost.

[Summary of the invention]

This invention was made in order to eliminate the drawbacks of the conventional ones as described above.The heat exchanger is formed into a semi-cylindrical shape, and both ends of the rain of the heat exchanger are attached with adhesive. The purpose of the present invention is to provide a heat exchange device with a simple structure and low cost by attaching a semicircular blower block to one end of the heat exchanger.

[Embodiments of the invention]

An embodiment of the present invention will be described below with reference to FIGS. 5 to 10.

In FIGS. 5 to 1θ, 14 is a heat exchanger configured in a planar semi-cylindrical shape, 14a is a heat exchanger fin made of a strip-shaped plate, 14b is a heat exchanger heat exchanger tube, and 15.16 is a heat exchanger. heat exchanger fixing metal that engages with the container 14; 17 is the blower 2;
17a is a bell mouth/reinforcing body protruding from the mounting plate 17 in the ventilation direction from around the ventilation opening of the blower 2; 17b is a reinforcing part protruding from the outer periphery of the mounting plate 17;
Reference numeral 18 indicates a mounting hole for fixing the heat exchange device 21, which is composed of the heat exchanger l, the blower 2, and the mounting plate 17, in a certain predetermined place, and reference numeral 19 indicates the mounting hole of the heat exchanger fin 14m, which is arranged in a vertically divided semi-cylindrical shape. a connecting agent for fixing one end to each other; 20;
is the other end of the heat exchanger fin 14m and the semicircular mounting plate 1
This is the adhesive that fixes 7. Note that the function of the heat exchange device 21 in this embodiment is the same as the conventional one, so a description thereof will be omitted.

In this embodiment, the fins 14m of the heat exchanger 14 are
By fixing one ends to each other with adhesive, the heat exchanger 14 is given rigidity and has a structure without the °C frame 3. Furthermore, the heat exchanger 14 is formed into a planar semi-cylindrical shape, and the diameter of this semi-cylindrical This structure eliminates the need for casing side plates 4 and 5 (see FIG. 1) by opening the back surface. The blower 2 is fixed to the mounting plate 17, and the area around the ventilation opening of the blower 2 on the mounting plate 17 is made to protrude in the outflow direction.

The outer periphery of the mounting plate 17 is attached to the heat exchanger 1 by adding the function of a bell mouth that rectifies the wind flow and the function of a reinforcing body.
4 and was formed as a mounting surface for a heat exchange device that functions as a °C reinforcing plate. Attachments 15 and 16, which penetrate the heat transfer tubes 14b between the fins 14m and the heat transfer tubes 14b of the heat exchanger 14 and expand the heat transfer tubes 14b, are arranged, and the mounting plate 15
゜16 is formed into two peak shapes as shown in Fig. 8,
The refrigerant pipe connecting pipe 8 is passed through one side of the mounting plate 16, one side of the mounting plate 16 is formed as a mounting surface for the heat exchange device 21, and a mounting hole 18 is formed to facilitate mounting. As shown in FIG. 6, the refrigerant pipe connecting pipe 8 was arranged at 5 such that one end was close to the adhesive 19 and the other end was close to the mounting plate 17 side.

Also, when viewed from a 1m6 diagram, the refrigerant piping connection pipe 8 is placed on the left side, but the heat exchanger 14, blower 2, and mounting plate 1
By configuring the heat exchanger 140 combination upside down at the stage of combination 7, the refrigerant piping connection pipe 8 can be placed on the right side without the need to manufacture a new heat exchanger 14. did.

An example of how to install the heat exchange device 21 having the above-mentioned 5 IC structure is shown in FIGS. 11 and 12. In these figures, 21 is a heat exchange device, 22 is a ceiling of the building, 23 is a wall of the building, and 24 is a floor of the building.
The rear opening of 1 is covered with a ceiling 22 or a floor 24 on the side opposite to the mounting plate 17, respectively. And heat exchange equipment R
The zt uses the floor, walls, and ceiling of the building, and is installed with the top and bottom facing each other with the top and bottom turned upside down.

In the above embodiment, the combination mainly consists of the heat exchanger 14, the mounting plate 17, and the blower 2, but the present invention provides a combination of the heat exchanger 14, the mounting plate 17, and the blower 29, but the present invention provides a blocking plate on the mounting surface of the heat exchange device 21 and the opposing surface of the blower 29. It's okay. Also.

Although the above embodiment has been described with reference to a device used in a refrigerator, the present invention may be applied to a water cooling device or other heat exchange device, and the same effects as in the above embodiment can be obtained.

〔Effect of the invention〕

As explained above, the ninth aspect of the present invention is to form the heat exchanger into a cylindrical shape, fix the heat exchanger fins with adhesive,
Moreover, since the blower pull-piece formed in a semicircular shape, that is, the combination of the blower and the mounting plate is fixed with adhesive, the device can be manufactured at a low cost, and it is also possible to provide a lightweight heat exchange device. .

[Brief explanation of the drawing]

Fig. 1 is a front view of the conventional heat exchange device, Fig. 2 is a side view of the conventional heat exchange device, Fig. 3 is a plan view of the conventional heat exchange device, and Fig. 4 is a diagram of the heat exchange device. A refrigerant system diagram for explaining the use, FIG. 5 is a front view showing a heat exchange device according to an embodiment of the present invention, FIG. 6 is a side view of the heat exchange device, and FIG. 7 is a diagram of the heat exchange device. The plan view, Figure 8, is shown in Figure 6.
Figure 9 is a sectional view taken along the line I) (-11) of Figure 7, Figure 10 is a sectional view taken along the line X-X of Figure 7, and Figure 11 is a perspective view showing the state of the heat exchanger. 12 are side views showing the installation status of the heat exchange device. 2...Blower, 7...Power supply tap, 14...Heat exchanger, 14a...Plate fin, 14b...Heat transfer tube, 15.16.
...Heat exchange equipment fixed money. 17...Mounting plate, 17m...Bell mouth/reinforcing body protruding from the mounting plate, 17b...
Reinforcement plate protruding from the mounting plate, 19.20...
glue. Note that the same group numbers in Figure 1 indicate the same or equivalent parts. Agent Masuo Oiwa (and 2 others) 9 spears! NQ
@Yoko 3! 1 Showa year, month, day, Mr. Commissioner of the Patent Office, 1゜Indication of the case, patent application Sho [18-1 (30640 No. 2,
Name of the invention Heat exchange device 3, Person making the amendment 5, Subject of the amendment (1) Detailed explanation of the invention in the specification 6 Contents of the amendment (1) On page 6, line 9 of the specification tube, there is a statement that says "fixed" Correct the phrase ``connecting agent'' to ``fixing adhesive.''

Claims (3)

[Claims] (1) Equipped with a heat exchanger composed of plate fins or similar fins and heat transfer tubes orthogonally arranged, this heat exchanger is formed into a semi-cylindrical shape, and is fixed to one end of the heat exchanger fin with adhesive. A heat exchanger characterized in that the other end of the heat exchanger fin is fixed with an adhesive to a blower block to which a semicircular mounting plate and a blower are fixed. (2) It has a heat exchanger fixing metal that is parallel to the heat exchanger fins and penetrates the heat exchanger tube, the fixing metal is formed into approximately two shapes, and one side of the two shapes has a hole through which the piping passes. A heat exchange device according to claim 13, wherein a plurality of holes are provided for passing the electric wires of the blower motor, and a plurality of holes are provided on the other side of the shape 2 for fixing the heat exchange device. . (3) The scope of claims (Clause 1 or ( 2) The heat exchange device described in section 2).