JPH0328272Y2 - - Google Patents

Description

[Detailed description of the invention] [Purpose of the invention] (Field of industrial application) The present invention relates to an evaporator used in an air conditioner for an automobile, and in particular, to enable the evaporator to be installed effectively on the vehicle side. It is something.

(Prior Art) An evaporator conventionally used in automobile air conditioners is shown in FIG. 1. This evaporator is of a deformed tube type, in which a flat deformed tube 2 with a large number of refrigerant passages 1 formed therein is formed into a meandering shape, and a fin is formed between a pair of mutually opposing outer surfaces of the tube 2. 3 is attached to constitute the evaporator main body 4. Therefore, the refrigerant flowing from the inlet conduit 5 attached to one end of the tube 2 flows through the tube 2.
The refrigerant passes through the refrigerant passage 1 inside the tube and flows out from the outlet conduit 6 attached to the other end of the tube 2.
Heat exchange is performed with the air flowing along the fins 3. The state in which such an evaporator main body 4 is housed in the cooler case 7 is shown in Fig. 2, and the length of the evaporator main body 4 along the direction in which air flows is conventionally approximately uniform over the entire length. ing.

(Problem to be solved by the invention) For this reason, if there are various other devices around the evaporator that is built into the car body, and the evaporator and these devices interfere with each other,
The location of the equipment had to be changed.

Therefore, the present invention has been developed to prevent interference between various types of evaporators, such as irregularly shaped tube types, laminated types, and round tube types, even if there are parts that cause interference between the evaporator and other various equipment installed on the vehicle side. The purpose is to avoid this.

[Structure of the invention] (Means for solving the problem) The structure of the invention to achieve this purpose is as follows:
An evaporator body is formed by providing an evaporator body with fins for guiding air that exchanges heat with the refrigerant on the outer surface of a tube in which a refrigerant passage for guiding the refrigerant is formed, and an air inlet opening and an air outlet opening. In the evaporator, the evaporator main body is housed in a cooler case having at least two air filters having different lengths along the air flow direction.
two evaporator structures are disposed in a direction perpendicular to the air flow direction to form the evaporator main body having a stepped shape along the air flow direction, and the evaporator body is disposed in the cooler case in a direction perpendicular to the air flow direction. This evaporator is characterized in that an interference avoidance part having a stepped shape or an inclined shape can be formed in correspondence with the stepped shape of the main body.

(Function) With this configuration, since the evaporator main body has a stepped shape along the air flow direction, it is possible to form a stepped or inclined interference avoidance portion located along the air flow direction in the cooler case. .

Further, since one evaporator structure located on the side where the interference avoidance part is formed has a length shorter than the length of the other evaporator structure, the one evaporator structure has a higher flow resistance. is small, so that air can circulate well in this area, and furthermore, the non-uniformity of the wind speed at the outlet of the evaporator body is corrected.

(Example) Next, an example of the present invention shown in the drawings will be described. FIG. 3 is a diagram showing a case in which the present invention is embodied in a deformed tube type evaporator, and the evaporator main body 10 of the present invention consists of two evaporator structures 11 and 12, a first and a second evaporator structure. The first evaporator structure 11 has a length dimension along the flow direction of air that exchanges heat with the evaporator main body 10.
_L1 , it has a long meandering tube 14 having a refrigerant passage 13, an inlet conduit 15 is attached to one end of the tube, and a communication conduit 16 is attached to the other end.

The second evaporator structure 12 has a refrigerant passage 13, and has a length L ₂ along the air flow direction.
It has a meandering tube 18 that is shorter than the tube 14, and a communication conduit 16 is attached to one end of the tube, and an outlet side conduit 19 is attached to the other end. Therefore, the front surface of the second evaporator structure 12 is located on the downstream side of the air than the front surface of the first evaporator structure 11, and the
The evaporator structure 12 is disposed adjacent to the first evaporator structure 11 in a direction perpendicular to the air flow direction.

FIG. 4 is a diagram showing the state in which the evaporator main body 10 of the present invention shown in FIG. 3 is housed in the cooler case 20. Since the front surface of the evaporator main body 10 is stepped, A step-shaped interference avoidance portion 21 is also formed in the case 20. Further, the shape of the interference avoidance portion 21 may be a shape having an inclined surface 22 as shown by a virtual line.

Thereby, as shown in FIG. 4, if there are various devices adjacent to the cooler case 20, interference with them can be avoided.

By the way, in order to avoid interference with other various devices, the cooler case is formed into a stepped shape corresponding to the interference avoidance part 21 of this embodiment, and the length along the direction in which air flows inside the cooler case. It is also contemplated to accommodate conventional evaporator bodies 4 with non-uniform surfaces. However, in this case,
Since it is difficult for air to flow around the stepped portion, a problem arises in that the wind speed becomes non-uniform at the outlet of the evaporator main body 4.

In contrast, in this embodiment, the length L ₂ of the second evaporator structure 12 is shorter than the length L ₁ of the first evaporator structure 11, so the second evaporator structure 12 has a smaller flow resistance. Therefore, even if the cooler case 20 is present in front of the second evaporator structure 12, air can circulate well to this part, resulting in good heat exchange as a whole, and further, It is also possible to correct non-uniformity in wind speed at the outlet of the evaporator main body 10.

FIG. 5 shows an embodiment in which the interference avoidance section 21 is formed on the downstream side of the cooler case 20, and the front surface of the first evaporator structure 11 and the front surface of the second evaporator structure 12 are located on the same plane. The downstream side of the evaporator main body 10 is formed in a stepped shape.

6A and 6B are perspective views showing the embodiment of the present invention in a laminated type evaporator, and the evaporator main body 10 consists of two evaporator structures 11 and 12, a first and a second evaporator structure. Since the evaporator shown in FIG. 6 is of a laminated type, each of the evaporator components 11 and 12 forms a refrigerant passage for guiding the refrigerant in the intermediate portion by aligning the tray-shaped pieces P in the middle. , with fins provided on the outside of the tube. The first evaporator structure 11 has a length dimension along the flow direction of air that exchanges heat with the evaporator main body 10.
L ₁ , and the length of the second evaporator structure 12 along the air flow direction is L ₂ . This second
An inlet conduit 15 and an outlet conduit 19 are attached to the evaporator structure 12 .

FIG. 6B shows a state in which the evaporator main body 10 shown in FIG. 6A is accommodated in the cooler case 20. As illustrated, an interference avoidance section 21 is formed in the cooler case 20, and even if various devices exist adjacent to this section, interference with them can be avoided. Although the illustrated embodiment shows an evaporator of an irregular tube type and a laminated type, the present invention can also be applied to various types of evaporators such as a round tube type.

[Effects of the invention] As described above, according to the invention, fins are provided on the outer surface of the tube in which the refrigerant passage for guiding the refrigerant is formed, for guiding the air to be heat exchanged with the refrigerant. In the evaporator, the evaporator main body is formed and the evaporator main body is accommodated in a cooler case having an air inlet opening and an air outlet opening. The evaporator structure is disposed in a direction perpendicular to the air flow direction to form the evaporator main body having a stepped shape along the air flow direction, and the evaporator main body is disposed in the cooler case. Since it is possible to form a stepped or inclined interference avoidance part corresponding to the stepped shape of the cooler case, it is possible to avoid interference between various equipment adjacent to the cooler case, and to achieve good heat exchange efficiency. maintain, and
The effect that the evaporator can be reliably arranged even in a narrow space while correcting the non-uniformity of the wind speed at the outlet of the evaporator main body has been achieved.

[Brief explanation of the drawing]

Fig. 1 is a perspective view showing an example of a conventional evaporator main body, Fig. 2 is a plan sectional view showing the evaporator main body accommodated in a case, and Fig. 3 is a perspective view showing an embodiment of the present invention. 4 is a plan sectional view showing the evaporator main body of the present invention shown in FIG. 3 housed in a case, FIG. 5 is a plan sectional view showing another embodiment of the present invention, and FIG. 6A is a laminate type evaporator. FIG. 6B is a perspective view showing the embodiment of the present invention, and FIG. 6B is a plan sectional view showing the evaporator shown in FIG. 6A housed in a case. DESCRIPTION OF SYMBOLS 10... Evaporator main body, 11... First evaporator structure, 12... Second evaporator structure, 1
3... Refrigerant passage, 14... Tube, 18... Tube, 20... Cooler case, 21... Interference avoidance section.

Claims (1)

[Claims for Utility Model Registration] The evaporator body 10 is constructed by providing fins 3 on the outer surfaces of the tubes 14 and 18, each of which has a refrigerant passage 13 formed therein for guiding the refrigerant, for guiding the air that exchanges heat with the refrigerant. In the evaporator, the evaporator main body 10 is accommodated in a cooler case 20 having an air inlet opening and an air outlet opening. Evaporator structure 11,
12 are disposed in a direction perpendicular to the air flow direction to form the evaporator main body 10 having a stepped shape along the air flow direction, and the evaporator main body 12 is disposed in the cooler case 20 in a step-like shape. 1. An evaporator characterized in that an interference avoidance part 21 having a stepped shape or an inclined shape can be formed corresponding to the stepped shape shown in FIG.