KR20100018228A - Electric compressor - Google Patents

Abstract

PURPOSE: An electric compressor which prevents an inverter from protruding to the outside of a housing is provided to secure an installation space by reducing the size of the compressor. CONSTITUTION: An electric compressor comprises a main housing, an inverter housing(200), an inverter cover(100), and a connector(130). The inverter cover comprises a cover floor(150), a cover wall(160), and a blind plate(120). The cover floor is arranged on the inverter housing. The cover wall is expanded from the cover floor to the inverter housing and is combined in the inverter housing. The blind plate is expanded from the free end of the cover wall to be faced to the inverter housing, and covers the rest of the opening of the inverter housing. The cover wall adjacent to the blind plate is combined with the connector. A connector settling part(110) is formed on the cover wall in which the connector is combined. The connector settling part is combined with the connector.

Description

Electric Compressor

The present invention relates to a motor-driven compressor, and more particularly to a motor-driven compressor that does not protrude from the outer surface of the housing.

In general, a compressor applied to a refrigeration and air conditioning apparatus has been developed and used in various compressors such as a belt drive type and an electric type according to the type of the power source.

Here, the swash plate type compressor is a type of compressor that uses a rotational driving force of the engine to rotate the drive shaft and compresses the refrigerant by operating the compression unit using the rotational force of the drive shaft.

The electric compressor is composed of a motor part including an electric motor and a compression part for compressing a refrigerant as a compressor using an electric motor as a power source, which is adopted in most of the scroll compressor.

Recently, the electric compressor is configured to enable the inverter control to reduce the overall power consumption and to efficiently adjust the rotational speed of the electric motor in the case of refrigerant shortage.

The external structure of such an electric compressor is schematically shown in FIG.

As shown, the housing 10 forming the exterior of the conventional electric compressor is composed of a main housing 11 and an inverter housing 12 fixed to one side of the main housing 11.

The main housing 11 is provided with a suction port (not shown) through which the refrigerant gas is introduced and a discharge port (not shown) through which the compressed refrigerant gas is discharged, and an electric motor (not shown) is provided inside the main housing 11. It is built.

In addition, in the case of the scroll compressor, a rotating scroll (not shown) pivoting by a fixed scroll (not shown) and the electric motor is installed inside the main housing 11, the inverter housing 12 on one side of the main housing (11). Is placed.

Inside the inverter housing 12, an electronic component such as an inductor (not shown), a capacitor (not shown), an IGBT element (not shown), etc., for controlling the number of rotations of the motor, as well as applying and blocking power to the electric motor. It is built.

In addition, as shown, the inverter housing 12 is provided with a connector 16 to be connected to an external control device or power. The connector 16 is usually mounted to protrude outward from the inverter housing 12.

In addition, an inverter cover 13 that covers the inverter housing 12 is fixed to one side of the inverter housing 12, and the inverter cover 13 is substantially the same as the inverter housing 12 to cover the entire inverter housing 12. It consists of size.

The inverter cover 13 serves to mitigate the impact applied from the outside while maintaining various electronic components installed in the inverter housing 12 to be stably fixed, and in the state coupled with the inverter housing 12. Fill the filler to keep it insulated from the outside.

However, since the connector 16 of the compressor according to the related art is protruded to the side of the inverter housing 12 and interferes with the surrounding configuration, it is difficult to secure the installation space of the compressor and may be easily broken. There was a problem that makes the arrangement of the compressor very difficult when mounted on.

In addition, when viewed from the direction of the drive shaft, the inverter cover 13 is made of the same area as the inverter housing 12, the expensive filling material had to be filled therein, so the manufacturing cost of the compressor increases and the weight of the compressor also increases. There was a problem.

The present invention has been made to solve the above problems, an object of the present invention is to provide an electric compressor that can easily provide an installation space when mounted on the vehicle, there is no fear of damage due to no interference, easy installation work To provide.

Another object of the present invention is to provide an electric compressor that can reduce the manufacturing cost of the compressor and reduce its own weight.

In order to achieve the above object, the electric compressor of the present invention includes a main housing, an inverter housing fixed to one side of the main housing and having an electronic component embedded therein, an inverter cover fixed to one side of the inverter housing, and a connector. ,

The inverter cover is disposed to face the inverter housing and occupies a portion of the opening of the inverter housing, a cover wall extending from the cover bottom toward the inverter housing and coupled to the inverter housing, and the cover wall. A blocking plate extending from a portion of the free end opposite the inverter housing and covering the remainder of the opening of the inverter housing,

The connector is coupled to the cover wall adjacent to the shield plate.

A connector seating portion is reinforced on a cover wall to which the connector is coupled, and a connector is coupled to the connector seating portion.

The height of the cover wall is characterized in that it is formed partially differently.

The connector seating portion is formed in the highest cover wall.

Part of the bottom of the cover is characterized in that consisting of a removable cap.

The connector is formed with a flange fixed to the connector seating portion, characterized in that the coupling hole is formed in the flange.

According to the present invention having such a configuration, since the connector does not protrude to the outer side of the housing, it is possible to easily reduce the size of the compressor to provide an easy installation space, and there is no fear of damage due to no interference, and the installation is easy. There is an advantage.

In addition, according to the present invention, it is possible to reduce the amount of fillers filled in the inverter housing to reduce the manufacturing cost of the compressor and also to reduce the overall weight.

Hereinafter, with reference to the accompanying Figures 2 to 4 will be described an embodiment of the present invention.

Figure 2 is an exploded perspective view showing the inverter cover for the electric compressor of the present invention, Figure 3 is a front view showing the housing for the electric compressor of the present invention, Figure 4 is a side view showing the housing for the electric compressor of the present invention.

As shown, the motor-driven compressor according to the present invention, the main housing 250, the inverter housing 200, which is fixed to one side of the main housing 250, the various electronic components 210, 220, 230 are embedded ), An inverter cover 100 fixed to one side of the inverter housing 200 to close the opening, and a connector 130 coupled to the inverter cover 100.

2 to 4, the inverter cover 100 is disposed to face the inverter housing 200 and covers a portion of the cover bottom 150 that occupies a portion of the opening 240 of the inverter housing 200. A cover wall 160 extending from the cover bottom 150 toward the inverter housing 200 to be coupled to the inverter housing 200, and from the free end of a portion of the cover wall 160. It includes a blocking plate 120 that extends opposite to cover the rest of the opening of the inverter housing 200.

The connector 130 is coupled to the cover wall 160 adjacent to the obstruction plate 120.

In particular, the connector seating portion 110 is reinforced in the cover wall 160 to which the connector 130 is coupled, so that the fastening of the connector 130 is made with the connector seating portion 110 and the connector 130. The terminal pins 131 and the like protruding from the end may be inserted through the cover wall 160 in terms of durability.

To this end, as shown in FIG. 2, in the connector seating part 110, a first hole 111 is formed to fit the terminal pin 131 of the connector 130, and the connector 130 is formed. The second hole 112 is fixed to the fixing means such as bolts to be securely fixed, while the connector 130 has a flange 132 on the bottom surface thereof to be coupled to the connector seating portion 110 of the inverter cover 100. Is formed, and the flange 132 is formed with a hole 133 corresponding to the second hole 112 of the connector seating portion 110.

In addition, the height of the cover wall 160 may be partially differently formed corresponding to the height of the electronic component therein.

In this embodiment, the height of the cover wall 160 corresponding to the capacitor 230, which is a relatively large component, is made larger than its periphery, and the inductor 220 having a low height is opposed to the shield plate 120, and has a middle height. The IGBT element 210 is to have a medium height. However, of course, the height can be arbitrarily determined as needed.

Since the IGBT element 210, the inductor 220, the capacitor 230, and the like are conventional configurations, the detailed description thereof will be omitted.

Furthermore, it is desirable that the connector seating portion 110 be formed on the highest cover wall 160 to increase stability when mounting the connector 130.

On the other hand, a portion of the cover bottom 150 may be configured as a removable cap 115.

In this way, the electronic parts can be easily replaced and inspected.

The connector 130 may not protrude to the outer surfaces of the housings 100 and 200 so that the connector 130 does not cause interference with peripheral components.

Accordingly, since interference with other components installed in the vehicle does not occur, an installation space can be easily provided, and a case in which the connector 130 is damaged by an external impact can be avoided.

In addition, an expensive filler is filled in the space between the inverter housing 200 and the inverter cover 100. According to the present invention, the amount of filler can be saved as much as the space of the portion where the connector 130 is coupled. Compared with inverter housing and inverter cover, the manufacturing cost can be reduced and the weight can be reduced.

1 is a front view showing a conventional housing for a compressor.

2 is an exploded perspective view showing an inverter cover for an electric compressor of the present invention.

3 is a front view showing the housing for the electric compressor of the present invention.

4 is a side view showing the housing for the electric compressor of the present invention.

<Explanation of symbols for the main parts of the drawings>

100: inverter cover 110: connector seating portion

111: first hole 112: second hole

115: cap 120: blind plate

130: connector 131: terminal pin

132: flange 133: hole

150: cover bottom 160: cover wall

200: inverter housing 210: IGBT element

220: inductor 230: capacitor

Claims (6)

In the electric compressor comprising a main housing, an inverter housing fixed to one side of the main housing, the electronic component is embedded, an inverter cover fixed to one side of the inverter housing, and a connector, The inverter cover is disposed to face the inverter housing and occupies a portion of the opening of the inverter housing, a cover wall extending from the cover bottom toward the inverter housing and coupled to the inverter housing, and the cover wall. A blocking plate extending from a portion of the free end opposite the inverter housing and covering the remainder of the opening of the inverter housing, And said connector is coupled to a cover wall adjacent said obstruction plate. The method of claim 1, And a connector seating portion is reinforced on a cover wall to which the connector is coupled, and a connector is coupled to the connector seating portion. The method of claim 2, And the height of the cover wall is partially different. The method of claim 3, And the connector seating portion is formed on the highest cover wall. The method according to any one of claims 1 to 4, Part of the bottom cover is an electric compressor, characterized in that consisting of a removable cap. The method according to any one of claims 2 to 4, The connector is provided with a flange fixed to the connector seating portion, the flange characterized in that the coupling hole is formed.

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