KR20080006548U - compressor - Google Patents

Abstract

The compressor having a compression unit, a drive motor for the compression unit, and a sealed container accommodating the compression unit and the drive motor is connected to an inlet terminal and an inlet terminal connected to an external power source and installed on the inner wall surface of the sealed container to supply power to the drive motor. And a fixing piece fixed to the inner wall surface of the terminal block and the sealed container to prevent the terminal block from being separated from the inner wall surface of the sealed container. This can prevent the terminal block from being separated from the incoming terminal.

Description

Compressor {COMPRESSOR}

1 is a cross-sectional view of a compressor according to an embodiment of the present invention.

2 and 3 are broken perspective views of the inlet terminal region of Fig. 1, respectively, for explaining the mounting state and the coupling process.

<Explanation of symbols for main parts of the drawings>

100: compressor 110: airtight container

111: accommodation part 112: top cap

120: entry terminal 125: entry terminal

130: Terminal block 135: Receiving terminal

The present invention relates to a compressor, and more particularly, to an inlet terminal connected to an external power source and a compressor that can prevent a terminal block connected to the inlet terminal to supply power to a drive motor of the compressor from being separated from each other. will be.

In general, the hermetic container of the hermetic compressor includes a receiving portion accommodating the drive motor, and a top cap positioned on the upper portion of the receiving portion.

The top cap is provided with an inlet terminal electrically connected to an external power source, and the inlet terminal is electrically connected to a terminal block inside the compressor. The external power applied to the terminal block is transferred to the driving motor. The compressor compresses the medium to be compressed using a powered motor.

In general, the incoming terminal includes a plurality of incoming terminals, the terminal block is provided with a receiving terminal that is electrically connected to the incoming terminal.

However, the incoming terminal and the terminal block are easily separated because they are mutually coupled by simply fitting the incoming terminal and the receiving terminal. In particular, when the top cap is rotated in place before welding with the receptacle, the terminal block can be easily released from the inlet terminal.

In addition, in the process of combining the incoming terminal and the terminal block, the plurality of incoming terminals provided in the incoming terminal is the same shape may be coupled to the terminal block in the wrong position.

The present invention is to solve the above problems, an object of the present invention is to provide a compressor that can prevent the terminal block from being separated from the inlet terminal.

Another object of the present invention is to provide a compressor that can be coupled in the correct direction when coupling the terminal block to the inlet terminal.

According to a preferred embodiment of the present invention for achieving the above object of the present invention, a compressor having a compression unit, a drive motor of the compression unit, and a sealed container for accommodating the compression unit and the drive motor, is connected to an external power source and sealed An inlet terminal installed on the inner wall of the container, a terminal block connected to the inlet terminal to transfer power to the drive motor, and a fixing piece fixed to the inner wall of the sealed container to prevent the terminal block from deviating from the inner wall of the sealed container. Include.

The fixing piece may include a protrusion protruding horizontally on the inner wall surface of the airtight container and a bent portion extending from the protrusion along the rear surface of the terminal block, and the fixing piece is fitted to fit a predetermined edge area of the terminal block. It is preferable.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, but the present invention is not limited or limited by the embodiments.

1 is a cross-sectional view of a compressor according to an embodiment of the present invention, Figures 2 and 3 are broken perspective views of the inlet terminal region of Figure 1, respectively, for explaining the mounting state and the coupling process.

1 and 2, the compressor 100 includes a sealed container 110, and the sealed container 110 accommodates the compression unit 150 and the driving motor 140 of the compression unit 150. The upper part 112 and the top cap 112 located in the upper part of the accommodating part 111 are included.

An inlet terminal 120 electrically connected to an external power source is installed in the top cap 112, and a terminal block 130 for receiving an external power from the inlet terminal 120 and transferring the terminal block 130 to the drive motor 140 is included in the inlet terminal ( 120).

Then, after the top cap 112 is positioned on the upper portion of the accommodating portion 111, the top cap 112 is rotated to be positioned and welded.

The compressor 100 compresses the medium to be compressed using the driving motor 140 to which an external power is applied.

Specifically, the drive motor 140 includes a stator 141, a rotor 142, and a rotation shaft 143. The stator 141 is installed inside the sealed container 110, and the rotor 142. Is installed so as to be rotated by the magnetic field of the stator 141 about the rotation axis 143 located in the center of the stator 141.

Compression unit 150 includes a cam 151, a roller 152 and a cylinder 153, the roller 152 is provided on the outside of the cam 151 eccentrically formed below the rotating shaft 143, the cam The 151 and the roller 152 are inserted into the cylinder 153.

When the rotor 142 and the rotation shaft 143 are rotated by a magnetic field formed by applying a current to the stator 141, the cam 151 is integrally rotated with the rotation shaft 143 inside the cylinder 153 and As the roller 152 is eccentrically rotated, the vane (not shown) divides the space in the cylinder 153 into a suction space and a compression space according to the eccentric rotation.

Therefore, the compressed medium is sucked by the suction force, and the compressed medium is compressed in the cylinder 153.

As shown in FIG. 2, the compressor 100 includes an inlet terminal 120, a terminal block 130, and a fixing piece 160.

First, the inlet terminal 120 is connected to an external power source and is installed on the inner wall surface of the sealed container 110, and the terminal block 130 is connected to the inlet terminal 120 to transmit power to the driving motor 140.

In detail, the inlet terminal 120 includes an inlet terminal 125 connected to an external power source and a terminal body 121 in which the inlet terminal 125 is located. Terminal body 121 is mounted to the fastening hole 113 formed in the top cap 112 to cover the upper portion of the sealed container 110 of the compressor 100, the inlet terminal 125 is formed three in this embodiment However, the number may vary depending on the intention of the producer.

The pull-in terminal 125 is generally provided in a rod shape having a circular cross section, and the outer circumferential surface of the pull-in terminal 125 is covered with an insulating portion except for both ends.

The terminal block 130 is provided with a block body 131 and three inner circumferential surfaces of the accommodating hole 134 provided with three accommodating holes 134 corresponding to the shape of the accommodating terminal 125 so as to be fitted with the inlet terminal 125. It includes a receiving terminal 135 provided along.

Referring to FIG. 3, after installing the inlet terminal 120 in the top cap 112, the terminal block 130 is coupled to the inlet terminal 120. Specifically, after fitting the phase of the receiving terminal 125 of the inlet terminal 120 and the receiving terminal 135 of the terminal block 130 is fitted.

At this time, when the terminal piece 130 is bent back to the inlet terminal 120 by holding the fixing piece 160, the fixing piece 160 is located in the coupling path to prevent the coupling.

For reference, the thickness of the fixing piece 160 is preferably formed to a thickness of 0.5mm to be flipped out of the coupling path by a predetermined force.

After coupling the terminal block 130 and the inlet terminal 120, when the force applied to the fixing piece 160 is released, the fixing piece 160 returns to its original position and fits and fits in the edge area of the terminal block 130. All.

Specifically, the fixing piece 160 is formed of a material having elasticity, such as stainless steel, and is fixed to the inner wall surface of the sealed container 110 so that the terminal block 130 is the inner wall surface of the sealed container 110. To prevent deviations from

In the present embodiment, the fixing piece 160 is formed in an 'L' shape so as to fit in a predetermined edge area of the terminal block 130, the fixing piece 160 is the inner wall surface of the sealed container 110. And a protrusion 161 protruding horizontally from the protrusion 161, and a bent portion 162 extending from the protrusion 161 along the rear surface of the terminal block 130.

After coupling the terminal block 130 to the inlet terminal 120, the top cap 112 is covered on the upper portion of the receiving portion 111, the top cap 112 is rotated at a predetermined angle and welded.

In the conventional compressor, when the top cap is rotated in order to position the top cap, connecting wires connected from the terminal block to the driving motor are tightened, and the terminal block is separated from the inlet terminal.

However, the fixing piece 160 of the compressor 100 according to the present invention can prevent the terminal block 130 from being easily separated from the inlet terminal 120.

In addition, in the conventional compressor, a plurality of inlet terminals provided in the inlet terminal have the same shape, so that the terminal block may be coupled to an incorrect position.

However, the fixing piece 160 of the compressor 100 according to the present invention may be coupled in the correct direction by providing an insertion direction in which the terminal block 130 is coupled to the inlet terminal 120.

As described above, the present invention has been described with reference to a preferred embodiment of the present invention, but those skilled in the art various modifications and changes of the present invention without departing from the spirit and scope of the present invention described in the claims below I can understand that you can.

The compressor of the present invention can prevent separation of the terminal block from the inlet terminal.

In addition, the compressor of the present invention can be coupled in the correct direction when coupling the terminal block to the inlet terminal.

Claims (3)

In the compressor having a compression unit, a drive motor of the compression unit, and a sealed container for accommodating the compression unit and the drive motor, An inlet terminal connected to an external power source and installed on an inner wall of the sealed container; A terminal block connected to the inlet terminal and transmitting power to the driving motor; And A fixing piece fixed to an inner wall surface of the sealed container to prevent the terminal block from being separated from the inner wall surface of the sealed container; Compressor comprising a. The method of claim 1, The fixing piece includes a protrusion protruding horizontally on the inner wall surface of the hermetic container, and a bent portion extending from the protrusion along the rear surface of the terminal block. The method of claim 1, And the fixing piece is meshed with the predetermined edge area of the terminal block.

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