KR20220152465A - Scroll compressor - Google Patents

Abstract

The present invention provides a scroll compressor that reduces the number of components compared to conventional ones, simplifies an assembly process, and streamlines the structure of a flow path connecting a suction chamber and a compression chamber. The scroll compressor comprises: a main housing provided with an internal suction chamber which accommodates a rotating shaft and a motor installed on the rotating shaft; an orbiting scroll provided with an orbiting scroll plate which is disposed at an upper part of the main housing to be disposed on an upper end of the rotating shaft, and is rotated by the rotating shaft; a mainframe interposed between the suction chamber and the orbiting scroll to form a compression chamber in space between the mainframe and the orbiting scroll; a valve means installed on a path of the mainframe connecting the suction chamber and the compression chamber; a fixed scroll installed at the upper part of the mainframe over the orbiting scroll and having a compression chamber in which a refrigerant is compressed and a discharge port through which the compressed refrigerant is discharged; and a cover housing installed over the fixed scroll and having a discharge port through which the refrigerant discharged from the compression chamber between the fixed scroll and the orbiting scroll is discharged to the outside. The valve means includes a valve cover, which is placed on a path connecting the suction chamber and the compression chamber, and an anti-rotation pin, which is placed from the compression chamber to the mainframe and is inserted into the orbiting scroll.

Description

Scroll compressor {Scroll compressor}

The present invention relates to a scroll compressor, and more particularly, to a scroll compressor that sucks, compresses, and discharges a refrigerant.

A vehicle scroll compressor used in an automobile air conditioning system is a device that functions to inhale, discharge, and compress refrigerant.

In general, a scroll compressor includes a main housing, a main frame, an orbiting scroll, a fixed scroll, and a cover housing. An external refrigerant flows into the inside through the main housing, and a valve means for controlling the flow of oil is provided between the suction chamber and the back pressure chamber. And between the main housing and the main frame, a motor and a rotating shaft coupled to the motor are accommodated, and a orbiting scroll is interposed between the main frame and the fixed scroll, and a orbiting wrap is provided to suction and discharge refrigerant and oil in the orbiting scroll. A back pressure plate and a sealing member are installed with the main frame interposed therebetween, and as the orbiting scroll turns, the refrigerant flows between the spiral fixed wrap formed on the fixed scroll and the orbiting wrap on the orbiting mirror plate of the orbiting scroll. will be compressed. The compressed refrigerant flows into the cover housing through the discharge hole formed in the fixed scroll and is discharged to the outside through the cover housing.

However, in the conventional scroll compressor, when the valve means is installed on the main frame, a rod and an elastic member are inserted, and then a bolt for adjusting the elastic member is coupled, so a large number of parts are required, and the assembly process between parts takes excessive time, There is a problem in that the structure of the passage connecting the suction chamber and the back pressure chamber becomes complicated.

The present invention relates to a scroll compressor, which reduces the number of parts compared to the prior art, simplifies the process of assembling parts and the time required for the process, and simplifies the structure of a flow path connecting a suction chamber and a back pressure chamber. It aims to provide a compressor.

The present invention includes a main housing having a suction chamber formed therein, in which a rotating shaft and a motor installed on the rotating shaft are accommodated; an orbiting scroll disposed on an upper side of the main housing, having an upper end of the rotary shaft, and having an orbiting mirror plate turned by the rotary shaft; a main frame interposed between the main housing and the orbiting scroll and having a back pressure chamber formed between the orbiting scroll and the main frame; a valve means installed on a path connecting the suction chamber and the back pressure chamber formed in the main frame; a fixed scroll installed above the main frame with the orbiting scroll interposed therebetween, and having a compression chamber in which the refrigerant is compressed and a discharge hole through which the compressed refrigerant is discharged, formed between the orbiting scroll and the orbiting scroll; and a cover housing installed above the fixed scroll and having a discharge port through which the refrigerant discharged from the compression chamber between the fixed scroll and the orbiting scroll is discharged to the outside. A scroll compressor includes a valve cover disposed on a path communicating with a back pressure chamber, and an anti-rotation pin disposed from the back pressure chamber to the main frame and having an upper end inserted into the orbiting scroll.

The valve means further includes a rod disposed above the valve cover, and an elastic member disposed between the rod and the valve cover and urging the rod upward.

The anti-rotation pin is installed to protrude upward from the main frame, a first pin portion coupled to a lower portion of the valve cover and having a hollow shape, and protruding upward from the first pin portion, the first pin portion It is integrally connected with and includes a second pin portion having a smaller diameter than the first pin portion.

The valve means is disposed between the anti-rotation pin and the valve cover, and further includes a connecting member coupled to a lower portion of the valve cover.

The anti-rotation pin has a diameter smaller than that of the connecting member, and a lower end thereof is spaced upward from the connecting member.

According to the scroll compressor according to the present invention, the number of parts can be further reduced compared to the prior art, the assembly process of parts and the time required for the process can be simplified, and the structure of the passage connecting the suction chamber and the back pressure chamber can be simplified. have.

In addition, according to the scroll compressor according to the present invention, when the compressor is driven, as the oil pressure in the back pressure chamber 131 increases, the oil in the back pressure chamber 131 passes through the rod 143 and the first pin part 142a to the suction chamber. 113, and when the compressor is stopped, the rod 143 closes the lower part of the first pin part 142a to block the path so that the oil in the back pressure chamber 131 is no longer moved to the suction chamber 113. can

1 is a cross-sectional view of a scroll compressor of the present invention.
FIG. 2 is a view showing a valve means and an anti-rotation pin according to a first embodiment of the present invention in which part A of FIG. 1 is enlarged.
FIG. 3 is an enlarged view of a valve means and an anti-rotation pin according to a second embodiment of the present invention, in which part A of FIG. 1 is enlarged.

Although the present invention has been described with reference to the embodiments shown in the drawings, this is only exemplary, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical scope of protection of the present invention should be determined by the technical spirit of the appended claims.

1 to 3, the scroll compressor 100 according to the first embodiment of the present invention includes a main housing 110, an orbiting scroll 120, a main frame 130, a valve means 140, and a fixed scroll. (150), and a cover housing (160).

The main housing 110 has a hollow cylindrical shape in which a rotating shaft 112 and a motor 111 installed on the rotating shaft 112 are accommodated therein and a suction port (not shown) through which refrigerant is sucked is formed.

Here, the refrigerant sucked through the suction port (not shown) flows into the suction chamber 113, which is a space inside the main housing 110, where the motor 111 and the rotating shaft 112 are disposed.

And, the suction chamber 113 is filled with the refrigerant introduced through the suction port (not shown), and the refrigerant introduced into the suction chamber 113 comes into contact with the motor 111 and the rotating shaft 112 to form the motor 111 and the rotating shaft 112 are contacted to cool the motor 111 and the rotating shaft 112 .

The orbiting scroll 120 is disposed on the upper side of the main housing 110, and the upper end of the rotation shaft 112 is disposed, and the orbiting wrap 122 is disposed on the upper side of the orbiting mirror plate 121 rotated by the rotation shaft 112. ) is connected.

The main frame 130 is interposed between the main housing 110 and the orbiting scroll 120, and a back pressure chamber 131 is formed between the orbiting scroll 120, and in the back pressure chamber 131 The oil comes out through the valve means 140 to be described later and is mixed with the refrigerant in the suction chamber 113 and flows.

The valve means 140 is installed on the path of the main frame 130 connecting the suction chamber 113 and the back pressure chamber 131 .

And the valve means 140 has a valve cover 141 disposed from the suction chamber 113 to the main frame 130 from the back pressure chamber 131 to the main frame 130, and the upper end is It is combined with the anti-rotation pin 142 inserted into the orbiting scroll 120, which will be described later.

The fixed scroll 150 is seated on the upper side of the main frame 130 and has a compression chamber 151 in which refrigerant flows and is compressed from the suction chamber 113 revolving between the orbiting wrap 122 and the suction chamber 113. It has a fixed wrap 152 formed.

The cover housing 160 is seated on the upper side of the fixed scroll 150 and has a discharge port 161 through which compressed refrigerant is discharged.

And the cover housing 160 is a discharge chamber in which the refrigerant compressed from the compression chamber 151 is discharged between the fixed scroll 150 and introduced through the discharge hole 153 of the fixed scroll 150 ( 162) is formed, and an oil separator (not shown) is provided.

Here, the refrigerant introduced into the discharge chamber 162 through the discharge hole 153 is separated into oil and refrigerant gas by the principle of centrifugal separation by the oil separator (not shown), and among them, the refrigerant gas is separated from the discharge port ( 161), the oil flows into the back pressure chamber 131 through an oil passage (not shown) and is supplied to the suction chamber 113 through the valve means 140, and the suction chamber 113 The oil discharged to ) is introduced into the compression chamber 151 like the refrigerant in the suction chamber 113 to circulate.

Hereinafter, in the scroll compressor 100 according to the first embodiment of the present invention, the valve cover 141 disposed from the suction chamber 113 to the main frame 130 is moved from the back pressure chamber 131 to the main frame ( 130), and a shape in which the upper end is coupled to the anti-rotation pin 142 inserted into the orbiting scroll 120 will be described in more detail.

First, the shape of the valve means 140 in which the valve cover 141 is installed will be described.

The valve means 140 is disposed between the rod 143 disposed on the upper side of the valve cover 141 and the rod 143 and the valve cover 141, and the rod 143 is moved upward. It further includes an elastic member 144 that presses.

Here, the rod 143 is formed in a circular shape as shown in FIG. 2, and can be provided in various shapes that can be disposed on the upper side of the valve cover 141 in addition to the circular shape.

Also, the elastic member 144 may be any one of a compression spring and an extension spring, and is not necessarily limited thereto.

Second, the anti-rotation pin 142 of the scroll compressor 100 according to the first embodiment of the present invention will be described in more detail.

The anti-rotation pin 142 is installed to protrude upward from the main frame 130 provided as a cylindrical steel pin, and the valve cover 141 is coupled to the lower portion and has a hollow first pin portion. (142a) and a second pin portion (142b) protruding upward from the first pin portion (142a) and integrally connected to the first pin portion (142a).

Here, the second pin part 142b is formed to have a smaller diameter than the first pin part 142a.

That is, the valve cover 141 disposed from the suction chamber 113 to the main frame 130 in the valve means 140 installed in the main frame 130 moves from the back pressure chamber 131 to the main frame 130. By being integrally coupled with the anti-rotation pin 142 disposed in the frame 130 and inserted into the orbiting scroll 120, the scroll compressor 100 of the present invention requires the valve means 140 during the assembly process. It is possible to simplify the number of separate parts and time required, and the structure of the passage connecting the back pressure chamber 131 and the suction chamber 113 can be simplified.

In addition, according to the present invention, when the oil pressure in the back pressure chamber 131 increases during the operation of the compressor, oil flows through the spaced space between the rod 143 and the first pin part 142a that is constantly open. It flows into the suction chamber 113 so that the internal pressure of the back pressure chamber 131 is kept constant, and when the compressor is stopped, when the scroll compressor 100 of the present invention is mounted, the rod 143 is the first pin part ( By sealing the lower part of 142), it is possible to prevent oil from escaping from the back pressure chamber 131. That is, when the compressor is driven, as the pressure of the oil in the back pressure chamber 131 increases, the oil in the back pressure chamber 131 moves to the suction chamber 113 through the rod 143 and the first pin part 142a, and the compressor When stopped, the rod 143 seals the lower part of the first pin part 142a so that the oil in the back pressure chamber 131 is no longer moved to the suction chamber 113 so that the path thereof can be blocked.

Hereinafter, in the scroll compressor 100 according to the second embodiment of the present invention, the valve cover 241 disposed from the suction chamber 113 of the valve means 240 to the main frame 130 is the back pressure chamber ( 131) is disposed as the main frame 130, and the upper end is described in more detail with respect to the shape coupled to the anti-rotation pin 242 inserted into the orbiting scroll 120. At this time, the first embodiment of the present invention The same description as will be omitted.

The valve means 240 is disposed between the anti-rotation pin 242 and the valve cover 241, and further includes a connecting member 245 coupled to a lower portion of the valve cover 241.

Here, the anti-rotation pin 242 has a smaller diameter than the connection member 245, and the lower end is spaced upward from the connection member 245.

In this way, the valve means 240 and the anti-rotation pin 242 are provided in a separate shape.

100: scroll compressor 110: main housing
111: motor 112: rotation shaft
113: suction chamber 120: orbiting scroll
121: turning plate 122: turning wrap
130: main frame 131: back pressure chamber
140,240: valve means 141,241: valve cover
142, 242: anti-rotation pin 142a: first pin part
142b: second pin part 143,243: rod
144,244: elastic member 150: fixed scroll
151: compression chamber 152: fixed wrap
153: discharge hole 160: cover housing
161: discharge port 162: discharge chamber
245: connecting member

Claims (5)

A main housing having a suction chamber in which a rotating shaft and a motor installed on the rotating shaft are accommodated;
an orbiting scroll disposed on an upper side of the main housing, having an upper end of the rotary shaft, and having an orbiting mirror plate turned by the rotary shaft;
a main frame interposed between the main housing and the orbiting scroll and having a back pressure chamber formed between the orbiting scroll and the main frame;
a valve means installed on a path connecting the suction chamber and the back pressure chamber formed in the main frame;
a fixed scroll installed above the main frame with the orbiting scroll interposed therebetween, and having a compression chamber in which the refrigerant is compressed and a discharge hole through which the compressed refrigerant is discharged, formed between the orbiting scroll and the orbiting scroll; and
A cover housing installed above the fixed scroll and having a discharge port through which the refrigerant discharged from the compression chamber between the fixed scroll and the orbiting scroll is discharged to the outside,
The valve means,
a valve cover disposed on a path communicating between the suction chamber and the back pressure chamber;
A scroll compressor comprising an anti-rotation pin disposed in the back pressure chamber to the main frame and having an upper end inserted into the orbiting scroll. The method of claim 1,
The valve means,
A rod disposed on the upper side of the valve cover;
The scroll compressor further comprises an elastic member disposed between the rod and the valve cover and urging the rod upward. The method of claim 1,
The anti-rotation pin,
A first pin portion protruding upward from the main frame, coupled to the valve cover, and having a hollow shape;
and a second pin unit protruding upward from the first pin unit, integrally connected to the first pin unit, and having a smaller diameter than the first pin unit. The method of claim 2,
The valve means,
The scroll compressor further comprises a connecting member disposed between the anti-rotation pin and the valve cover and coupled to a lower portion of the valve cover. The method of claim 4,
The anti-rotation pin has a diameter smaller than that of the connecting member, and a lower end thereof is spaced upward from the connecting member.

Images