KR102228258B1 - Small refrigerant compressor - Google Patents

Abstract

The present invention includes a housing in which a first discharge passage and a second discharge passage through which the refrigerant is discharged are formed at both ends of the upper portion; A cylinder comprising a first cylinder and a second cylinder which seals the first discharge passage and the second discharge passage, and at a central portion thereof, a passage hole for passing the refrigerant discharged through the first discharge passage and the second discharge passage is formed; A piston having both ends inserted into the first and second cylinders and slid left and right to open and close the first and second passages of the first and second cylinders; A shaft rotatably accommodated in the housing, having an eccentric pin connected to the piston at one end, and slidably moving the piston left and right while rotating; A driving motor connected to the other end of the shaft and rotating the shaft; And a cap member consisting of a first cap and a second cap sealing both upper ends of the housing into which the first cylinder and the second cylinder are inserted, wherein the first cylinder and the second cylinder have a cylindrical shape and the A first insertion part and a second insertion part inserted into the first discharge passage and the second discharge passage, and a first protrusion and a second protrusion formed to protrude outward from one end of the first and second insertion parts, It is provided inside the first and second insertion portions, and includes a first contact portion and a second contact portion in close contact with both ends of the piston, and the through hole is located at the center of the first contact portion and the second contact portion. And the piston is formed to protrude from both ends of the body into which the eccentric pins of the shaft are inserted, and are inserted into the first and second cylinders, and are inserted into the first and second cylinders, and are inserted into the first and second transport passages. A first insertion end and a second insertion end, an opening/closing valve for opening and closing the first and second delivery passages, and a mounting bolt for attaching the opening and closing valve to the first and second insertion ends And, when the first and second insertion ends are inserted into the first and second cylinders, the mounting bolts are inserted into the first and second contact portions to increase compression efficiency. It provides a small refrigerant compressor.
Therefore, by forming an opening/closing valve and a transfer channel on the piston, the components can be simplified and assembly of components is not difficult. , It is possible to reduce the required power by reducing the torque by the configuration of the first insertion end and the second insertion end of the piston.

Description

Small refrigerant compressor {Small refrigerant compressor}

The present invention relates to a small refrigerant compressor, and more particularly, to a small refrigerant compressor that compresses and discharges a refrigerant in a housing by a reciprocating motion of a piston.

Referring to the background technology described in Korean Patent Application Publication No. 2013-01095909, in general, an air conditioner is a compressor for compressing refrigerant gas to high temperature and high pressure to perform a cooling cycle, and heats the high temperature and high pressure refrigerant gas from the compressor. A condenser for gradually condensing into a liquid phase through discharge, an expansion valve for forming a mixed refrigerant composed of low-temperature gas and liquid by lowering the pressure of the liquid refrigerant from the condenser, and absorbing ambient heat by evaporating the mixed refrigerant And an evaporator that sends the evaporated refrigerant back to the compressor.

In particular, the compressor serves to compress the low-pressure refrigerant gas from the evaporator by design and deliver it to the condenser.

In a typical rotary piston type compressor according to the prior art, a disk-shaped swash plate is installed on a drive shaft receiving the power of the engine in a state in which the inclination angle is variable or fixed in response to the rotation of the drive shaft. Accordingly, a plurality of pistons installed through a shoe are configured to suck in, compress, and discharge refrigerant gas by linearly reciprocating motion inside a plurality of cylinder bores formed in the cylinder block.

In addition, in a process of sucking, compressing and discharging the refrigerant gas, generally, a valve plate is installed between the housing and the cylinder block to regulate the suction and discharge of the refrigerant gas.

In addition, it is divided into a front cylinder block and a rear cylinder block, and a muffler for reducing pulsation and noise of the discharged refrigerant is formed in the front and rear cylinder blocks.

However, in the conventional rotary piston type compressor, the front and rear refrigerants compressed in the cylinder bore of the front and rear cylinder blocks are discharged to the muffler through the discharge chambers of the front and rear housings, respectively, during the compression stroke. Since the front refrigerant and the rear refrigerant collide in the muffler and cause pulsation, there is a problem in that noise and vibration of the compressor are generated.

In addition, there was a problem in that the operating efficiency of the compressor was deteriorated due to the generation of vibration through the pulsation phenomenon, and there are many components due to the need for components to reduce vibration, which makes it difficult to assemble and components are difficult to configure when developing a small compressor. There was a problem.

The present invention was created to solve the above problems, and the piston compresses the refrigerant while reciprocating by the eccentric pin of the shaft, simplifies the configuration to simplify assembly, and provides an opening/closing valve on the piston body. It is an object of the present invention to provide a small refrigerant compressor capable of increasing compression efficiency by inserting a mounting bolt to be mounted into a cylinder.

In order to achieve the above object, the present invention provides a housing in which a first discharge passage and a second discharge passage through which refrigerant is discharged are formed at both ends of an upper portion; A cylinder comprising a first cylinder and a second cylinder which seals the first discharge passage and the second discharge passage, and at a central portion thereof, a passage hole for passing the refrigerant discharged through the first discharge passage and the second discharge passage is formed; A piston having both ends inserted into the first and second cylinders and slid left and right to open and close the first and second passages of the first and second cylinders; A shaft rotatably accommodated in the housing, having an eccentric pin connected to the piston at one end, and slidably moving the piston left and right while rotating; A driving motor connected to the other end of the shaft and rotating the shaft; And a cap member consisting of a first cap and a second cap sealing both upper ends of the housing into which the first cylinder and the second cylinder are inserted, wherein the first cylinder and the second cylinder have a cylindrical shape and the A first insertion part and a second insertion part inserted into the first discharge passage and the second discharge passage, and a first protrusion and a second protrusion formed to protrude outward from one end of the first and second insertion parts, It is provided inside the first and second insertion portions, and includes a first contact portion and a second contact portion in close contact with both ends of the piston, and the through hole is located at the center of the first contact portion and the second contact portion. And the piston is formed to protrude from both ends of the body into which the eccentric pins of the shaft are inserted, and are inserted into the first and second cylinders, and are inserted into the first and second cylinders, and are inserted into the first and second transport passages to transport the refrigerant. A first insertion end and a second insertion end, an opening/closing valve for opening and closing the first and second delivery passages, and a mounting bolt for attaching the opening and closing valve to the first and second insertion ends And, when the first and second insertion ends are inserted into the first and second cylinders, the mounting bolts are inserted into the first and second contact portions to increase compression efficiency. It provides a small refrigerant compressor.

In the small refrigerant compressor according to the present invention, an inlet passage for introducing the refrigerant into the housing may be formed at a lower portion of the housing, and the driving motor rotates the shaft through a driving shaft outside the lower portion of the housing. I can.

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A long hole may be formed in the center of the body, and the suction ports of the first and second transport passages may be formed on the circumferential surfaces of the first and second insertion ends, and the first transport passage and The discharge port of the second transfer passage may be formed on a surface on which the opening/closing valve is mounted.

An eccentric pin of the shaft is inserted into a long hole formed in the center of the body so that the piston and the shaft can be connected, and a first discharge hole and a second discharge hole for discharging refrigerant are formed in the first cap and the second cap, respectively. Can be.

A first discharge valve and a second discharge valve for opening and closing the first passage hole and the second passage hole may be provided in the first passage hole of the first cylinder and the second passage hole of the second cylinder, respectively, A first discharge valve stopper and a second discharge valve stopper preventing separation of the first discharge valve and the second discharge valve from the first passage hole and the second passage hole, respectively, at a central portion of the first cap and the second cap. Can be formed.

The small refrigerant compressor according to the present invention has the following effects.

First, the piston that compresses the refrigerant is reciprocated using the eccentric pin of the shaft, not the conventional crank method, and an opening/closing valve and a transfer channel are formed on the piston to simplify the components and make the assembly of components not difficult. have.

Second, when compressing the refrigerant, the opening/closing valve mounting bolt is inserted into the contact portion of the cylinder to increase the compression efficiency, and the required power can be reduced by reducing the torque due to the configuration of the first and second insertion ends of the piston.

1 is a diagram schematically showing the configuration of a small refrigerant compressor according to the present invention.
FIG. 2 is a diagram illustrating a state in which a piston is inserted and connected to an eccentric pin of the shaft shown in FIG. 1.
3 is an enlarged view illustrating the configuration of the piston shown in FIG. 1.
4 is a view showing a state in which the refrigerant flows into the piston and then flows out by the left and right movement of the piston.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms or words used in the specification and claims should not be construed as being limited to their usual or dictionary meanings, and the inventors appropriately explain the concept of terms in order to explain their own invention in the best way. Based on the principle that it can be defined, it should be interpreted as a meaning and concept consistent with the technical idea of the present invention.

1 is a view schematically showing the configuration of a small refrigerant compressor according to the present invention, FIG. 2 is a view showing a state in which a piston is inserted and connected to an eccentric pin of the shaft shown in FIG. 1, and FIG. 3 is shown in FIG. A view showing an enlarged configuration of the piston, FIG. 4 is a view showing a state in which the refrigerant flows into the piston and then flows out by the left and right movement of the piston.

Referring to the drawings, the small refrigerant compressor 100 according to the present invention includes a housing 110, a cylinder 120, a piston 130, a shaft 140, a driving motor 150, and a cap member ( 160).

A first discharge passage 112 and a second discharge passage 114 are formed to correspond to both upper ends of the housing 110, and the first discharge passage 112 and the second discharge passage 114 include the housing ( 110) The refrigerant inside is discharged.

Inflow through which refrigerant flows into the housing 110 at a lower portion of the housing 110 corresponding to the upper surface of the housing 110 on which the first discharge passage 112 and the second discharge passage 114 are formed It is preferred that the passage 116 is formed.

The first discharge passage 112 and the second discharge passage 114 of the housing 110 are sealed by a cylinder 120, and the cylinder 120 includes a first cylinder 121 and a second cylinder 125 It consists of

The first cylinder 121 and the second cylinder 125 constituting the cylinder 120 have a first insertion portion 122 and a second insertion portion 126, respectively, a first protrusion 123 and a second cylinder, respectively. It includes two protrusions 127, a first contact portion 124 and a second contact portion 128.

The first insertion portion 122 and the second insertion portion 126 have a cylindrical shape and are inserted into the first discharge passage 112 and the second discharge passage 114 of the housing 110, and the first protrusion ( 123) and the second protrusion 127 are formed to protrude outward from one end of the first insertion portion 122 and the second insertion portion 126, respectively. It is preferable that the first protrusion 123 and the second protrusion 127 are integrally formed with the first insertion part 122 and the second insertion part 126. The first protrusion 123 and the second protrusion 127 are first insertion grooves 112a formed to protrude from the outer circumferential surfaces of the first discharge passage 112 and the second discharge passage 114 of the housing 110 And the first and second engaging ends 112b and 114b formed in the second insertion groove 114a, and the first and second insertion portions 122 and 126 2 It serves to prevent insertion into the interior of the housing 110 through the discharge passage (114).

A first contact portion 124 and a second contact portion 128 are provided in the cylindrical shape of the first insertion portion 122 and the second insertion portion 126. The first contact portion 124 and the second contact portion 128 are in close contact with the first insertion end 132 and the second insertion end 133 of the piston 130 to be described later, and the piston slides left and right. It serves to open and close the opening/closing valve 134 provided in the first insertion end 132 and the second insertion end 133 of 130 in close contact or separation. At the center of the first contact portion 124 and the second contact portion 128, the first insertion end 132 and the second insertion end 133 of the piston 130 to pass the refrigerant transferred through the first It is preferable that the through hole (124a) and the second through hole (128a) are formed. It is preferable that a first discharge valve (124b) and a second discharge valve (128b) are respectively provided in the first through hole (124a) and the second through hole (128a), and the first discharge valve (124b) and the The second discharge valve 128b serves to open and close the first passage hole 124a and the second passage hole 128a.

A piston 130 is inserted into the first cylinder 121 and the second cylinder 125 of the cylinder 120 and slides left and right while the first discharge valve 124b and the second discharge valve 128b Together, the first passage hole 124a of the first cylinder 121 and the second passage hole 128a of the second cylinder 125 are opened and closed.

The piston 130 includes a body 131, a first insertion end 132 and a second insertion end 133, an opening/closing valve 134, and a mounting bolt 135. An eccentric pin 142 of the shaft 140, which will be described later, is inserted into the body 131, and the body 131 has a long hole shape into which the eccentric pin 142 is inserted.

At both ends of the body 131, a first insertion end 132 and a second insertion end 133 are formed to protrude. The first insertion end 132 and the second insertion end 133 have a first transfer channel 132a and a second transfer channel 133a, respectively, and the first insertion end 132 and the second insertion end 132 Stage 133 is inserted into the first cylinder 121 and the second cylinder 125 to transfer the refrigerant in the housing 110 to the inside of the first cylinder 121 and the second cylinder 125 Do it. The refrigerant transferred into the first cylinder 121 and the second cylinder 125 is transferred through the first transfer channel 132a and the second transfer channel 133a.

A first suction port 132b and a second suction port 133b, a first discharge port 132c and a second discharge port 133c are formed in the first transfer channel 132a and the second transfer channel 133a, respectively. . The first suction port 132b and the second suction port 133b are the first and second insertion ends 132 and 133 in which the first and second transfer channels 132a and 133a are formed. Is formed on the circumferential surface of, and the first discharge port 132c and the second discharge port 133c are protruding surfaces of the first insertion end 132 and the second insertion end 133 to which the opening/closing valve 134 is mounted It is preferably formed in.

A first transfer channel 132a and the second transfer channel 133a are formed at the first insertion end 132 and the second insertion end 133, and a first suction port 132b and a second suction port 133b And the refrigerant in the housing 110 through the first insertion end 132 and the second insertion end 133 of the piston 130 because the first discharge port 132c and the second discharge port 133c are provided. It is discharged to the outside of the housing 110 by passing through the inside (120).

The first transfer channel 132a and the second transfer channel 133a formed in the first and second insertion ends 132 and 133 are opened and closed by an on/off valve 134, and the on/off valve ( 134 is mounted to the first insertion end 132 and the second insertion end 133 by mounting bolts 135.

When the refrigerant is transferred to the first transfer channel 132a and the second transfer channel 133a, the opening/closing valve 134 may be configured to transfer the first transfer channel 132a and the second transfer channel according to the pressure of the transferred coolant. The flow path 133a is opened, and in the opposite case, the first transfer channel 132a and the second transfer channel 133a are sealed.

When the opening/closing valve 134 is opened, the refrigerant discharged through the first transfer channel 132a and the second transfer channel 133a is 2 It is discharged to the outside of the housing 110 through the second passage hole (128a) of the cylinder (125).

The shaft 140 is rotatably accommodated in the housing 110. An eccentric pin 142 connected to the piston 130 is provided at one end of the shaft 140, and when the shaft 140 is rotated by a driving motor 150 to be described later, the eccentric pin 142 is rotated. While the piston 130 is slid to reciprocate left and right.

The eccentric pin 142 of the shaft 140 is inserted into the body 131 of the piston 130 having a long hole shape to connect the shaft 140 and the piston 130, and the shaft 140 When is rotated by the driving motor 150, the eccentric pin 142 rotates and slides the piston 130 in the left and right directions.

When the piston 130 slides in the left and right direction, the first insertion end 132 and the second insertion end 133 of the piston 130 are connected to the first cylinder 121 and the second cylinder 125. ) Of the first insertion portion 122 and the second insertion portion 126, while sliding and being in close contact with the first contact portion 124 and the second contact portion 128, the opening/closing valve 134 is opened and closed, and the refrigerant Is discharged to the outside of the housing 110 through the first passage hole 124a and the second passage hole 128a.

The shaft 140 is rotated by a drive motor 150, the drive motor 150 is provided outside the housing 150, and the shaft 140 and the drive motor 150 are provided with a drive shaft 152 ).

Both upper ends of the housing 110 are sealed by a cap member 160, and the cap member 160 includes a first cap 161 and a second cap 165. Each of the first and second caps 161 and 165 includes a first discharge hole 161a and a second discharge hole 165a, a first discharge valve stopper 161b, and a second discharge valve stopper 165b. Is formed. The first and second discharge holes 161a and 165a are formed in the first and second caps 161 and 165, respectively. The refrigerant discharged to the outside is discharged to the outside of the compressor through the first discharge hole 161a and the second discharge hole 165a.

In addition, since the first discharge valve stopper 161b and the second discharge valve stopper 165b are formed in the center of the first cap 161 and the second cap 165, respectively, the first discharge valve stopper 161b And when the second discharge valve stopper 165b opens and closes the first passage hole 124a and the second passage hole 128a, it is prevented from being separated from the first passage hole 124a and the second passage hole 128a. It is done.

Therefore, the piston 130 for compressing the refrigerant is reciprocated using the eccentric pin 142 of the shaft 140, not the conventional crank method, and the opening/closing valve 134 and the transfer passage 132a, By forming 133a), the components can be simplified, and the assembly of components can be made less difficult. In addition, when compressing the refrigerant, a mounting bolt 135 that regulates the separation of the on-off valve 134 is inserted into the contact portions 124 and 128 of the cylinder 120 to increase the compression efficiency, and the first insertion end of the piston 130 It is possible to reduce the required power by reducing the torque by the configuration of the (132) and the second insertion end (133).

The present invention has been described with reference to the embodiments shown in the drawings, but these are merely exemplary, and those of ordinary skill in the art will appreciate that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the appended claims.

100: small refrigerant compressor 110: housing
112: first discharge passage 114: second discharge passage
116: inlet passage 120: cylinder
121: first cylinder 122: first insertion part
123: first protrusion 124: first contact portion
125: second cylinder 126: second insertion part
127: second protrusion 128: second contact portion
130: piston 131: body
132: first insertion end 133: second insertion end
134: on/off valve 135: mounting bolt
140: shaft 142: eccentric pin
150: drive motor 160: cap member
161: first cap 165: second cap

Claims (8)

A housing having a first discharge passage and a second discharge passage through which refrigerant is discharged, respectively, at both ends of the upper portion;
A cylinder comprising a first cylinder and a second cylinder which seals the first discharge passage and the second discharge passage, and at a central portion thereof, a passage hole for passing the refrigerant discharged through the first discharge passage and the second discharge passage is formed;
A piston having both ends inserted into the first and second cylinders and slid left and right to open and close the first and second passages of the first and second cylinders;
A shaft rotatably accommodated in the housing, having an eccentric pin connected to the piston at one end, and slidably moving the piston left and right while rotating;
A driving motor connected to the other end of the shaft and rotating the shaft; And
Including a cap member consisting of a first cap and a second cap sealing both upper ends of the housing into which the first and second cylinders are inserted,
The first cylinder and the second cylinder,
A first insertion portion and a second insertion portion inserted into the first discharge passage and the second discharge passage in a cylindrical shape,
A first protrusion and a second protrusion formed to protrude outward from one end of the first and second inserts,
It is provided inside the first insertion portion and the second insertion portion, and includes a first contact portion and a second contact portion in close contact with both ends of the piston,
The through hole is formed in the center of the first contact portion and the second contact portion,
The piston,
A body into which the eccentric pin of the shaft is inserted,
The first and second insertion ends are formed to protrude from both ends of the body and are inserted into the first and second cylinders and are formed with first and second transfer passages for transferring the refrigerant,
An opening/closing valve for opening and closing the first transfer channel and the second transfer channel,
It includes a mounting bolt for mounting the opening and closing valve to the first insertion end and the second insertion end,
When the first and second insertion ends are inserted into the first and second cylinders, the mounting bolts are inserted into the first and second contact portions to increase compression efficiency. compressor.
The method according to claim 1,
A small refrigerant compressor, characterized in that an inlet passage for introducing a refrigerant into the housing is formed at a lower portion of the housing, and the driving motor rotates the shaft through a driving shaft outside the lower portion of the housing.
delete delete The method according to claim 1,
A long hole is formed in the center of the body, and the suction ports of the first and second feed passages are formed on the circumferential surfaces of the first and second insertion ends, and the first and second feed passages The discharge port of the small refrigerant compressor, characterized in that formed on the surface on which the on-off valve is mounted.
The method of claim 5,
A small refrigerant compressor, characterized in that an eccentric pin of the shaft is inserted into a long hole formed in the center of the body to connect the piston and the shaft.
The method according to claim 1,
A small refrigerant compressor, characterized in that a first discharge hole and a second discharge hole for discharging the refrigerant are formed in the first cap and the second cap, respectively.
The method of claim 7,
A first discharge valve and a second discharge valve for opening and closing the first passage hole and the second passage hole are provided in the first passage hole of the first cylinder and the second passage hole of the second cylinder, respectively,
A first discharge valve stopper and a second discharge valve stopper preventing separation of the first discharge valve and the second discharge valve from the first passage hole and the second passage hole, respectively, at a central portion of the first cap and the second cap. Small refrigerant compressor, characterized in that formed.

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