KR20100112481A - Linear compressor - Google Patents

Abstract

PURPOSE: A linear compressor is provided to prevent the burr from becoming flowed into the oil when oil supply assembly is inserted into a frame. CONSTITUTION: A linear compressor comprises an airtight container, a linear motor, a piston, a cylinder, a frame(300), an oil supply passage(400), an oil pipe, and an oil supply assembly(200). The cylinder is fixed to the frame. The frame is formed by the metal casting. The oil supply passage is formed in the frame and is communicated with an oil circulating passage between the piston and the cylinder. The oil pipe is pressed into the frame and draws the oil from the airtight container to the oil supply passage. The oil supply assembly generates the negative pressure and the positive pressure to absorb the oil through the oil pipe and is pressed into the frame.

Description

Linear Compressor {LINEAR COMPRESSOR}

According to the present invention, a structure consisting of a cylinder, a piston, and a linear motor is elastically supported inside the shell, and at the same time, the oil of the linear compressor is supplied between the cylinder and the piston by pumping oil stored under the shell as the piston reciprocates linearly in the cylinder. It relates to a supply device.

1 is a side sectional view showing an oil supply device of a linear compressor according to the prior art.

The oil supply apparatus of the linear compressor according to the prior art is a structure (1) consisting of a cylinder (2), a piston (4) and a linear motor (not shown) installed inside a closed shell (not shown) as shown in FIG. Is installed in the lower portion, the oil supply passage 12 and the oil recovery passage 14 is formed in one main body frame 3 to communicate with the oil circulation passage 10 formed between the cylinder (2) and the piston (4) In the oil cylinder 22 installed to communicate under the oil supply passage 12, the mass member 24 generates a pressure difference while reciprocating linearly moving in an elastically supported state by the oil springs 26a and 26b. Oil to adjust the oil supply between the oil supply passage 12 and the oil cylinder 22 at the same time that the oil supply pipe 21 contained in the oil stored in the lower portion of the shell is in communication with one side of the oil cylinder 22 The supply valve assembly 30 is installed.

Here, the body frame (3) is fixed to the cylinder (2) and the linear motor, the piston (4) reciprocating linear motion between the top dead center (TDC) and the bottom dead center (BDC) inside the cylinder (2) While the suction stroke to suck the refrigerant into the compression space (P) formed therebetween, the compression stroke to compress and discharge is repeatedly performed.

At this time, a suction valve 6 for sucking the refrigerant at one end of the piston 4 is installed, and a discharge valve 8a for discharging the compressed refrigerant at one end of the cylinder 2 is fixed to one end of the cylinder 2. The discharge valve assembly 8 elastically supported by the spring 8c inside the discharge cap 8b is installed to be opened and closed.

Next, the oil supply passage 12 and the oil recovery passage 14 are formed in the body frame 3 and in the cylinder 2 to form an oil circulation passage formed between the cylinder 2 and the piston 4 ( 10) so that oil can be supplied and recovered, and the oil circulation passage 10 has a ring-shaped cylinder groove 2h and a piston groove 4h on the inner circumferential surface of the cylinder 2 and the outer circumferential surface of the piston 4, respectively. It is formed to overlap each other to allow the oil to circulate.

At this time, the oil supply passage 12 and the oil recovery passage 14 is formed to communicate with the cylinder groove (2h), it is installed so as to communicate with each one end of the cylinder groove (2h) in the top dead center (TDC) direction.

Next, one end of the oil cylinder 22 is fixed to the body frame 3 so that the oil cylinder 22 may be vibrated in the same manner as the structure 1, and the oil supply passage 12 is formed on one surface of the body frame 3. ) Is installed to be press-fit into the mounting groove (3h) formed to communicate with.

Next, the mass member 24 is installed to reciprocate linearly in the oil cylinder 22 by an inertial force against vibration of the oil cylinder 22, and the inner diameter of the oil cylinder 22 and a predetermined gap. A support body 24b, 24b ', which is placed and held by the oil springs 26a and 26b, protrudes axially in the center of the mass body 24a and both end portions thereof.

At this time, the oil cylinder 22 is provided with a separate fixing cap 28 so that one end is supported by the mounting groove (3h) at the same time to block the other end, the oil spring (26a, 26b) is the mass member ( It is installed between one end of the 24 and the mounting groove (3h) and is elastically supported between the other end of the mass member 24 and the fixing cap 28.

Of course, the mass member 24 pumps oil by generating a pressure difference in the oil cylinder 22 while reciprocating linearly moving in the axial direction elastically supported by the oil springs 26a and 26b.

Next, the oil supply valve assembly 30 is installed at one side of the main body frame 3 through which the oil cylinder 22 and the oil supply passage 12 communicate with each other to receive an oil suction valve (not shown) and oil for sucking oil. An oil discharge valve (not shown) for discharging is provided with a plate-shaped valve seat (not shown) formed so as to be openable and closed, and a suction storage space and a discharge storage space where oil can be temporarily stored by being overlapped on the outside of the valve seat. And a seat cover (not shown) forming a space.

Of course, the oil supply passage 12 is installed in the lower portion so that the oil supply pipe 21 is in communication, the oil supply pipe 21 is installed so that the end is contained in the oil stored in the shell.

Therefore, the oil supply device configured as described above causes the structure 1 and the oil cylinder 22 fixed thereto to vibrate as the piston 4 reciprocates linearly in the cylinder 2, and the mass member. As the 24 reciprocates linearly inside the oil cylinder 22 by an inertial force against vibration, the internal pressure thereof is varied, and as the pressure inside the oil cylinder 22 is varied, the oil is supplied to the oil supply pipe 21. At the same time, the oil suction valve and the oil discharge valve are pumped along the oil supply passage 12 due to the opening and closing of the oil suction valve.

Thereafter, the oil supplied along the oil supply passage 12 circulates along the oil circulation passage 10 to cool and simultaneously lubricate heat generated between the cylinder 2 and the piston 4, The oil is returned to the lower portion of the shell along the oil return passage 14.

An object of the present invention is to provide a linear compressor having a structure capable of preventing foreign substances such as suspended matter, plastic chips, burrs, and the like from flowing into the oil supply passage and the oil circulation passage.

The present invention relates to a linear compressor including a linear motor, a piston operated by a linear motor, a cylinder for providing a compression space in which a refrigerant is compressed by a piston, and a frame made of metal casting, the cylinder being fixed, An oil supply flow path formed inside the frame and in communication with the oil circulation flow path between the cylinder and the piston. The oil is sucked through the oil pipe and oil pipe press-fitted into the frame to pump the oil filled in the sealed container into the oil supply flow path. A linear compressor is provided which generates negative and positive pressures and comprises an oil supply assembly press-fitted into the frame.

In another aspect of the present invention, there is provided a linear compressor, wherein the oil pipe is formed of plastic.

In another aspect of the present invention, the oil supply assembly prevents both ends of an oil cylinder formed of a metal, an oil cylinder, an oil cap formed of a plastic, vibrates within the oil cylinder, and applies negative pressure and positive pressure to the oil supply flow path. A linear compressor comprising a mass member to be formed and an elastic member elastically supporting the mass member on both sides.

In another aspect of the present invention, the oil cap provides a linear compressor, characterized in that the portion inserted into the frame and the portion located outside the frame are stepped with each other.

In another aspect of the present invention, there is provided a linear compressor comprising a burr evacuation structure for confining a burr generated in an oil cap and a frame into the frame.

In another aspect of the present invention, a burr evacuation structure provides a linear compressor, which is formed in a portion located outside the frame in the oil cap, and includes a groove formed around the portion inserted into the frame.

As another aspect of the present invention, the burr evacuation structure provides a linear compressor, characterized in that it comprises a stepped portion formed to widen the inner diameter at one end of the insertion groove into which the oil cap is inserted in the frame.

As another aspect of the present invention, the burr evacuation structure is formed in a portion of the oil cap not inserted into the frame, and further includes a groove formed around the portion inserted into the frame, wherein the stepped portion and the groove are connected to each other to be closed. Provided is a linear compressor characterized by forming one space.

In another aspect of the present invention, there is provided a linear compressor further comprising an oil screen surrounding an end of the oil pipe and preventing foreign matter from being sucked into the oil pipe.

In another aspect of the present invention, an oil screen provides a linear compressor, which is fixed to a lower portion of a closed container.

In another aspect of the present invention, an oil screen provides a linear compressor, characterized in that it comprises a mesh surrounding the end of the oil pipe.

In another aspect of the present invention, the height of the oil screen is a linear compressor, characterized in that higher than the height of the oil filled in the sealed container.

As another aspect of the present invention, the oil screen provides a linear compressor, characterized in that it comprises a mesh surrounding the oil pipe, a ring for fixing the upper end of the mesh, a metal plate for fixing the lower end of the mesh and attached to an airtight container. do.

In another aspect of the present invention, there is provided a linear compressor, wherein the diameter of the oil screen is at least 2 mm larger than the diameter of the oil pipe.

The linear compressor according to the present invention prevents burrs generated while the oil supply assembly is inserted into the frame from falling into the oil and thus prevents the oil supply flow path or the oil circulation flow path from causing oil failure, or flows between the oil cylinder and the mass member. To prevent wear.

In addition, the linear compressor according to the present invention includes an oil screen around the oil pipe to filter foreign matter suspended in oil through the oil pipe, thereby preventing foreign matter from entering the oil supply passage or the oil circulation passage.

2 is a view showing the burr evacuation structure of the oil cap according to an embodiment of the present invention. The linear compressor according to the present invention includes a frame 300 formed of cast iron or aluminum. When casting the frame 300 with cast iron or aluminum, it is difficult to form the oil supply assembly 200 or the oil supply passage 400 together with a relatively complicated shape. Therefore, the oil supply passage (not shown) is formed by casting the frame 300 after casting, and the oil supply assembly 200 is press-fitted into the frame 300 after manufacturing separately. Therefore, as compared with sintering the frame 300 so that the frame 300 and the oil cylinder are integrally formed and the oil supply flow path 400 is formed at the same time, the manufacturing cost can be much lowered.

The oil supply assembly 200 performs a left and right linear movement in the oil cylinder 210 made of a metal, an oil cap 220 blocking both ends of the oil cylinder 210, and an oil cylinder 210, and an oil supply flow path 400. The mass member 230 to form a negative pressure and a positive pressure in), and the elastic member 240 to assist the movement of the mass member 230 on both sides of the mass member 230, one end is supported by the oil cap 220 do. In this case, the oil cap 220 serves to support the elastic member 240 and to fix the oil supply assembly 300 to the frame 300. When the oil cap 220 is made of metal, to prevent the oil cap 220 from falling off to the frame 300, a cumbersome process such as thermal bonding is required, which increases the manufacturing cost and makes the manufacturing process complicated, resulting in a long manufacturing time. Lose. Therefore, the oil cap 220 is made of plastic having some elasticity. However, the oil cap 220 made of plastic has a lower hardness than the frame 300 made of metal. Therefore, when the oil cap 220 is press-fitted into the frame 300, the outside of the oil cap 220 is scraped off by the frame 300, the burrs may occur. When the burrs fall off and fall into the oil filled in the lower portion of the sealed container (not shown), the oil may flow into the oil supply flow path, the oil circulation flow path, or the like, resulting in poor lubrication. It can be a factor.

In order to prevent oil lubrication failure and wear of the oil supply assembly 200, the linear compressor according to an embodiment of the present invention traps burrs generated when the oil cap 220 is pressed into the frame 300. Burr evacuation structure 250. An oil cylinder 210 is inserted into one end of the oil cap 220, and the other end of the oil cap 220 is inserted into the frame 300. The portion inserted into the frame 300 is not inserted into the frame 300. Small diameter compared to the part. That is, since a step is formed and a portion having a diameter larger than that of the insertion groove 310 formed in the frame 300 is not inserted into the insertion groove, the degree of oil cap 220 may be limited. At this time, the groove 252 is formed in the portion that touches the frame 300 in the portion that is not inserted into the frame 300. The groove 252 is formed around the portion to be inserted into the frame 300. The burr generated while inserting the oil cap 220 into the frame 300 is trapped in the groove 252 and cannot fall to the place where the oil is filled. In addition, in the insertion groove 310 of the frame 300, a stepped portion 254 is formed along with the groove 252 formed in the oil cap 220 to form the burr evacuation structure 20. The stepped portion 254 is formed to have a larger diameter at one end of the insertion groove 310 of the frame 300. The burr generated as the oil cap 220 is inserted into the frame 300 is once pushed into the stepped portion 254, and then trapped by the groove 252 and the stepped portion 254 formed in the oil cap 220.

3 illustrates a linear compressor with an oil screen according to an embodiment of the present invention. The linear compressor according to an embodiment of the present invention is another structure for preventing oil lubrication failure and wear of the oil supply assembly 200. The oil is installed to prevent foreign substances from entering the oil pipe around the oil pipe. Contains a screen. One end of the oil pipe 500 is inserted into the frame 300, and the other end is immersed in the oil filled in the bottom of the hermetic container 100, and is bent in a '-' shape for this purpose. However, oil filled in the lower portion of the sealed container 100 is suspended in organic substances such as plastic chips, seals, rubber, and metallic dirt, and when these floats flow into the oil supply passage and the oil circulation passage through the oil pipe 500, the oil Poor lubrication and wear occur. In order to prevent this, an oil screen 600 is installed around the end of the oil pipe 500 to prevent inflow of suspended matter.

4 is a view illustrating an oil screen included in the linear compressor according to one embodiment of the present invention. The oil screen 600 is cylindrical and has a mesh 610 surrounding the end of the oil pipe 500 and a metal plate for fixing the bottom of the mesh 610 and fixing the oil screen 600 to the bottom of the sealed container ( 620 and a ring 630 to hold the top of the oil screen 600 to maintain its shape. The metal plate 620 is welded or spot welded to the bottom surface of the sealed container 100 so that the oil screen 600 is fixed to the sealed container 100. In addition, the inner diameter of the mesh 610 is preferably equal to or more than the vibration radius of the oil pipe 500. When the mesh 610 and the oil pipe 500 collide with each other, vibration and noise may occur as well as the reliability of oil supply may be deteriorated. Therefore, the inner diameter of the mesh 610 is preferably at least 2 mm larger than the outer diameter of the oil pipe 500. In addition, the upper end of the mesh 610 should be higher than the position of the lower end of the oil pipe 500. Thus, the filtered oil may flow into the oil pipe 500 through the mesh 610. On the other hand, in order to prevent foreign matter from entering the space surrounded by the mesh 610 beyond the top of the oil screen 600, the top of the oil screen 600 is raised higher than the surface of the oil filled in the sealed container 100 It is desirable to have.

1 is a side sectional view showing an oil supply device of a linear compressor according to the prior art;

2 is a view showing the burr evacuation structure of the oil cap according to an embodiment of the present invention,

3 illustrates a linear compressor having an oil screen according to an embodiment of the present invention;

4 is a view showing an oil screen included in the linear compressor according to one embodiment of the present invention.

Claims (14)

A linear compressor comprising a linear motor, a piston operated by a linear motor, and a cylinder providing a compression space in which refrigerant is compressed by the piston in a sealed container, A frame made of metal casting and having a cylinder fixed thereto; An oil supply passage formed inside the frame and in communication with the oil circulation passage between the cylinder and the piston; An oil pipe press-fitted into the frame to pump oil filled in the closed container into the oil supply flow path; And an oil supply assembly generating negative pressure and positive pressure to suck the oil through the oil pipe, the oil supply assembly being pressed into the frame. The method of claim 1, A linear compressor, wherein the oil pipe is formed of plastic. The method of claim 1, The oil supply assembly blocks the oil cylinder formed of metal, both ends of the oil cylinder, the oil cap formed of plastic, the mass member which vibrates in the oil cylinder and forms negative pressure and positive pressure in the oil supply flow path, the mass member Linear compressor, characterized in that it comprises an elastic member elastically supported on both sides. The method of claim 3, The oil cap is a linear compressor, characterized in that the portion inserted into the frame and the portion located outside the frame are stepped with each other. The method of claim 1, And a burr evacuation structure in which a burr generated while the oil cap is inserted into the frame is confined in the oil cap and the frame. The method of claim 5, The burr evacuation structure is a linear compressor, characterized in that it is formed in a portion located outside the frame in the oil cap, and includes a groove formed around the portion inserted into the frame. The method of claim 5, The burr evacuation structure includes a stepped portion formed to widen an inner diameter at one end of an insertion groove into which an oil cap is inserted in a frame. The method of claim 7, wherein The burr evacuation structure further includes a groove formed in a portion of the oil cap that is not inserted into the frame and formed around the portion inserted into the frame, And the stepped portion and the groove are connected to each other to form a closed space. The method of claim 1, And an oil screen surrounding the end of the oil pipe and preventing foreign substances from being sucked into the oil pipe. 10. The method of claim 9, The oil screen is a linear compressor, characterized in that fixed to the lower portion of the sealed container. 10. The method of claim 9, And the oil screen comprises a mesh surrounding the end of the oil pipe. 10. The method of claim 9, The height of the oil screen, the linear compressor, characterized in that higher than the height of the oil filled in the sealed container. 10. The method of claim 9, The oil screen is a linear compressor, characterized in that it comprises a mesh surrounding the oil pipe, a ring for fixing the top of the mesh, a metal plate for fixing the bottom of the mesh and attached to the sealed container. 10. The method of claim 9, The diameter of the oil screen is a linear compressor, characterized in that at least 2mm larger than the diameter of the oil pipe.

Images