JP2006316783A - Linear compressor and its lubricating oil pump - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a linear compressor and its lubricating oil pump capable of improving durability of a lubricating oil cylinder, dispensing with additional machining of a lubricating oil piston, and simplifying it. <P>SOLUTION: This lubricating oil pump is provided with the lubricating oil cylinder 122 formed to integrate with a frame supporting a compression part, the lubricating oil piston 124 capable of reciprocating in the inside of the lubricating oil cylinder and resonating with the compression part, and a lubricating oil cylinder protection means 123 for preventing friction caused between the lubricating oil piston and the lubricating oil cylinder. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a linear compressor and a lubricating oil pump thereof, and more particularly, to a linear compressor provided with lubricating oil cylinder protection means for preventing friction generated between a lubricating oil cylinder and a lubricating oil piston, and the lubricating oil thereof. Regarding pumps.

Generally, a linear compressor is a device that compresses a working fluid by linearly reciprocating a piston inside a cylinder using a linear driving force of a linear motor.
FIG. 1 is a cross-sectional view of a linear compressor equipped with a lubricating oil pump according to the prior art. In the figure, the linear compressor includes a compression unit that compresses the working fluid inside the hermetic container 2.

  The compression unit is installed so that fluid can be supplied from a fluid suction pipe 4 provided in the hermetic container 2, and can reciprocate inside the cylinder 10, and compresses the working fluid in the cylinder 10. A piston 12 and a linear motor 14 that generates a driving force so that the piston 12 reciprocates are provided.

The cylinder 10 is provided with a discharge unit 16 including a discharge valve 16 ′ that discharges the fluid compressed in the cylinder 10 to the fluid discharge pipe 6 provided in the sealed container 2.
A working fluid passage 12 ′ is formed in the piston 12 so that the working fluid of the fluid suction pipe 4 is sucked into the cylinder 10. A suction valve 18 for opening and closing 12 'is provided.

  The compression portion is supported by a metal frame 20 disposed inside the sealed container 2, and the linear motor 14 is supported by the frame 20 and a linear motor cover 22.

  Next, the operation of the linear compressor configured as described above will be described in detail. When power is applied to the linear motor 14, the piston 12 reciprocates in the cylinder 10 by the linear reciprocating driving force of the linear motor 14, and the discharge valve 16 ′ and the suction valve are interlocked with the reciprocating motion of the piston 12. 18 repeatedly opens and closes.

Accordingly, the working fluid is sucked into the cylinder 10 through the fluid suction pipe 4 and the working fluid passage 12 ′ in the piston 12, and the working fluid sucked into the cylinder 10 is compressed to a high pressure by the piston 12 in the cylinder 10. Then, the liquid is discharged outside through the discharge portion 18 and the fluid discharge pipe 6.
Such suction / compression / discharge of the working fluid is repeated sequentially and continuously while the linear motor 14 is operated.

  On the other hand, the inside of the sealed container 2 contains lubricating oil 2 ′ for lubricating and cooling the cylinder 10 and the piston 12, and the lubricating oil 2 ′ in the sealed container 2 is supplied to the cylinder 10 and the piston 12. A device 30 is provided.

  The oil supply device 30 includes a lubricating oil pump 30 ′ and a lubricating oil passage 32. The lubricating oil passage 32 includes a sealed container 2, a lubricating oil, and the lubricating oil 2 ′ by the pumping action of the lubricating oil pump 30 ′. The flow path circulates in order between the pump 30 ′ and the cylinder 10 and the piston 12.

  The lubricating oil pump 30 ′ is centered on a lubricating oil cylinder 34 formed integrally with the frame 20, a lubricating oil piston 35 installed so as to be able to reciprocate inside the lubricating oil cylinder 34, and the lubricating oil piston 35. The first and second resonance springs 36 and 37 are arranged on the left and right sides of the lubricating oil piston 35, respectively.

  The lubricant piston 35 is polished after the bearing steel is processed and heat-treated in order to obtain a fine surface roughness during manufacture so that friction with the lubricant cylinder 34 is minimized when reciprocating. Is done. Further, the lubricating oil piston 35 may be further subjected to an electroless nickel plating (Ni-P) treatment in manufacturing in order to improve wear resistance and lubricity.

  However, in the conventional linear compressor as described above, the lubricating oil cylinder 34 and the lubricating oil piston 35 are subjected to metal friction, and the lubricating oil cylinder 34 belongs to the lower hardness among the metals together with the frame 20. Since it is made of an aluminum material, as described above, a process for increasing the surface roughness of the lubricating oil piston 35 and an additional nickel plating process are required, which complicates the manufacturing process and increases the cost. There was a problem of inviting.

  Further, as described above, even if the lubricating oil piston 35 is manufactured to minimize friction with the lubricating oil cylinder 34, the lubricating oil cylinder 34 and the lubricating oil piston 35 directly perform metal friction, The life of the lubricating oil cylinder 34 is naturally shortened, and there is a problem that when the lubricating oil pump 30 'is replaced, the frame 20 must be replaced together.

  The present invention is intended to solve the above-described problems, and its object is to improve the durability of the lubricating oil cylinder by preventing friction generated between the lubricating oil cylinder and the lubricating oil piston, and to improve the durability of the lubricating oil piston. It is an object of the present invention to provide a linear compressor and its lubricating oil pump that minimize additional processing.

  In order to achieve the above object, a lubricating oil pump for a linear compressor according to the present invention includes a lubricating oil cylinder that sucks lubricating oil in a hermetic container, and pumps the lubricating oil while reciprocating inside the lubricating oil cylinder. And a lubricating oil cylinder protecting means for preventing friction generated between the lubricating oil cylinder and the lubricating oil piston.

The lubricating oil cylinder protecting means is a pipe-type liner (Liner) interposed between the lubricating oil cylinder and a lubricating oil piston.
The liner is made of Teflon (registered trademark) or a polymer material.
The liner is press-fitted into the lubricating oil cylinder.

  The lubricating oil cylinder is open at both ends, and one end where the lubricating oil enters and exits has a cylindrical structure that is narrower than the inner diameter of the lubricating oil cylinder, and the other open end of the lubricating oil cylinder is the lubricating oil cylinder Covered by a cap, the liner is inserted into the lubricating oil cylinder from the other open end of the lubricating oil cylinder.

  In order to achieve the above object, a linear compressor according to the present invention includes a sealed container containing lubricating oil and a compression unit that is installed inside the sealed container and compresses the working fluid by the driving force of the linear motor. A lubricating oil cylinder that is installed in the compression section and sucks and discharges the lubricating oil in the sealed container, a lubricating oil piston that pumps the lubricating oil while reciprocating inside the lubricating oil cylinder, and the lubricating oil piston Is provided with a resonating part that reciprocates in resonance with the compressing part, and lubricating oil cylinder protecting means for preventing friction generated between the lubricating oil cylinder and the lubricating oil piston.

  A metal frame that supports the compression unit is disposed inside the sealed container, and the lubricating oil cylinder is formed integrally with the frame.

The lubricating oil cylinder protecting means is a pipe-type liner (Liner) interposed between the lubricating oil cylinder and a lubricating oil piston.
The liner is made of Teflon (registered trademark) or a polymer material.
The liner is press-fitted into the lubricating oil cylinder.

  The lubricating oil cylinder is open at both ends and has a cylindrical structure in which one end where the lubricating oil enters and exits is narrower than the inner diameter of the lubricating oil cylinder, and the other open end of the lubricating oil cylinder is a lubricating oil cylinder cap The liner is inserted into the lubricating oil cylinder from the other open end of the lubricating oil cylinder.

The liner is formed to have the same length as the lubricating oil cylinder.
The lubricating oil cylinder cap is a linear motor cover that supports the linear motor.

  In order to achieve the above object, a linear compressor according to the present invention includes a sealed container containing lubricating oil, a cylinder provided inside the sealed container for sucking and discharging a working fluid, and the cylinder A piston installed so as to reciprocate inside, a compression part having a linear motor for reciprocating the piston, a frame for supporting the compression part, and a linear motor cover for supporting the linear motor together with the frame And a lubricating oil cylinder formed integrally with the frame so as to be disposed between the frame and the linear motor cover, wherein the lubricating oil in the sealed container is sucked and discharged, and the inside of the lubricating oil cylinder A lubricating oil piston that pumps the lubricating oil while reciprocating at a reciprocating portion, a resonating portion that reciprocates the lubricating oil piston with the compression portion, and A lubricating oil cylinder protection means for preventing the friction that occurs between the serial lubricating oil cylinder and the lubricating oil piston, and characterized in that it comprises a.

The lubricant cylinder and the lubricant piston are made of metal.
The lubricating oil cylinder may be installed in parallel with the cylinder.
The lubricating oil cylinder has a cylindrical structure in which both ends are open, one end where the lubricating oil enters and exits is narrower than the inner diameter of the lubricating oil cylinder, and the other open end is covered by the linear motor cover. And

The lubricating oil seal leader protecting means is a pipe-type liner inserted into the lubricating oil cylinder from the other open end of the lubricating oil cylinder.
The liner is made of Teflon (registered trademark) or a polymer material.
The liner is press-fitted into the lubricating oil cylinder.

  According to the linear compressor and the lubricating oil pump of the present invention, the friction between the lubricating oil cylinder and the lubricating oil piston when the lubricating oil piston reciprocates is prevented by the lubricating oil cylinder protection means. Even if the lubricating oil cylinder is integrally formed with the frame by an aluminum material having a lower hardness than the lubricating oil piston, the effect of improving the durability of the lubricating oil cylinder can be obtained.

  In addition, since the lubricating oil cylinder protecting means is provided, the present invention does not require additional processing for improving the surface roughness, wear resistance, and lubricity after forming the lubricating oil piston. An effect of simplifying the process can be obtained.

  Furthermore, since the lubricating oil cylinder protection means is made of a Teflon (registered trademark) or polymer material liner that is not a metal material, an additional processing step in the lubricating oil piston can be omitted and simplified.

  Hereinafter, preferred embodiments of a linear compressor and a lubricating oil pump thereof according to the present invention will be described in detail with reference to the accompanying drawings.

  However, there may be a plurality of embodiments of the linear compressor and the lubricating oil pump according to the present invention, and the most preferred embodiment will be described below. Since the basic structure of the linear compressor is the same as that of the above-described prior art, repeated description will be omitted as appropriate.

  FIG. 2 is a sectional view of a linear compressor equipped with a lubricating oil pump according to the present invention. In the figure, the linear compressor includes a sealed container 50 having an appearance, a frame 60 disposed on the right side inside the sealed container 50, a linear motor cover 62 disposed on the left side inside the sealed container 50, a linear compressor And a compression unit that is disposed between the motor cover 62 and the frame 60 and compresses the working fluid.

  The sealed container 50 includes a lower container 52 whose upper surface is opened, and an upper lid 54 that covers the upper surface of the lower container 52. The sealed container 50 includes a fluid suction pipe 56 that sucks a working fluid from the outside, and a fluid discharge pipe 58 that is connected to the discharge unit 80 and discharges the compressed working fluid to the outside. The frame 60 is usually formed of aluminum. The linear motor cover 62 has a working fluid suction path 62 ′ connected to the fluid suction pipe 56.

  The compression unit is fixed to the frame 60, and a cylinder 70 that sucks and discharges the working fluid, a piston 72 that is installed so as to reciprocate inside the cylinder 70 and compresses the working fluid in the cylinder 70, It is equipped with.

  The cylinder 70 has a cylindrical structure in which the piston 72 is inserted from the left end portion and the working fluid compressed in the cylinder 70 is discharged from the right end portion.

  A discharge unit 80 is disposed at the right end of the cylinder 70 to discharge the working fluid compressed in the cylinder 70 to the fluid discharge pipe 58.

  The discharge unit 80 is installed at the right end of the cylinder 70, and includes a discharge cover 82 connected to the fluid discharge pipe 58, and a discharge valve 84 installed inside the discharge cover 82 to open and close the right end of the cylinder 70. It consists of.

  The discharge cover 82 is disposed outside the discharge valve 84, and is connected to the fluid discharge pipe 58 disposed outside the inner discharge cover 81 and the inner discharge cover 81 in which the inner discharge cover hole 81 ′ is perforated. An outer discharge cover 83.

  The discharge valve 84 is installed between the discharge valve body 85 installed at the right end of the cylinder 70 so as to be movable left and right, and between the discharge valve body 85 and the inner discharge cover 81. And a discharge valve spring 86 which is elastically supported.

A piston fluid passage 72 ′ is formed in the piston 72 such that both the left and right ends are opened so that the working fluid is sucked into the cylinder 70.
A suction valve 73 that opens and closes the piston fluid passage 72 'is installed at the right end of the piston fluid passage 72'.
The suction valve 73 opens and closes the right end portion of the piston fluid passage 72 ′ while elastically deforming due to a pressure difference between the piston fluid passage 72 ′ and the inside of the cylinder 70.

Further, the compression section includes a linear motor 90 that is supported by the frame 60 and the linear motor cover 62 outside the cylinder 70 and generates a driving force so that the piston 72 reciprocates.
The linear motor 90 is large and includes a mover coupled so as to be interlocked with the piston 72, and a stator that electromagnetically interacts with the mover so that the mover can reciprocate linearly.

  The mover is arranged on the outer side in the radial direction of the cylinder 70, and a magnet 92 installed so as to be able to reciprocate linearly inside the mover, and the magnet 92 is fixed and coupled to the piston 72 so as to be linked, And a magnet frame 94 that transmits the linear reciprocating driving force of the linear motor 90 to the piston 72.

The stator is arranged on the outer side in the radial direction of the cylinder 70, and is arranged inside the outer core 95 with a ring-shaped outer core 95 fixed between the frame 60 and the linear motor cover 62 to form a magnetic field. And a ring-shaped inner core 98 that is press-fitted outside the cylinder 70 and is disposed so as to have a certain gap with the outer core 95 inside the outer core 95.
A mover is disposed between the outer core 95 and the inner core 98.

  In the linear compressor according to the present invention configured as described above, the piston 72 reciprocates inside the cylinder 70 by the linear reciprocating driving force of the linear motor 90, and the working fluid is transferred to the cylinder 70 by the reciprocating motion of the piston 72. It is sucked in and compressed and discharged.

On the other hand, the inside of the sealed container 50 is filled with lubricating oil 50 ′ for lubricating and cooling the cylinder 70 and the piston 72.
The lubricating oil 50 ′ in the sealed container 50 is supplied to the cylinder 70 and the piston 72 through the lubricating oil suction part 100.

  The lubricating oil suction portion 100 is installed on the right side of the frame 60 and is connected to the lubricating oil suction pipe 102 so as to be partially immersed in the lubricating oil 50 ′ in the sealed container 50. A lubricating oil cover 104 having a lubricating oil space 104 ′ filled with lubricating oil, a frame lubricating oil flow path 106 formed in the frame 60 so as to be connected to the lubricating oil space 104 ′ of the lubricating oil cover 104, and frame lubrication. And a cylinder lubricating oil passage 108 formed in the cylinder 70 so as to be connected to the oil passage 106.

  The lubricating oil suction pipe 102 and the lubricating oil space 104 ′ of the lubricating oil cover 104 are opened and closed while elastically deforming due to a pressure difference between the lubricating oil suction pipe 102 and the lubricating oil space 104 ′ of the lubricating oil cover 104. The first lubricating oil intake valve 103 is attached.

  Between the lubricating oil space 104 ′ of the lubricating oil cover 104 and the frame lubricating oil flow channel 106, the elastic space 104 ′ of the lubricating oil cover 104 and the frame lubricating oil flow channel 106 are opened and closed while being elastically deformed due to a pressure difference. A second lubricating oil intake valve 105 is attached that operates.

The lubricating oil 50 ′ supplied between the cylinder 70 and the piston 72 through the lubricating oil supply unit 100 is again discharged into the sealed container 50 through the lubricating oil discharge unit 110.
The lubricating oil discharge part 110 is formed on the frame 60.

  At this time, the lubricating oil 50 ′ flows along the lubricating oil suction part 100 and the lubricating oil discharge part 110 by the pumping action of the lubricating oil pump 120 installed on the lubricating oil suction part 100.

  3 is an enlarged view of the “A” portion of FIG. 2, and FIG. 4 is a cross-sectional view taken along line BB of FIG. 3, both of which show the lubricating oil pump of the linear compressor according to the present invention. Show.

  The lubricating oil pump 120 shown in FIGS. 3 and 4 is installed so as to be pumped by a resonance force that resonates with vibration generated from the compression unit when the compression unit is driven.

  The lubricating oil pump 120 of the linear compressor according to the present invention reciprocates within the lubricating oil space 104 ′ of the lubricating oil cover 104 disposed below the compression section, the communicating lubricating oil cylinder 122, and the lubricating oil cylinder 122. The lubricating oil piston 124 installed so that it can move, and the resonance part which is formed inside the lubricating oil cylinder 122 and resonates the lubricating oil piston 124 with the compression part.

  The lubricating oil cylinder 122 can be formed integrally with the frame 60 using an aluminum material.

  The lubricating oil cylinder 122 may be arranged in parallel with the cylinder 70 in order to allow the lubricating oil piston 124 to resonate with the vibration of the compression portion that occurs while the piston 72 reciprocates left and right by the linear motor 90. preferable. That is, the lubricating oil cylinder 122 can be formed long in the left and right directions so that the lubricating oil piston 124 can reciprocate in the left and right directions.

  The lubricating oil cylinder 122 can be formed in a cylindrical structure that is open at both left and right ends, and that one end where the lubricating oil 50 ′ enters and exits, that is, the right end is narrower than the inner diameter of the lubricating oil cylinder 122.

  The opened left end of the lubricant cylinder 122 can be covered with a lubricant cylinder cap.

  The lubricating oil cylinder cap can be realized by a structure in which the linear motor cover 62 is in close contact with the left side surface of the lubricating oil cylinder 122. That is, the linear motor cover 62 also serves as a lubricant cylinder cap.

  The lubricating oil piston 124 can be manufactured in the shape of a circular rod shorter than the lubricating oil cylinder 122, depending on the bearing steel material.

  The resonance part includes a pair of coil spring type resonance springs 126 and 127 that are arranged on the left and right sides of the lubricating oil piston 124 and elastically deform in the same direction as the vibration of the compression part.

  On the other hand, the lubricating oil pump 120 is provided with lubricating oil cylinder protection means for preventing friction generated between the lubricating oil cylinder 122 and the lubricating oil piston 124 when the lubricating oil piston 124 reciprocates.

  The lubricating oil cylinder protection means includes a pipe-type liner 123 that is disposed between the lubricating oil cylinder 122 and the lubricating oil piston 124 and is installed so that the lubricating oil piston 124 can reciprocate therein. .

  The pipe-type liner 123 is preferably formed to have the same length as the lubricating oil cylinder 122 so as to protect the entire inner wall of the lubricating oil cylinder 122.

  The outer diameter of the pipe-type liner 123 has a predetermined tolerance with the inner diameter of the lubricating oil cylinder 124 so that it can be inserted into the lubricating oil cylinder 132.

  At this time, since the liner 123 is fixed by the frame 60 and the linear motor cover 62, the liner 123 may be loosely inserted into the lubricating oil cylinder 122. Alternatively, the liner 123 may be press-fitted into the lubricating oil cylinder 122. Also good.

  The liner 123 is preferably formed of Teflon (registered trademark) or a polymer material so as not to cause metal friction with the lubricating oil piston 124.

Next, the operation of the lubricating oil pump of the linear compressor configured as described above will be described.
When the compression unit is driven by the linear motor 90, the lubricating oil piston 124 pumps the lubricating oil 50 'while reciprocating left and right by the resonance force with the compression unit.

  That is, when the lubricating oil piston 124 moves rearward, a low pressure is formed in the lubricating oil space 104 ′ of the lubricating oil cover 104, and the lubricating oil suction pipe 102 and the lubricating oil space 104 ′ of the lubricating oil cover 104 communicate with each other. The space between the lubricating oil space 104 ′ of the lubricating oil cover 104 and the frame lubricating oil flow path 106 is blocked. Accordingly, the lubricating oil 50 ′ is sucked from the lubricating oil suction pipe 102 and stored in the lubricating oil space 104 ′ of the lubricating oil cover 104 ′.

  When the lubricating oil piston 124 moves forward in this state, a high pressure is formed in the lubricating oil space 104 ′ of the lubricating oil cover 104, and the lubricating oil space 104 ′ of the lubricating oil cover 104 and the lubricating oil suction pipe 102 are The gap is cut off, and the lubricating oil space 104 ′ of the lubricating oil cover 104 communicates with the frame lubricating oil flow path 106. As a result, the lubricating oil 50 ′ stored in the lubricating oil space 104 ′ of the lubricating oil cover 104 passes through the frame lubricating oil flow path 106 and the cylinder lubricating oil flow path 108 in order, so that the cylinder 70 and the piston 72 Refueled in between.

  On the other hand, the lubricating oil 50 ′ supplied between the cylinder 70 and the piston 72 is discharged from the lubricating oil discharge unit 110 to the sealed container 50 after cooling and lubricating the cylinder 70 and the piston 72.

It is sectional drawing of the linear compressor provided with the lubricating oil pump by a prior art. It is sectional drawing of the linear compressor provided with the lubricating oil pump by this invention. FIG. 3 is an enlarged view of an “A” portion of FIG. 2. It is sectional drawing along the BB line of FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 50 Airtight container 70 Cylinder 72 Piston 90 Linear motor 100 Lubricating oil supply part 110 Lubricating oil discharge part 120 Lubricating oil pump 122 Lubricating oil cylinder 124 Lubricating oil piston 123 Liner

Claims (10)

A lubricating oil cylinder into which lubricating oil is drawn,
A lubricating oil piston for pumping the lubricating oil while reciprocating inside the lubricating oil cylinder;
Lubricating oil cylinder protection means for preventing friction between the lubricating oil cylinder and the lubricating oil piston;
A lubricating oil pump for a linear compressor, comprising:   2. The lubricating oil pump for a linear compressor according to claim 1, wherein the lubricating oil cylinder protecting means is a pipe-type liner interposed between the lubricating oil cylinder and the lubricating oil piston.   The lubricating oil pump for a linear compressor according to claim 2, wherein the liner is made of Teflon (registered trademark) or a polymer material. A sealed container containing lubricating oil;
A compression unit installed inside the sealed container and compressing the working fluid by the driving force of the linear motor;
A lubricating oil cylinder installed in the compression section for sucking and discharging lubricating oil in the sealed container;
A lubricating oil piston for pumping the lubricating oil while reciprocating inside the lubricating oil cylinder;
A resonance part in which the lubricating oil piston resonates with the compression part to reciprocate;
Lubricating oil cylinder protection means for preventing friction generated between the lubricating oil cylinder and the lubricating oil piston;
The linear compressor characterized by comprising. A metal frame that supports the compression part is provided inside the sealed container,
The linear compressor according to claim 4, wherein the lubricating oil cylinder is formed integrally with the frame.   6. The linear compressor according to claim 5, wherein the lubricating oil cylinder protecting means is a pipe type liner interposed between the lubricating oil cylinder and the lubricating oil piston.   The linear compressor according to claim 6, wherein the liner is made of Teflon (registered trademark) or a polymer material.   The linear compressor according to claim 6, wherein the liner is press-fitted into the lubricating oil cylinder. The lubricating oil cylinder is open at both ends and has a cylindrical structure in which one end where the lubricating oil enters and exits is narrower than the inner diameter of the lubricating oil cylinder,
The other open end of the lubricant cylinder is covered with a lubricant cylinder cap,
The linear compressor according to claim 6, wherein the liner is inserted into the lubricating oil cylinder from the other open end of the lubricating oil cylinder.   The linear compressor according to claim 9, wherein the lubricating oil cylinder cap is a linear motor cover that supports the linear motor.

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