DE602005004644T2 - linear compressor - Google Patents

Description

Background of the invention

Field of the invention

The The present invention relates to a linear compressor, and more particularly a linear compressor in which a vibration-absorbing unit on the outside a compressor housing attached and from a protective one Shell surrounded is, wherein the size of the housing can be reduced can, while effective protection of the vibration absorbing unit from external force is achieved, resulting in improved durability and reliability of the compressor leads.

Description of the state of technology

Generally For example, a linear compressor is a device for inserting, compressing and discharging one Fluids during a linear reciprocation of a piston within a Cylinder using a linear motive force of a linear motor.

One ordinary Linear compressor comprises a compression unit with a piston and one in a housing attached cylinder for compressing fluid, and a linear motor with a stator and a drive for linear reciprocating motion Piston in the cylinder.

Of the Cylinder has a cylindrical structure and is at its opposite Ends open. This will cause the piston to enter the cylinder through one of the open ends introduced. At the other end of the cylinder is an outlet cover to the lead away provided by the piston of the compressed fluid through this. A compression chamber is between the piston and the outlet cover educated.

It Also, an outlet valve is elastic on the outlet cover for opening or Shut down the compression chamber stored.

Of the Stator of the linear motor contains an outer core, an inner core spaced inwardly from the outer core is to provide a predetermined distance therebetween one in the outer core attached bobbin and one around the bobbin wound coil. The drive of the linear motor contains one Magnet, using a magnetic force generated in the vicinity of the coil is linearly reciprocated, and a magnetic frame for transmitting the linear reciprocation of the magnet on the piston.

Of the Magnet is attached to one side of the magnetic frame and the piston is attached to the other side of the magnetic frame.

At the Operation of the ordinary, if configured as described above, the linear compressor will a drive voltage is applied to the coil, a magnetic field near the coil generates what causes that the magnet is linearly reciprocated while he influenced each other with the magnetic field.

The linear float of magnet is through the magnetic frame transferred to the piston, what allows the piston to be linearly reciprocated within the cylinder.

Thereby, that the piston is linearly reciprocated in the cylinder, Fluid is compressed within the cylinder and that compressed fluid is discharged through the outlet unit to the outside.

It However, in the ordinary Linear compressor is a problem that consists of all its Elements comprising fluid compression elements, support elements and vibration-damping Elements in the housing attached, which allows a reduction in the size of the linear compressor.

If the vibration-damping ones Elements on the outside of the housing attached, they are subject to damage and interference under the Influence of external contamination or shaking, resulting in a deterioration of the lifetime and reliability of the compressor leads.

The publication WO 2004/081379 A2 relates to a reciprocating compressor with a vibration-damping support unit. A plurality of first and second elastic members are attached to a surface of the frame of the compressor sors. The compressor and the elastic elements are covered by a sheathing.

The publication EP 1 450 472 A1 relates to a linear motor and a linear compressor using the same. In one embodiment, two dynamic dampers are disclosed, which are supported by brackets and which are arranged adjacent to a high pressure chamber of the compressor.

Summary of the invention

Consequently, the present invention has been conceived in view of the above problems, and it is an object of the present invention to provide a linear compressor in which a vibra tion-absorbing unit is mounted on the outside of a compressor housing so that it is surrounded by a protective sheath, wherein the size of the housing with improved life and reliability of the compressor can be reduced.

According to the present Invention can the above and other objects by the provision of a linear compressor can be achieved with the features of claim 1.

Prefers the protector can be a protective Be sheath, which is set up to be the vibration absorbing unit surrounds and with the housing is coupled.

Prefers can the protective Case a cylindrical Form, which is open at one end thereof, wherein the open End of the protective Case with the housing is coupled.

Prefers can the protective Case with a plurality of heat dissipation ports for discharging from internal heat outward be educated.

Prefers can the plurality of heat removal openings be arranged at a predetermined distance from each other and each can have a slot shape.

Preferably, the linear compressor may further comprise:
an outlet cover provided in front of the outlet port and configured to damp a flow rate of the fluid discharged through the outlet port; and an outlet tube connected to the outlet cover to direct the fluid in the interior of the outlet cover to the outside.

Prefers can the protective Case with a pipe hole for performing be formed of the outlet pipe.

Prefers can the vibration-absorbing unit with the outlet cover be coupled.

Prefers may include the vibration absorbing unit: a hub member, which is connected to the outlet cover; a mass element, which is arranged at a distance from the hub member outwardly; and a Plurality of Belleville springs to the hub member with the mass element connect to.

Prefers the mass element can have a circular ring shape.

at the linear compressor according to the present Invention configured as described above is a vibration absorbing Unit on the outside a compressor housing attached. This has the effect of reducing the number of in the case attached elements as well as the size of the case, resulting in a reduced Compressor size leads.

By Surround the vibration absorbing unit with a protective Case for Protect the vibration-absorbing unit from external shock or foreign bodies furthermore no risk of damage or disorder of elements, resulting in improved durability and reliability of the compressor leads.

by virtue of the majority trained on the protective sheath heat-discharge can also heat inside the protective one Sheath effective outward dissipated be what an overheating of the compressor during of operation prevented.

Brief description of the drawings

The above and other objects, features and other advantages of the present invention Invention are taken into consideration by the following detailed description the attached Drawings clearer, at them:

1 shows a longitudinal sectional view illustrating the internal structure of a linear compressor according to the present invention; and

2 a schematic side sectional view of the linear compressor according to 1 is.

Description of the preferred embodiments

It will now be a preferred embodiment of the present invention with reference to the accompanying drawings described.

1 Fig. 15 is a longitudinal sectional view showing the internal structure of a linear compressor according to the present invention. 2 is a schematic side sectional view of the linear compressor according to 1 ,

As in the 1 and 2 As shown, the linear compressor according to the present invention comprises a housing 50 with an inlet connection 51 and an outlet port 52 which are formed at different locations thereof, one in the housing 50 attached linear motor 60 for generating a linear motive force, one in the housing 50 attached cylinder 70 , a piston 71 that with the linear motor 60 connected to li near in the cylinder 70 to be reciprocated and thereby to compress fluid, one on the outside of the housing 50 attached vibration absorbing unit 80 for absorbing vibration of the housing 50 and a protector configured to surround the vibration absorbing unit around the vibration absorbing unit 80 to protect against external forces.

An outlet unit arrangement 90 is in front of the outlet port 52 of the housing 50 attached so that in the cylinder 70 compressed fluid through the outlet unit assembly 90 out of the cylinder 70 is dissipated.

The housing 50 has a cylindrical shape and is at its front and back respectively with the outlet port 52 and the inlet port 51 educated. A suction pipe 53 is through the inlet port 51 introduced to external fluid in the housing 50 introduce.

The linear motor 60 is generally divided into a stator and a drive. The stator contains an outer core 61 in the form of a block, an inner core 62 also in the form of a block, with the inner core 62 at a distance inward from the outer core 61 is arranged so that it has a predetermined distance therebetween, and a coil 63 that in the outer core 61 is attached to generate a magnetic field. The drive contains one between the outer core 61 and the inner core 62 arranged magnets 64 which is adapted using one near the coil 63 generated magnetic force to be moved linearly, and a magnetic frame 65 that with both the magnet 64 as well as the piston 71 connected to the linear motive force of the magnet 64 on the piston 71 transferred to.

The cylinder 70 is directly on an inner wall surface of the housing 50 attached. In particular, the cylinder 70 in the case 50 at the outlet port 52 arranged.

The cylinder 70 has a cylindrical structure opened at opposite ends thereof. A compression chamber C is in the cylinder 70 between the piston 71 and the outlet unit assembly 90 educated.

A spring holder 74 is with a rear end of the piston 71 coupled and main springs 75 are between opposite surfaces of the spring retainer 74 and the housing 50 attached to the piston 71 elastic store.

The piston 71 is inside with a suction channel 72 formed, in which the fluid from the suction pipe 53 is introduced. Also, a plurality of suction ports 73 near a front end of the piston 71 trained, and a suction valve 76 is at the front end of the piston 71 attached to the plurality of suction ports 73 to open and close.

A silencer 54 is behind the piston 71 connected to the suction pipe 53 to communicate. The silencer 54 serves to dampen suction noise of the fluid.

The outlet assembly 90 contains an outlet cover 91 attached to an outer wall surface of the housing 50 attached and adapted to that of the outlet port 52 dissipate discharged flow rate of the fluid, an exhaust valve 92 which is in the outlet cover 91 is arranged to be in close contact with the open end of the cylinder 70 to arrive, with the exhaust valve 92 for opening and closing the compression chamber C, and an exhaust spring 93 attached to the outlet cover 91 is stored to the exhaust valve 92 elastic store.

The outlet cover 91 has a hood shape and is with the front of the housing 50 coupled. An outlet pipe 94 is with a specific location of the outlet cover 91 connected to the outlet cover 91 lead discharged fluid to the outside.

Meanwhile, the vibration absorbing unit 80 at the outlet cover 91 appropriate. The vibration absorbing unit 80 contains a hub element 82 , which has a connection shaft 81 with the outlet cover 91 connected, a mass element 83 which is radially disposed at a predetermined distance from the hub member, and a plurality of disc springs 84 to the hub element 82 with the mass element 83 connect to.

The mass element 83 is a circular ring with a predetermined mass. The majority of disc springs 84 are for respectively connecting the front and rear sides of the hub member 82 with front and back sides of the mass element 83 intended.

Preferably, the disc springs 84 by means of bolts on the front and back sides of the mass element 83 attached.

Meanwhile, the protector is around the vibration absorbing unit 80 provided to the vibration absorbing unit 80 to protect from external foreign bodies / contamination or shock. In the present invention, the protector is a protective shell 85 to surround the vibration-absorbing unit 80 ,

The protective shell 85 has a cylindrical shape opened at one end thereof. The open end of the protective shell 85 is coupled to the front of the housing.

In this case, the protective shell 85 preferably by welding or using fasteners with the front of the housing 50 coupled.

The protective shell 85 is with a plurality of Wärmeabführöffnungen 87 for dissipating internal heat of the protective shell 85 trained to the outside.

Here are the majority of heat removal openings 87 at lateral locations of the cylindrical protective casing 85 formed to be arranged at a predetermined distance from each other. Specifically, each of the heat removal openings 87 an elongated slot shape.

At a certain point of the protective shell 85 is also a tube hole 86 designed so that the outlet pipe 94 from the protective shell 85 through the tube hole 86 protrudes.

in the The following will describe the operation of the linear compressor according to the present invention Invention configured as stated above.

If the linear motor 60 is operated, then the magnet 64 linearly reciprocated while working with the near the coil 63 generated magnetic field interacts with each other.

The float's movement 64 is over the magnetic frame 65 on the piston 71 transmit what the piston 71 allows continuous linear in the cylinder 70 to be moved back and forth. The piston acts 71 for compressing into the compression chamber C of the cylinder 70 introduced fluid, and leads the compressed fluid in the outlet cover 91 from. The introduction, compression and removal of the fluid is repeated continuously as long as the piston 71 is linearly reciprocated.

If the piston 71 is moved backwards, so in particular the suction valve 76 opened, which allows the fluid in the suction channel 72 of the piston 71 , through the suction port 73 in the compression chamber C of the cylinder 70 is introduced.

If the piston 71 is moved forward to the compression chamber, then the compressed in the compression chamber C fluid pushes the outlet valve 92 Forward. At the same time, the outlet valve becomes 92 opened and the compressed fluid is through the outlet cover 91 and the outlet pipe 94 discharged to the outside.

Meanwhile, the vibration absorbing unit acts 80 during operation of the linear motor 60 by transmitting vibration transmitted thereto in a direction of movement of the linear motor 60 and the piston 71 absorbed.

In particular, in the direction of movement of the piston 71 transmitted vibration from the disc springs 84 absorbed. In addition, due to the vibration absorbing unit 80 provided mass element 83 reduces a characteristic frequency of the linear compressor, resulting in a damping of the vibration of the linear compressor.

As in the present invention, the protective sheath 85 for surrounding the vibration absorbing unit 80 is mounted, in addition, the vibration-absorbing unit 80 be safely protected from external contamination / foreign bodies or vibration.

It is apparent from the above description that the linear compressor according to the present Invention, as stated above is configured to have the following effects.

First is in accordance with the present Invention a vibration-absorbing unit on the outside a compressor housing appropriate. This reduces the number of mounted in the housing Elements and consequently the size of the case, what leads to a reduced compressor size.

Secondly is the vibration absorbing unit according to the present invention from a protective Case for Protection against external shock or foreign bodies surround. As a result, the vibration-absorbing unit is free from damage or malfunction, resulting in an improved service life and reliability of the Compressor leads.

thirdly is the protective cover with a plurality of heat dissipation openings for discharging internal Heat after Outside educated. Thereby, in the linear compressor according to the present invention Invention no risk of overheating during his Operation.

Although the preferred embodiments of the present invention have been disclosed for illustrative purposes, it will be appreciated by those skilled in the art that various modifications, additions, etc., may be had conditions and substitutions are possible without departing from the scope of the invention as disclosed in the appended claims.

Claims (10)

Linear compressor with: a housing ( 50 ), which with an inlet connection ( 51 ) and an outlet port ( 52 ) is trained; a linear motor ( 60 ) located in the housing ( 50 ) and which is adapted to generate a linear motive force; a cylinder ( 70 ) located in the housing ( 50 ) is attached; and a piston ( 71 ) connected to the linear motor ( 60 ) and which is adapted to compress a fluid while it is linearly in the cylinder ( 70 ) is moved back and forth; characterized in that a vibration absorbing unit ( 80 ) in front of the front of the housing ( 50 ) is mounted to absorb vibration; and a protector ( 85 ) in front of the front of the housing ( 50 ) is mounted separately from the vibration absorbing unit ( 80 ), the protector ( 85 ) is designed so that it the vibration-absorbing unit ( 80 ) surrounds the vibration absorbing unit ( 80 ) to protect. A compressor according to claim 1, wherein the protector ( 85 ) is a protective cover that fits with the housing ( 50 ) is coupled. A compressor according to claim 2, wherein the protective envelope ( 85 ) has a cylindrical shape which is open at one end thereof, the open end of the protective shell being connected to the housing (10). 50 ) is coupled. A compressor according to claim 2, wherein the protective envelope ( 85 ) having a plurality of heat removal openings ( 87 ) is designed for discharging internal heat to the outside. A compressor according to claim 4, wherein said plurality of heat exhaust ports ( 87 ) are separated from each other at a predetermined pitch, and each has a slit shape. A compressor according to claim 5, further comprising: an outlet cover (16); 91 ) located in front of the outlet port ( 52 ) and which is adapted to a flow rate of the through the outlet port ( 52 ) to dampen discharged fluid; and an outlet tube ( 94 ), which with the outlet cover ( 91 ) is connected to the fluid inside the outlet cover ( 91 ) to lead to the outside. A compressor according to claim 6, wherein the protective cover ( 85 ) with a tube hole ( 86 ) for passing the outlet pipe ( 94 ) is trained. A compressor according to claim 6, wherein the vibration absorbing unit ( 80 ) with the outlet cover ( 91 ) is coupled. A compressor according to claim 8, wherein the vibration absorbing unit ( 80 ) contains: a hub element ( 82 ), which with the outlet cover ( 91 ) connected is; a mass element ( 83 ), which at a distance from the hub element ( 82 ) is located outwards; and a plurality of disc springs ( 84 ) to the hub element ( 84 ) with the mass element ( 83 ) connect to. A compressor according to claim 9, wherein the mass element ( 83 ) has a circular ring shape.