CN101057076B

CN101057076B - Discharge valve

Info

Publication number: CN101057076B
Application number: CN2005800385535A
Authority: CN
Inventors: 崔钟允; 安相昱; 具本哲; 尹亨杓; 李孝宰; 玄圣烈
Original assignee: LG Electronics Inc
Current assignee: LG Electronics Inc
Priority date: 2004-11-12
Filing date: 2005-11-11
Publication date: 2010-09-29
Anticipated expiration: 2025-11-11
Also published as: CN101057076A; KR20060045233A; KR100700615B1

Abstract

A discharge valve (100) of a compressor is disclosed. The discharge vlave (100) contains a spring-loaded valve body (120). Valve body (120) is preferably made of nonferrous metal like aluminum or magnesium and is coated by a covering (110) of uniform thickness, the covering (110) beeing preferably made of plastic material like polyetheretherketone (PEEK) by insertion molding. By that way a wear resistant and light-weight discharge valve is produced.

Description

Escape cock

Technical field

The present invention relates to the valve assembly of reciprocal compressor, and relate more particularly to escape cock and have the bleed valve assembly of the reciprocal compressor of this escape cock, described bleed valve assembly can improve valve structural strength, alleviate the weight of valve and reduce the cost of production of valve.

Background technique

Compressor is pressurized gas by converting electric energy to kinetic energy.According to the compressing mechanism of pressurized gas, have various types of compressors, for example rotary compressor, scroll compressor, reciprocal compressor etc.

With regard to reciprocal compressor, when drive motor produced driving force, the piston of formation compressing member bore driving force and moves back and forth in the cylinder internal linear, thus suction, compression and exhausting air.Having a kind of drive motor to produce rotating force and this rotating force passes to the method for piston and a kind of drive motor by bent axle and produces the method that linear back and forth driving force and linear back and forth driving force pass to piston.

In reciprocal compressor, when piston bear drive motor driving force and when the cylinder internal linear moves back and forth, suction valve and escape cock are opened and closed by the pressure difference that moves back and forth, results from the cylinder according to piston, thereby make gas suck cylinder, compression and discharging.

Fig. 1 is the sectional view of an example that has shown the bleed valve assembly of reciprocal compressor.

As shown in the figure, the bleed valve assembly of reciprocal compressor comprise the inner space that covers cylinder 10 discharge cover 20, be inserted in the discharge cover 20 and open escape cock 30 with the inner space of closed cylinder 10, and the valve spring 40 of elastic support escape cock 30.

Discharge cover 20 comprises cylindrical part 21, standing part 22 and discharge orifice 23, described cylindrical part 21 has certain-length and external diameter and has the inner space, described standing part 22 from a lateral bending song of described cylindrical part 21, stretch out and be connected on the front baffle (not shown), described discharge orifice 23 is formed on the described cylindrical part 21 and is connected on the outlet pipe 50, and gas is discharged away by described outlet pipe.

Escape cock 30 is for having certain thickness disc-like shape, and valve spring 40 is for having the cylindrical disc spring of certain-length.

The reference character 60 of Miao Shuing not is a piston, and 70 is suction valve.

The operation of the bleed valve assembly of this reciprocal compressor will be described now.

Piston 60 linearity when bearing the driving force of drive motor (not shown) moves back and forth.At first, when piston 60 when upper dead center moves to lower dead centre, as shown in Figure 2, escape cock 30 by the pressure difference in the cylinder close attachment in the surface of contact of cylinder 10, simultaneously, suction valve 70 is opened, thus the inner space that allows gas to introduce cylinder by the fluid path that is formed in the piston 60.

If piston 60 moves to upper dead center from lower dead centre, the fluid path of suction valve 70 blocking pistons 60 then, thereby the gas in the inner space that is contained in cylinder 10 that gradually reduces.Then, gas reaches the setting compressive state, and the escape cock 30 that is supported by valve spring 40 is opened, and discharges pressurized gas.This process constantly repeats, thus pressurized gas.

In above-mentioned bleed valve assembly, open with the inner space of closed cylinder 10 and discharge gas purging valve 30 and constantly form with the surface of contact of cylinder 10 and contact, and sucking and also be subjected to during discharge gas affected by high.If escape cock 30 causes distortion or wearing and tearing by the pressure that is applied on the escape cock 30 with the impact that produces owing to the surface of contact that constantly contacts cylinder 10, gas leakage will take place, cause compression efficiency to reduce.Therefore, when design escape cock 30, must consider these situations.

If increasing or will have high-intensity material, the volume of escape cock 30 is used for escape cock 30 to prevent that escape cock 30 is owing to the pressure that is applied thereto causes distortion, then the buckles that constantly produces during the surface of contact of contact cylinders 10 of escape cock 30 increases, and it causes contact noise and to the damage of escape cock 30.

Summary of the invention

Therefore, the object of the present invention is to provide escape cock and have the bleed valve assembly of the reciprocal compressor of this escape cock, the structural strength that it can improve valve alleviates the weight of valve.

The bleed valve assembly that another object of the present invention is escape cock is provided and has the reciprocal compressor of this escape cock, it can reduce the cost of production of valve.

In order to realize these and other advantage, and according to purpose of the present invention, as concrete elaboration of this paper and generalized description, the invention provides a kind of escape cock, this escape cock comprises valve gap and valve body, described valve gap and cylinder form and contact, and to open the inner space with closed cylinder, described valve body forms as one with described valve gap and made by the material different with described valve gap.

In order to realize these and other advantage and according to purpose of the present invention, as this paper concrete set forth and generalized description, the present invention also provides a kind of bleed valve assembly of reciprocal compressor, comprising: discharge cover, the inner space of this discharge cover covering cylinder; Escape cock, this escape cock comprises plastics valve gap and valve body, described plastics valve gap forms with described cylinder and contacts, and described valve body and described plastics valve gap form as one and are made by ferrous metal, and the inner space of described cylinder opened and seal by this escape cock when its valve gap contacts with described cylinder; And spring, this spring is placed between the internal surface of discharge cover and the escape cock and flexibly supports described escape cock.

Above-mentioned and other purpose of the present invention, feature, aspect and advantage will become apparent on the basis of reading following detailed description of the present invention in conjunction with the accompanying drawings.

Description of drawings

Accompanying drawing has shown embodiments of the invention and has been used from specification one explains principle of the present invention, and described accompanying drawing provides further explanation of the present invention, and it is incorporated in this specification and constitutes the part of specification.

In the accompanying drawings:

Fig. 1 is the sectional view that shows the bleed valve assembly of general reciprocal compressor;

Fig. 2 is the sectional view of serviceability that has shown the bleed valve assembly of reciprocal compressor;

Fig. 3 and 4 is sectional view and the perspective views that shown according to the escape cock of the first embodiment of the present invention;

Fig. 5 and 6 is sectional view and the perspective views that shown escape cock according to a second embodiment of the present invention;

Fig. 7 and 8 is sectional view and the perspective views that shown the escape cock of a third embodiment in accordance with the invention;

Fig. 9 is the sectional view that has shown the escape cock of a fourth embodiment in accordance with the invention;

Figure 10 is the sectional view that has shown escape cock according to a fifth embodiment of the invention;

Figure 11 is the perspective view that has shown escape cock according to a sixth embodiment of the invention;

Figure 12 is the sectional view that has shown according to the bleed valve assembly of reciprocal compressor of the present invention.

Preferred implementation

To show the example in the accompanying drawing in detail with reference to preferred implementation of the present invention now.

Fig. 3 is the sectional view that has shown according to the escape cock of the first embodiment of the present invention, and Fig. 4 is the perspective view that has shown the outlet valve of a fourth embodiment in accordance with the invention.

As shown in the figure, escape cock 100 comprises valve gap 110 and valve body 120, described valve gap 110 forms with cylinder 10 and contacts, and to open and to seal the inner space of described cylinder, described valve body 120 forms as one with described valve gap 110 and made by the material that is different from described valve gap 110.

Valve body 120 comprises disc-shaped part 122 and ball 123, described disc-shaped part 122 has the circular flat 121 towards described cylinder 10, described ball 123 is formed extended at both sides on a surface of described disc-shaped part 122, has certain thickness and external diameter.

Valve gap 110 is formed with certain thickness in the outward edge scope of the opposite side of the edge of the circular flat 121 of disc-shaped part 122, disc-shaped part 122 and circular flat 121.

Preferably, valve body 120 is made by nonferrous metal, and wherein nonferrous metal is aluminium, magnesium or their alloy.

Valve gap 110 is made by plastic material, and wherein plastics are polyether-ether-ketone (PEEK).

Preferably, form valve gap 110 by applying coating on valve body 120.

Fig. 5 is the sectional view of escape cock according to a second embodiment of the present invention, and Fig. 6 is the perspective view of described escape cock.

As shown in the figure, escape cock 100 comprises valve gap 130 and valve body 140, described valve gap 130 forms with cylinder 10 and contacts, and to open and to seal the inner space of described cylinder 10, described valve body 140 forms as one with described first valve gap 130 and made by the material that is different from described valve gap 130.

Valve body 140 comprises disc-shaped part 142, ball 143 and through hole 144, described disc-shaped part 142 has the circular flat 141 towards described cylinder 10, described ball 143 is formed extended at both sides on a surface of described disc-shaped part 142, have certain thickness and external diameter, and described through hole 144 is penetratingly formed at the center of described disc-shaped part 142 and ball 143.

Valve gap 130 comprises cover 131 and fills projection 132, described cover 131 is formed with certain thickness in the outward edge scope of the opposite side of the edge of the circular flat 141 of disc-shaped part 142, integrated disc portions 142 and circular flat 141, described filling projection 132 is formed extended at both sides on described cover 131 and fills the described through hole 144 of described valve body.

Valve body 140 is made by nonferrous metal, and wherein nonferrous metal is aluminium, magnesium or their alloy.

Valve gap 130 is made by plastic material, and wherein preferably, plastics are PEEK.

Valve gap 130 forms by insert molding with valve body 140.

Fig. 7 is the sectional view that has shown the escape cock of a third embodiment in accordance with the invention, and Fig. 8 is the perspective view of described escape cock.

As shown in the figure, escape cock 100 comprises valve gap 150 and valve body 160, described valve gap 150 forms with cylinder 10 and contacts, and to open and to seal the inner space of described cylinder 10, described valve body 160 forms as one with described valve gap 150 and made by the material that is different from described valve gap 150.

Valve body 160 comprises disc-shaped part 162, ball 163 and a plurality of through hole 164, described disc-shaped part 162 has the circular flat 161 towards described cylinder 10, described ball 163 is formed extended at both sides on a surface of described disc-shaped part 162, have certain thickness and external diameter, described a plurality of through holes 164 are penetratingly formed at the edge of described disc-shaped part 162.Preferably, four through holes 164 are formed on the disc-shaped part 162 with regular spaces.

Valve gap 150 comprises cover 151 and a plurality of filling projection 152, described cover 151 is formed with certain thickness at circular flat 161 places, and described a plurality of filling projections 152 are formed extended at both sides on cover 151 and fill described a plurality of through holes 164 of described valve body respectively.

Valve body 160 is made by nonferrous metal, and wherein nonferrous metal is aluminium, magnesium or their alloy.

Preferably, valve gap 150 is made by plastic material, and wherein plastics are PEEK.

Preferably, valve gap 150 forms with described valve body 160 by insert molding.

Fig. 9 is the sectional view that has shown the escape cock of a fourth embodiment in accordance with the invention.

As shown in the figure, escape cock 100 comprises valve gap 170 and valve body 180, described valve gap 170 forms with cylinder 10 and contacts, and to open and to seal the inner space of described cylinder 10, described valve body 180 forms as one with described valve gap 170 and made by the material that is different from described valve gap 170.

Valve body 180 comprises main body 182, spring fixed groove 183 and circular groove 184, described main body 182 has towards the circular flat 181 of described cylinder 10 and is the hemispherical shape of predetermined, described spring fixed groove 183 is formed on the described main body 182, be positioned at the opposite side of described circular flat 181, described circular groove 184 is formed on the edge of the described circular flat 181 of described main body 183, and has certain depth and width.

Valve gap 170 has constant thickness in the scope of the main body 182 that does not comprise circular groove 184 and circular flat 181.The cover that is filled in the circular groove 184 of described valve body contacts with cylinder 10.

Preferably, to be filled into the surface in the circular groove 184 of described valve body 180 are identical planes with the circular flat 181 of described valve body 180 to described cover.

Valve body 180 is made by nonferrous metal, and wherein nonferrous metal is aluminium, magnesium or their alloy.

Preferably, valve gap 170 is made by plastic material, and wherein plastics are PEEK.

Preferably, form valve gap 170 by applying coating on valve body 180.

Figure 10 is the sectional view that has shown escape cock according to a fifth embodiment of the invention.

As shown in the figure, escape cock 100 comprises valve gap 190 and valve body 200, described valve gap 190 forms with cylinder 10 and contacts, and to open and to seal the inner space of described cylinder 10, described valve body 200 forms as one with described valve gap 190 and made by the material that is different from described valve gap 190.

Valve body 200 comprises main body 202 and spring fixed groove 203, described main body 202 has towards the circular flat 201 of described cylinder 10 and for having the hemispherical shape of predetermined, described spring fixed groove 203 is formed on the described main body 202, is positioned at the opposite side of described circular flat 201.

Valve gap 190 has constant thickness in the edge extent of circular flat 201 and main body 202.

Preferably, valve body 200 is made by nonferrous metal, and wherein nonferrous metal is aluminium, magnesium or their alloy.

Preferably, valve gap 190 is made by plastic material, and wherein plastics are PEEK.

Preferably, form described valve gap by applying coating on valve body 200.

Figure 11 is the sectional view that has shown escape cock according to a sixth embodiment of the invention.

As shown in the figure, escape cock 100 comprises disc-shaped part 102, ring type projection 103, a plurality of first strengthening rib and spring fixed groove 105, described disc-shaped part 102 has the circular flat 101 towards cylinder 10, wherein said cylinder has the inner space, described ring type projection 103 is formed up to predetermined altitude at one of described disc-shaped part 102 side-prominently, described a plurality of first strengthening rib has certain width and is formed on the outer surface of described disc-shaped part 102 and described ring type projection 103, and described spring fixed groove 105 is formed on the described ring type projection 103.Preferably, second strengthening rib 106 is formed in the described ring type projection 103.

Escape cock 100 is made by PEEK.

Following specific explanations is used to make the method according to first to the 5th embodiment's of the present invention escape cock, the aluminium, magnesium or their alloy that constitute valve body are molded as the valve body shape by compacting or other method, described molded valve body is put into mould, utilize PEEK to carry out insert molding subsequently, to form valve gap.

Under the first, the 4th and the 5th embodiment's of escape cock situation, aluminium, magnesium or their alloy that constitutes valve body is molded as the valve body shape by compacting or other method, and the surface-coated of molded body there is PEEK, to form valve gap.

Preferably, under the situation according to the 6th embodiment's escape cock, PEEK carries out molded in mould.

Figure 12 is the sectional view that has shown according to the bleed valve assembly of reciprocal compressor of the present invention, and identical reference character is represented identical parts.

As shown in the figure, the bleed valve assembly of reciprocal compressor comprises: discharge cover 210, and this discharge cover is used to cover the inner space of cylinder 10; Escape cock 100, this escape cock comprises plastics valve gap 110 and valve body 120, described plastics valve gap 110 forms with described cylinder 10 and contacts, and described valve body 120 is made by nonferrous metal and form as one with described plastics valve gap 110, and this escape cock opens and closes the inner space of described cylinder 10 when its valve gap contacts with described cylinder 10; With spring 220, this spring is placed between the inside of described discharge cover 210 and the described outlet valve 100 and flexibly supports described escape cock 100.

Preferably, valve gap 110 is made by PEEK.

Preferably, form valve gap 110 by applying coating on valve body 120.

As escape cock 100, can use all escape cocks of above describing according to first to the 6th embodiment.

Under situation according to first to the 3rd embodiment's escape cock, a side of spring 220 by ball 123,143 and 163 and disc-shaped part 122,142 and 162 support regularly.Equally, under the situation according to the 4th to the 6th embodiment's escape cock, a side of spring 220 is supported regularly by spring fixed groove 183,203 and 105.

To describe now according to the work effect of escape cock of the present invention with the bleed valve assembly of reciprocal compressor with this escape cock.

For escape cock 100 according to the present invention, valve body has predetermined and is made by the nonferrous metal of for example aluminium, magnesium etc.Equally, form valve gap around described valve body by the engineering plastic material, especially PEEK makes, and its inner space at cylinder forms with cylinder when opening or closing and contacts.

Therefore, valve volume increases, thereby has improved structural strength, though and the valve volume increase, it is lighter that valve weight becomes.Equally, because valve gap a part of and that contact with cylinder formation is made by plastics, especially PEEK around valve body, even therefore described valve gap contacts with described cylinder when outlet valve opens and closes the inner space of described cylinder, wearing and tearing also can reduce.

PEEK has 150-300 ℃ heat resistance, and has excellent fatigue resistance and wear resistance.

Escape cock 100 according to the present invention has improved structural strength, and this is because valve body and valve gap are whole to be formed, and makes described valve gap cover valve body, and perhaps when the part of described valve gap was inserted valve body, described valve gap covered valve body.

Because escape cock 100 according to the present invention has than high structural strength, thus the distortion that the pressure that produces causes can prevent to open or close the cylinder interior space owing to escape cock 100 time.

And escape cock valve body of the present invention uses cheap nonferrous metal, especially aluminium or magnesium, and valve gap use plastic material, especially PEEK, thereby helps to reduce production costs.

In the bleed valve assembly according to reciprocal compressor of the present invention, when bearing the linear back and forth driving force of drive motor (not shown), piston 60 moves back and forth in the inner space of cylinder 10 internal linear.And, escape cock 100 according to since the pressure difference that results from the cylinder interior space that moves back and forth of piston 60 move, thereby open or the inner space of closed cylinder 10.Escape cock 100 is by spring 220 elastic support, and by with the end face of cylinder 10, promptly surface of contact contacts and opens inner space with closed cylinder 10.At this, the valve gap 110 of escape cock 100 contacts with described surface of contact.

Because escape cock 100 has above-mentioned feature, thereby strengthen its structural strength, alleviated weight, and reduced cost of production.

As mentioned above, escape cock according to the present invention has little weight, high structural strength and wear resistance.Therefore, make: because the distortion that the pressure of operation period causes, and the wearing and tearing and the damage of constituent elements avoided.Pressurized gas during the compressor operating leaks to be avoided, thereby has improved compression efficiency, has prolonged life of product.Therefore, improved reliability.

And the present invention has strengthened the competitiveness of product owing to the cost of production that has reduced escape cock.

Because the present invention can specific implementation be a various ways under the situation that does not break away from its spirit and inner characteristic, therefore, be to be understood that, the foregoing description is not limited by any details above, unless otherwise mentioned, otherwise they should explain broadly in the spirit and scope in being defined in appended claims that therefore described claims have comprised all changes and the change within the equivalents that falls into claim scope or this scope.

Claims

1. escape cock comprises:

Valve gap, this valve gap contacts with cylinder, to open and to seal the inner space of described cylinder; With

Valve body, this valve body and described valve gap form as one, and are made by the material that is different from described valve gap,

It is characterized in that described valve body comprises disc-shaped part and ball, described disc-shaped part has the circular flat towards described cylinder, and described ball is formed on the surface of described disc-shaped part, has certain thickness and external diameter, and

Described valve gap forms constant thickness in the outward edge scope of the opposite side of the edge of the circular flat of described disc-shaped part, described disc-shaped part and described circular flat.

2. escape cock as claimed in claim 1 is characterized in that, forms described valve gap by using polyether-ether-ketone to apply valve body.

3. escape cock as claimed in claim 1 is characterized in that, is formed with through hole in the center of described disc-shaped part and ball in the mode that runs through, and

Described valve gap comprises cover and fills projection, described cover has certain thickness and forms in the outer peripheral scope of the opposite side of the edge of the circular flat of described disc-shaped part, described disc-shaped part and described circular flat, and described filling projection is formed extended at both sides on described cover and fill the described through hole of described valve body.

4. escape cock as claimed in claim 3 is characterized in that described valve gap forms with described valve body by insert molding.

5. escape cock comprises:

It is characterized in that, described valve body comprises main body, spring fixed groove and circular groove, described main body has towards the circular flat of described cylinder and has the volume that has reservation shape, described spring fixed groove is formed on the described main body, to be positioned at the opposite side of described circular flat, and described circular groove has certain depth and width and is formed on the edge of the circular flat of described main body, and

Described valve gap is formed with certain thickness in not comprising the main body scope of described circular groove and circular flat,

Wherein, a part that is filled into the described valve gap in the described circular groove contacts with described cylinder.

6. escape cock as claimed in claim 5 is characterized in that, the circular flat that is filled into the surface of a part of the described valve gap in the described valve body circular groove and described valve body is in the same plane.

7. escape cock as claimed in claim 5 is characterized in that, forms described valve gap by using polyether-ether-ketone to apply valve body.

8. escape cock comprises:

It is characterized in that, described valve body comprises main body and spring fixed groove, described main body has towards the circular flat of described cylinder and has the volume that has reservation shape, described spring fixed groove is formed on the described main body, being positioned at the opposite side of described circular flat, and described valve gap is formed with certain thickness in the circular flat of described main body and edge extent.

9. escape cock as claimed in claim 8 is characterized in that, forms described valve gap by using polyether-ether-ketone to apply valve body.