KR101095592B1 - Valve assembly for hermetic compressor comprising steel groove valve plate - Google Patents

Abstract

The present invention relates to a valve assembly of a hermetic compressor having a groove plate valve plate of iron plate material, and more particularly, having a groove plate valve plate made of iron plate material and manufactured by pressing and punching process, The stopper for fixing the discharge valve and the valve spring provided in the recess is fixed to the valve plate using a rivet, and the engaging protrusion is formed on the lower surface of the valve plate, so that the assembling process is convenient and the valve plate breaks during rivet caulking. It is related with the valve assembly of the hermetic compressor which has no deformation | transformation and the grooved valve plate of the iron plate material which does not generate the leakage of compressed gas.

According to the present invention, a valve assembly includes: a valve plate having a suction hole formed therein, and a recessed portion through which the discharge hole passes, the valve plate being formed adjacent to the suction hole; A discharge valve provided inside the recess to open and close the discharge hole; A valve spring provided inside the recess to restrain the opening of the discharge valve so as to be positioned above the discharge valve; And a stopper provided inside the recess to fix the discharge valve and the valve spring so as to be positioned above the valve spring, and one side of which is fixed to the bottom surface of the recess by rivets. do.

 Valve Plate, Rivet, Rivet Hole, Caulking, Valve Assembly, Coupling

Description

Valve assembly for hermetic compressor comprising steel groove valve plate}

The present invention relates to a valve assembly of a hermetic compressor having a groove plate valve plate of iron plate material, and more particularly, having a groove plate valve plate made of iron plate material and manufactured by press working and punching processing, and the like. The stopper for fixing the discharge valve and the valve spring provided in the groove portion of the groove is fixed to the valve plate by using a rivet, and the engaging projection is formed on the lower surface of the valve plate, so that the assembling process is convenient. The invention relates to a valve assembly of a hermetic compressor having no deformation deformation and having a grooved valve plate made of a sheet metal material in which no leakage of compressed gas occurs in the hermetic compressor.

In general, a compressor is provided in an air conditioner, a refrigerator, and the like to form a refrigeration cycle together with a condenser and an evaporator, and serves to compress the evaporated low-pressure refrigerant gas to high temperature and high pressure and deliver it to the condenser side again.

The general structure of a hermetic refrigeration compressor which is frequently used as such a compressor is shown in FIG.

Referring to Figure 1, the general hermetic refrigeration compressor is connected to the crank shaft 30 and the eccentric position of the crank shaft 30, which is rotated by the drive of the motor 20 inside the pressure vessel (10). A piston 60 is provided to reciprocate the inside of the cylinder 50 by the rotation of the cylinder 30, and a valve assembly 70 for introducing and discharging the refrigerant gas is installed at the front surface of the cylinder 50.

The valve assembly 70 includes a valve plate 71 in which a suction hole 72 penetrates and a discharge hole 73 penetrates, and a discharge valve 75 that opens and closes the discharge hole 73. And a valve spring 76 for restraining the opening degree of the discharge valve 75 and an upper portion of the discharge valve 75 and the valve spring 76 and fixed to the valve plate 71 by the rivet 78. It is comprised by the stopper 77.

Referring to the operation of the hermetic refrigeration compressor and valve assembly configured as described above, when the crankshaft 30 is rotated to drive the connecting rod 40 by the operation of the motor 20, the piston installed at the tip of the connecting rod 40 60 reciprocates the inside of the cylinder 50 by a constant stroke. According to the reciprocating motion of the piston 60, the refrigerant gas returned from the cooling system (not shown) into the pressure vessel 10 in the suction stroke is passed through the suction muffler 80 and moved to the valve assembly 70, the valve plate 71. The suction gas is sucked into the cylinder 50 through the suction hole 72, and the sucked refrigerant gas is compressed in the cylinder 50 according to the compression stroke of the cylinder 50 to open the discharge valve 75 and discharge the discharge hole 75. 73 is discharged to the high pressure chamber 90 and then discharged to the cooling system (not shown) to repeat the entire refrigeration cycle.

Here, the valve plate provided in the valve structure is generally manufactured using a sintered alloy obtained through a sintering process for compressing and processing metal powder. Since the valve plate is difficult to obtain a precise plan, the upper and lower surfaces of the plate after the sintering process There is a problem in that a complicated machining process for polishing the groove bottom surface is additionally required to increase the manufacturing cost, and the powder is generated during the polishing process, which makes the machining process difficult.

In addition, since the valve plate composed of the sintered alloy is processed by compressing the metal powder, there may be a fine space between the metal powder particles, there is a problem that gas leakage may occur when the refrigerant gas is compressed in the cylinder.

Moreover, the valve structure having the valve plate of the sintered alloy has a problem that the valve plate may be broken and deformed during the caulking operation of the rivet in the process of coupling the stopper to the valve plate using the rivet, which may cause leakage of compressed gas. There is, in the case of small alloys can not form a coupling protrusion at the bottom of the valve plate has a disadvantage of coupling to the suction valve using a separate guide pin.

The present invention has been made to solve the above problems, and provided with a groove plate of the iron plate material produced by pressing and punching, laminating the discharge valve and the valve spring in the groove of the valve plate and then the rivet The stopper is fixed to the valve plate to complete the valve assembly, which eliminates the need for grinding compared to the valve assembly having the valve plate made of a sintered alloy material, thereby reducing manufacturing cost and eliminating breakage of the valve plate during rivet caulking. It is an object of the present invention to provide a valve assembly of a hermetic compressor having a grooved valve plate made of steel sheet material in which no leakage of compressed gas occurs in the cylinder.

In addition, it is another object to provide a valve assembly that can form a coupling protrusion on the lower surface of the valve plate in contact with the intake valve, to reduce the compression loss by integrating the valve plate and the intake valve without using a separate guide pin.

According to an aspect of the present invention, there is provided a valve assembly of a hermetic compressor, comprising: a valve plate formed with a suction hole penetrating through a central portion thereof, and a recessed portion having a discharge hole penetrated therebetween; A discharge valve provided inside the recess to open and close the discharge hole; A valve spring provided inside the recess to restrain the opening of the discharge valve so as to be positioned above the discharge valve; And a stopper provided inside the recess to fix the discharge valve and the valve spring to be positioned above the valve spring, and one side of which is fixed to the bottom surface of the recess by rivets. The plate is made of an iron plate material, it is characterized in that it is produced by pressing and punching processing without the need for polishing.

As described above, the valve assembly of the hermetic compressor including the grooved valve plate of the iron plate material according to the present invention includes a groove plate valve plate of the iron plate material produced by press working and punching process, By supporting the discharge valve and the valve spring provided in the groove part with a stopper and fixing it using a rivet, and forming a coupling protrusion on the lower surface of the valve plate, the assembling process is convenient and there is no breakage deformation during rivet caulking. There is no leakage, and unlike the sintering process, there is no need for complicated polishing, thereby reducing the manufacturing cost of the valve structure, thereby lowering the unit cost of the product, thereby obtaining a valve assembly of superior quality and economic efficiency.

EMBODIMENT OF THE INVENTION Hereinafter, although the Example of this invention is described in detail, this invention is not limited to a following example, unless the summary is exceeded.

Figure 2 is an exploded perspective view showing the overall configuration of the valve assembly of the hermetic compressor having the groove-type valve plate of the iron plate material according to the first embodiment of the present invention, Figure 3 is a steel plate material according to a first embodiment of the present invention Fig. 1 is a cross-sectional view showing the entire configuration of a valve assembly of a hermetic compressor having a recessed valve plate.

2 and 3, the valve assembly 100 of the hermetic compressor including the grooved valve plate of the iron plate material according to the first embodiment of the present invention is composed of the iron plate material and the suction hole 111 in the center portion thereof. The groove plate 113 through which the discharge hole 112 penetrates is formed adjacent to the suction hole 111 and inside the groove 113 of the valve plate 110. Discharge valve 120 is provided to open and close the discharge hole 112, and the inside of the groove portion 113 of the valve plate 110 to be located above the discharge valve 120 is the degree of opening of the discharge valve 120 It is provided inside the recess 113 of the valve plate 110 so as to be positioned above the valve spring 130 and the valve spring 130 to constrain the discharge valve 120 and the valve spring 130 and one side is A stop fixed to the bottom surface of the recess 113 of the valve plate 110 by rivet 150 It is configured, including 140.

Referring to each configuration of the valve assembly 100 of the hermetic compressor having the grooved valve plate of the iron plate material, the valve plate 110 is a cylinder (not shown) and discharge muffler cover in the compressor (not shown) at the edge A plurality of fastening holes 114 for fastening with each other are formed, and a suction hole 111 through which refrigerant gas inside the compressor (not shown) is sucked is formed in the center of the upper surface of the suction hole 111. A recess 113 is formed adjacent to each other, and a discharge hole 112 through which a refrigerant gas compressed by a piston (not shown) of a compressor (not shown) is discharged to a bottom surface of the recess 113. A rivet hole 115 to which the rivet 150 is cocked is formed so that the stopper 140 can be fixed.

Here, the recess 113 of the valve plate 110 is formed to increase the efficiency of the compressor (not shown), thereby reducing the amount of residual compressed gas generated during the discharge stroke through the discharge hole 112, thereby compressing the compressed gas. Decreases the rate of re-expansion.

Since the valve plate 110 is made of a steel plate material, the groove portion 113 is formed through a press process rather than a sintering process as in the prior art, and the depth of the groove portion 113 is shaped in a range of 0.5 mm or more. desirable. In addition, the suction hole 111, the discharge hole 112, the fastening hole 114 and the rivet hole 115 is formed through the punching process. As a result, it can be seen that the polishing process is not necessary as compared with the prior art by the sintering process.

The discharge valve 120, the valve spring 130, and the stopper 140 are sequentially stacked in the recess 113 of the valve plate 110, and the discharge valve 120 is a recess of the valve plate 110. 113 is provided in the upper portion of the discharge hole 112 formed inside to control the discharge of the refrigerant gas from the discharge hole 112, the valve spring 130 is discharge valve 120 in the upper portion of the discharge valve 120 Constrains the opening degree of the stopper 140 is provided on the upper portion of the valve spring 130 serves to fix the discharge valve 120 and the valve spring 130.

The stopper 140 has a through hole 141 formed at one side thereof, and is fixed to the rivet hole 115 formed at the bottom surface of the recess 113 of the valve plate 110 through the rivet 150. Through-holes 121 and 131 are also formed at one side of the 120 and the valve spring 130, respectively, and are fixed to the recess 113 of the valve plate 110 together with the stopper 140.

That is, in a state in which the discharge valve 120, the valve spring 130, and the stopper 140 are sequentially stacked on the recess 113 of the valve plate 110, the rivet 150 includes the stopper 140 and the valve spring ( 130, penetrating through the through-holes 121, 131, and 141 of the discharge valve 120 and penetrating through the rivet hole 115 formed in the recess 113 of the valve plate 110.

With this configuration, the discharge valve 120, the valve spring 130 and the stopper 140 are firmly fixed in the recess 113 of the valve plate 110 due to the fixing of the rivet 150, so that the valve safely in the compressor. It will play the role of.

In addition, the stopper 140 has a protrusion 142 formed in the longitudinal direction on the inner surface of the stopper 140 in contact with the valve spring 130 to reduce noise generated by friction with the valve spring 130. do.

That is, when the compressed gas is discharged through the discharge valve 120, the valve spring 130, which restricts the discharge valve 120 due to the opening of the discharge valve 120, contacts the inner surface of the stopper 140 to reduce friction. This is caused, and noise is generated. A protrusion 142 is formed on the inner side of the stopper 140 in the longitudinal direction to reduce the contact area with the valve spring 130, thereby reducing noise generated by friction. You can do it.

Figure 4 is a cross-sectional view showing the overall configuration of the valve assembly of the hermetic compressor provided with a groove plate valve plate of iron plate material according to a second embodiment of the present invention.

Referring to FIG. 4, the valve assembly 200 of the hermetic compressor including the grooved valve plate of the iron plate material according to the second embodiment of the present invention includes a steel plate material, the suction hole penetrates the center thereof, and the discharge hole is formed. The groove 213 through which the 212 penetrates is provided in the valve plate 210 formed adjacent to the suction hole and inside the groove 213 of the valve plate 210 to open and close the discharge hole 212. And a valve spring 230 provided inside the recess 213 of the valve plate 210 to be positioned above the discharge valve 220 and the discharge valve 220 to restrain the opening of the discharge valve 220. It is provided inside the recess 213 of the valve plate 210 so as to be positioned above the valve spring 230 to fix the discharge valve 220 and the valve spring 230, and both sides of the first rivet 250 and the second. The rivet 260 is fixed to the bottom surface of the recess 213 of the valve plate 210 It is configured to include a toppeo 240.

Here, the discharge valve 210 and the valve spring 220 of the valve assembly 200 of the hermetic compressor having the grooved valve plate of the iron plate material according to the second embodiment of the present invention are described with reference to FIGS. 2 and 3. Same as the configuration.

In the second embodiment, the first through hole 241 and the second through hole 242 are formed at both sides of the stopper 240, respectively, and the first through hole 241 and the second through hole 242 are formed on the surface corresponding to the recess 213 of the valve plate 210. The first rivet hole 215 and the second rivet hole 216 are formed, and the discharge valve 220, the valve spring 230, and the stopper 240 are sequentially stacked on the recess 213 of the valve plate 210. The first rivet 250 passes through the first through hole 241 of the stopper 240, the through hole 221 and 231 of the valve spring 230, and the discharge valve 220, and the yaw of the valve plate 210. Caulked through the first rivet hole 215 formed in the groove 113, the second rivet 260 penetrates through the second through hole 242 of the stopper 240 to the groove portion of the valve plate 210 ( Caulked through the second rivet hole 216 formed in the 213.

Figure 5 is an exploded perspective view showing the entire configuration of the valve assembly of the hermetic compressor having the grooved valve plate of the iron plate material according to a third embodiment of the present invention, Figure 6 is a steel plate material according to a third embodiment of the present invention A cross-sectional view showing the overall configuration of a valve assembly of a hermetic compressor having a recessed valve plate of the present invention.

5 and 6, the valve assembly 300 of the hermetic compressor including the grooved valve plate of the iron plate material according to the third embodiment of the present invention is composed of the iron plate material and has a suction hole 311 in the center thereof. The valve plate 310 and the groove 313 of the valve plate 310 are formed in the through hole and the groove 313 through which the discharge hole 312 penetrates is formed adjacent to the suction hole 311. Is provided in the discharge valve 320 to open and close the discharge hole 312 and the recess 313 of the valve plate 310 to be positioned above the discharge valve 320 to open the discharge valve 320. It is provided on the upper surface of the valve plate 310 that is outside the groove to cover the groove 313 of the valve plate 310 at the upper portion of the valve spring 330 and the valve spring 330 to restrict the degree formed bent inwardly Protruding portion 343 fixes the discharge valve 320 and the valve spring 330 and one side By a rivet 350 it is configured to include a stopper 340 fixed to the upper surface of the valve plate 310.

In the third embodiment, the rivet hole 315 is formed on one side of the upper surface of the valve plate 310 adjacent to the recess 313 of the valve plate 310, and the stopper 340 is formed in the yaw of the valve plate 310. It is provided to cover the groove 313 is fixed to the rivet 350 on one side of the upper surface of the valve plate (310).

The discharge valve 320 and the valve spring 330 are sequentially stacked in the recess 313 of the valve plate 310 and fixed by the stopper 340.

The stopper 340 has a through hole 341 through which the rivet 350 penetrates at one side thereof, and a protrusion 343 for fixing the discharge valve 320 and the valve spring 330 is formed. 343 is formed by bending one side of the stopper 340 to the bottom, the support protrusion 344 is formed on the inner surface of the protrusion 343.

That is, the stopper 340 covers the recess 313 of the valve plate 310 in a state in which the discharge valve 320 and the valve spring 330 are sequentially stacked on the recess 313 of the valve plate 310. The rivet 350 penetrates the through hole 341 of the stopper 340 and is caulked through the rivet hole 315 on one side of the upper surface of the valve plate 310, and the protrusion 343 of the stopper 340. Support protrusions 344 formed in the ()) presses and fixes one side of the discharge valve 320 and the valve spring 330 provided in the recess 313 of the valve plate 310.

In this configuration, the discharge valve 320, the valve spring 330 is firmly fixed in the recess 313 of the valve plate 310 through the support protrusion 344 of the stopper 340, the stopper 340 Is not deformed in the groove 313 because the cocked by the rivet 350 on the upper surface of the valve plate 310 instead of the groove 313 of the valve plate 310, the stopper 340 is firmly fixed to the compressor It will act as a valve safely within.

In addition, the stopper 340 also has a protrusion 342 formed on the inner surface of the stopper 340 in the same manner as in the first embodiment, so that the contact area with the valve spring 330 is reduced to operate the discharge valve 320. Noise can be reduced.

7 is a cross-sectional view showing the entire configuration of a valve assembly of a hermetic compressor having a groove plate valve plate of a steel sheet material according to a fourth embodiment of the present invention.

Referring to FIG. 7, the valve assembly 400 of the hermetic compressor including the grooved valve plate of the iron plate material according to the fourth embodiment of the present invention is formed of a steel plate material and a suction hole (not shown) penetrates the center portion thereof. And a groove 413 in which a discharge hole 412 is formed and is formed adjacent to a suction hole (not shown), and inside the groove 413 of the valve plate 410. A discharge valve 420 provided to open and close the discharge hole 412, and an opening degree of the discharge valve 420 provided inside the recess 413 of the valve plate 410 so as to be positioned above the discharge valve 420. Protruding portion formed on the upper surface of the valve plate 410 that is outside the groove portion to cover the groove portion 413 of the valve plate 410 on the valve spring 430 and the valve spring 430 to be constrained and bent inwardly 443 secures the discharge valve 420 and the valve spring 430, By a first rivet 450 and a second rivet 460 is configured to include a stopper 440 fixed to the upper surface of the valve plate 410.

Here, the discharge valve 420 and the valve spring 430 of the valve assembly 400 of the hermetic compressor including the grooved valve plate of the iron plate material according to the fourth embodiment of the present invention are described with reference to FIGS. 5 and 6. Same as the configuration.

In the fourth embodiment, the first through hole 441 and the second through hole 442 are formed at both sides of the stopper 440, respectively, and are formed at both sides of the upper surface of the groove 413 of the valve plate 410, respectively. Each of the first rivet holes 415 and the second rivet holes 416 are formed, and the discharge valve 420 and the valve spring 430 are sequentially stacked in the recess 413 of the valve plate 410. A stopper 440 is provided on the upper surface of the valve plate 410 so as to cover the recess 413 of the valve plate 410, and the first rivet 450 and the second rivet 460 are respectively formed of the stopper 440. The first rivet hole 415 and the second rivet hole 416 of the valve plate 410 corresponding to penetrate through the first through hole 441 and the second through hole 442, the stopper 440 of the The support protrusion 444 formed on the protrusion 443 presses and fixes one side of the discharge valve 420 and the valve spring 430 provided in the recess 413 of the valve plate 410.

8 is a view showing a grooved valve plate and a coupling state in which a coupling protrusion according to a fifth embodiment of the present invention is formed.

As shown, a plurality of grooves 510 and 520 are formed on the upper surface of the valve plate provided with the recess, and the lower surface of the valve plate coupled to the suction valve corresponds to the plurality of grooves on the upper surface. A plurality of coupling protrusions 530 and 540 are formed, respectively.

The coupling protrusions 530 and 540 have a function of fixing the valve plate integrally with the suction valve 550 and the suction gasket 580. Such an integral coupling structure is conventionally coupled using a separate guide pin. Compared to the above, the assembly performance is improved, and the positions of the suction valve and the suction gasket are aligned to have uniform behavior of the suction valve.

As described above, the valve assembly of the hermetic compressor including the grooved valve plate of the iron plate material according to the present invention includes a valve plate of the groove plate material of the iron plate material produced by press working and punching processing, and the like. By supporting the discharge valve and the valve spring provided in the groove portion of the groove with a stopper and fixing it using rivets, the assembling process is convenient, there is no breakage deformation during rivet caulking, and no leakage of compressed gas occurs. By eliminating the complicated grinding process, the manufacturing cost of the valve structure is reduced, thereby lowering the unit cost of the product, thereby obtaining a valve assembly of superior quality and economic efficiency.

As those skilled in the art to which the present invention pertains, the present invention may be modified in various ways without departing from the spirit of the present invention. .

1 is a view showing the structure of a conventional hermetic refrigeration compressor and a conventional valve assembly

Figure 2 is an exploded perspective view showing the overall configuration of the valve assembly of the hermetic compressor having the grooved valve plate of the iron plate material according to the first embodiment of the present invention

Figure 3 is a cross-sectional view showing the overall configuration of the valve assembly of the hermetic compressor having the grooved valve plate of the iron plate material according to the first embodiment of the present invention

Figure 4 is a cross-sectional view showing the overall configuration of the valve assembly of the hermetic compressor having the grooved valve plate of the iron plate material according to a second embodiment of the present invention

5 is an exploded perspective view showing the entire configuration of a valve assembly of a hermetic compressor including a grooved valve plate of a steel sheet material according to a third embodiment of the present invention.

Figure 6 is a cross-sectional view showing the overall configuration of the valve assembly of the hermetic compressor having a grooved valve plate of the iron plate material according to a third embodiment of the present invention

7 is a cross-sectional view showing the overall configuration of the valve assembly of the hermetic compressor having the grooved valve plate of the iron plate material according to a fourth embodiment of the present invention

8 is a view showing a grooved valve plate and a coupling state in which a coupling protrusion according to a fifth embodiment of the present invention is formed;

<Explanation of symbols for the main parts of the drawings>

110, 210, 310, 410: valve plate 111, 311: suction hole

112, 212, 312, 412: discharge holes 113, 213, 313, 413: grooves

114, 314: Fastener 115, 315: Rivet Ball

215, 415: first rivet ball 216, 416: second rivet ball

120, 220, 320, 420: discharge valve 130, 230, 330, 430: valve spring

140. 240, 340, 440: Stoppers 141, 341: Through holes

141 and 341: first through hole 241 and 441: first through hole

242, 442: second through hole 142, 342: protrusion

343, 443: protrusion 344, 444: support protrusion

150, 350 rivet 250, 450: first rivet

260, 460: second rivet

Claims (9)

In a valve assembly of a hermetic compressor, A valve plate which is manufactured by pressing and punching a steel plate material, the suction hole penetrates a central portion thereof, and a recess portion through which the discharge hole penetrates is formed adjacent to the suction hole; A discharge valve provided inside the recess to open and close the discharge hole; A valve spring provided inside the groove to restrain the opening of the discharge valve so as to be positioned above the discharge valve; And It is fixed to the valve plate to fix the discharge valve and the valve spring, the inner surface in contact with the valve spring, a stopper having a projection formed in the longitudinal direction to reduce the contact area with the valve spring; The bottom surface of the valve plate is a closed type provided with a groove plate valve plate of the iron plate material, characterized in that a plurality of engaging projections for guiding the coupling position of the suction valve and the suction gasket which is coupled to the valve plate is formed integrally by press working. Valve assembly of the compressor. The method of claim 1, One side of the stopper is a valve assembly of the hermetic compressor having a groove plate valve plate made of iron plate material, characterized in that fixed to one side of the groove portion of the valve plate together with the discharge valve and the valve spring. The method of claim 1, One side of the stopper is fixed to one side of the groove portion of the valve plate by the first rivet together with the discharge valve and the valve spring, the other side of the stopper is fixed to the other side of the groove portion by the second rivet A valve assembly of a hermetic compressor having a grooved valve plate of iron plate material. The method of claim 1, One side of the stopper is fixed to the upper surface of the valve plate by rivets, and the stopper is formed with a protrusion having a support protrusion for fixing one side of the discharge valve and the valve spring located in the groove portion is formed bent inwardly. A valve assembly of a hermetic compressor comprising a grooved valve plate of an iron plate material. 5. The method of claim 4, The other side of the stopper is a valve assembly of the hermetic compressor provided with a grooved valve plate of the iron plate material, characterized in that fixed to the other side of the upper surface of the valve plate by a second rivet. 6. The method according to any one of claims 1 to 5, The groove of the valve plate is a valve assembly of a hermetic compressor having a groove plate valve plate of iron plate material, characterized in that formed in a depth of 0.5mm or more by pressing. delete delete delete

Images