KR100578374B1 - A valve apparatus for hermetic compressor - Google Patents

Abstract

The present invention relates to a valve device of a hermetic compressor. According to the present invention, the valve plate 30 having the discharge hole 32 communicating with the inside of the compression chamber 22 is formed, and the working fluid discharged through the discharge hole 32 by being coupled to the valve plate 30 is temporarily provided. The head cover 40 which forms the discharge chamber 40 'which stays in the furnace, and the fixed part 37 which is fixed to the valve plate 30 by the head cover 40 at one end, and the opening part 36 which is the other end are fixed, A discharge valve 35 for opening and closing the discharge hole 32 and a fixing part 51, one end of which is fixed to the inside of the head cover 40, and the other end of the discharge valve 35 is fixed to the opening and closing part 36 of the discharge valve 35. It is configured to include a valve spring (50) for selectively contacting to control the behavior of the discharge valve (35). According to the present invention as described above, the valve spring is more reliably controlled to control the opening degree of the discharge valve, thereby minimizing flow loss, increasing durability of the valve spring, and minimizing the number of parts of the valve assembly.

Hermetic compressors, valves, valve springs, flow loss

Description

A valve apparatus for hermetic compressor

1 is a cross-sectional view showing the internal configuration of a conventional hermetic compressor according to the prior art.

Figure 2a is a cross-sectional view showing a valve device and related parts of the hermetic compressor according to the prior art.

Figure 2b is a cross-sectional view showing a valve device and related parts of another hermetic compressor according to the prior art.

Figure 3 is a cross-sectional view showing the configuration of a preferred embodiment of the valve device of the hermetic compressor according to the present invention.

4 is an operational state diagram showing that the embodiment of the present invention is operated.

Explanation of symbols on the main parts of the drawings

1: 1t sealed container: upper container

2: frame 2S: spring

3: stator 4: rotor

5: crankshaft 6: cylinder

6 ': compression chamber 7: piston

8: Connecting Rod 9: Valve Assembly

10: Head cover 11: suction muffler

12: suction pipe 13: discharge pipe

20: cylinder 22: compression chamber

24: piston 30: valve plate

32: discharge hole 33: protrusion end

35: discharge valve 36: opening and closing portion

37: fixing part 40: head cover

40 ': discharge chamber 42: gasket

43: fixed structure 50: valve spring

51: fixed portion 52: inclined portion

53: tip bending portion

The present invention relates to a hermetic compressor, and more particularly to a valve device for controlling the flow of the working fluid into and out of the compression chamber.

1 shows an internal configuration of a hermetic compressor according to the prior art. According to this, the closed container 1 which consists of the upper container 1t and the lower container 1b comprises an external appearance. Inside the sealed container 1 is formed a sealed space in which various components to be described below are installed. The frame 2 is installed inside the sealed container 1. The stator 3 is fixed to the frame 2, and the frame 2 is supported inside the sealed container 1 by a spring 2S.

The crankshaft 5 is provided through the center of the frame 2. The crankshaft 5 is integrally provided with a rotor 4 and rotated together with the crankshaft 5 by electromagnetic interaction with the stator 3.

An eccentric pin 5b is formed on the upper end of the crankshaft 5 so as to be eccentric with respect to the rotation center of the crankshaft 5. A counterweight 5c is formed on the opposite side to which the eccentric pin 5b is formed, and the crankshaft 5 is rotatably supported by the frame 2.

An oil passage 5a is formed inside the crankshaft 5. The oil L provided on the bottom surface of the sealed container 1 is guided through the oil passage 5a to be delivered to the upper portion of the frame 2 and scattered. In addition, a pumping mechanism 5d for pumping the oil L to the oil passage 5a is installed at the lower end of the crankshaft 5.

On the other hand, the cylinder 6 provided with the compression chamber 6 'inside is integrally molded with the said frame 2. As shown in FIG. In the compression chamber 6 ′, a piston 7 connected to the eccentric pin 5b of the crankshaft 5 and the connecting rod 8 is provided. At the front end of the cylinder 6, a valve assembly 9 for controlling the refrigerant flowing into and out of the compression chamber 6 'is installed. The head cover 10 is mounted on the valve assembly 9, and the head cover 10 is connected to the valve assembly 9 so that the suction muffler 11 can transfer refrigerant to the compression chamber 6 ′. It is installed.

On the other hand, with reference to Figure 2a will be described the main configuration of the valve assembly (9). A valve plate 9p is provided at the tip of the cylinder 6. The valve plate 9p is provided with a seating groove 9g in which a configuration for controlling discharge of the refrigerant compressed in the compression chamber 6 'is discharged. In addition, a discharge port 9e is formed to penetrate one side of the valve plate 9p. The valve seat 9t is formed at the edge of the discharge port 9e relatively higher than the periphery. Of course, although not shown in the drawings, the other side of the valve plate 9p has a suction port formed therethrough.

The seating groove 9g is provided with a discharge valve 9v for opening and closing the discharge port 9e. The distal end of the discharge valve 9v is installed at a position corresponding to the discharge port 9e, and opens and closes 9v 'for opening and closing the discharge port 9e, and the other end is pressed and fixed by the retainer 9r to be described below. It is a fixing part 9m.

And a valve spring (9s) is provided so as to overlap with the discharge valve (9v). The tip end of the valve spring 9s serves to control the swing of the discharge valve 9v. The other end of the valve spring 9s is a fixed portion that is pressed and fixed by the retainer 9r, and is fixed together with the fixed portion 9m of the discharge valve 9v.

A retainer 9r is seated in the seating groove 9g to fix the upper portion of the discharge valve 9v and the valve spring 9s. A portion of the upper portion of the inner surface of the retainer 9r that corresponds to the front end of the valve spring 9s is formed as a restricting portion 9r 'and lower than other portions to regulate the fluctuation of the valve spring 9s. The valve assembly described here is only the main portion thereof. Reference numeral 10g is a gasket.

In this conventional technique, the valve spring 9s controls the behavior of the discharge valve 9v. When the working fluid is discharged, the discharge valve 9v opens well to minimize flow loss and to return quickly. By closing the discharge port (9e) to prevent the back flow occurs.

However, in the valve device having the above-described configuration, the discharge valve 9v and the valve spring 9s are fixed to the same side, which causes the valve spring 9s to hinder the flow of the working fluid. That is, since the discharge valve 9v and the valve spring 9s open in the same direction, the discharge valve 9v is inclined above the discharge port 9e when opened. Therefore, the flow of the working fluid from the discharge port 9e does not become constant throughout.

In order to solve this problem, a valve assembly as shown in FIG. 2B is proposed. Reference numerals are given here as in FIG. 2A. Here, the valve spring 9s is fixed by the retainer 9r on the opposite side to the direction of the discharge valve 9v. At the front end of the valve spring 9s, a pressing part 9s 'for controlling the behavior of the opening and closing part 9v' of the discharge valve 9v is provided. The pressing portion 9s' is bent and formed so as to face a portion where the valve spring 9s is fixed at the tip of the valve spring 9s.

However, in the valve assembly having such a configuration, the pressing portion 9s' of the valve spring 9s receives a repeated load, and thus a portion of the valve spring 9s connected to the front end of the valve spring 9s is fatigue-broken.

Since the valve spring 9s is fixed at the same height as the height at which the discharge valve 9v is fixed, the opening / closing portion 9v 'of the discharge valve 9v is opened during the opening operation even in such a configuration. There is a flow loss because the upper part of the discharge port 9e is not located at the same height as a whole.

In addition, in the related arts, since the discharge valve 9v and the valve spring 9s must be simultaneously positioned in the seating groove 9g of the valve plate 9p, the retainer 9r must be used. Therefore, there is a problem in that the number of parts of the valve assembly as a whole.

Therefore, an object of the present invention is to solve the conventional problems as described above, to facilitate the opening and closing operation of the valve in the hermetic compressor.

Another object of the present invention is to increase the durability of the valve spring for controlling the behavior of the valve in a hermetic compressor.

Another object of the present invention is to minimize the number of parts of the valve assembly constituting the hermetic compressor.

According to a feature of the present invention for achieving the above object, the present invention is a valve plate which is formed with a discharge hole communicating with the interior of the compression chamber, the working fluid discharged through the discharge hole coupled to the valve plate temporarily stays A head cover forming a discharge chamber, a fixed portion at one end thereof is fixed to the valve plate, an opening and closing portion at the other end thereof, and a discharge valve for opening and closing the discharge hole, and a fixed portion at one end inside the head cover. The other end is configured to include a valve spring for selectively contacting the opening and closing of the discharge valve to control the behavior of the discharge valve, the valve spring is provided with a fixed portion fixed to the head cover at one end thereof, the fixed portion In the inclined portion is formed to be inclined toward the discharge valve in the end, the inclined portion at the end of the inclined portion Inclined direction against the distal end and the bent portion is formed, is the inclined portion and the tip end portion of the bent portion meet is optionally brought into contact with the opening and closing of the discharge valves.

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The fixed portion of the valve spring is spaced apart from the fixed portion of the discharge valve by a predetermined distance in the opening direction of the discharge valve, and the tip of the valve spring is also spaced apart from the position selectively contacting the opening and closing portion of the discharge valve. It is provided.

According to such a configuration, since the valve spring controls the opening degree of the discharge valve more reliably, the flow loss can be minimized, the durability of the valve spring can be improved, and the number of parts of the valve assembly can be minimized.

Hereinafter, a preferred embodiment of a valve device of a hermetic compressor according to the present invention will be described in detail with reference to the accompanying drawings.

3 is a sectional view showing a valve device and a peripheral configuration thereof of the hermetic compressor according to the present invention. According to this, the compression chamber 22 is formed in the cylinder 20 provided in the frame. The piston 24 is installed in the compression chamber 22 so as to be capable of linear reciprocating movement. The piston 24 serves to compress the working fluid in the compression chamber 22.

The valve plate 30 is installed at the tip of the cylinder 20 to shield the compression chamber 22. A discharge hole 32 penetrates through the valve plate 30. The discharge hole 32 is a portion in which the working fluid compressed in the compression chamber 22 is discharged to the outside of the compression chamber 22.

A protruding end 33 is formed surrounding the outlet edge of the discharge hole 32. The protruding end 33 is a portion formed to protrude relatively more than the surface of the valve plate 30 at the edge of the discharge hole 32. The valve plate 30 is also provided with a suction hole (not shown) through which the working fluid is sucked into the compression chamber 22. In addition, the valve plate 30 is provided with a guide 34 at the edge thereof so that the protruding end 33 protrudes at about the same height. The holder 34 is a part in which the fixing part 37 of the discharge valve 35 to be described below is seated.

The valve plate 30 is provided with a discharge valve 35 for selectively opening and closing the discharge hole (32). The discharge valve 35 is formed longer than the width, the opening and closing portion 36 for opening and closing the discharge hole 32 is provided at the front end. The opening and closing part 36 has a diameter larger than the diameter of the discharge hole 32, and its shape and area are determined so that an edge is seated on the protruding end 33. The fixing part 37 is provided on the opposite side of the opening and closing part 36 of the discharge valve 35. The fixing part 37 is a part seated on the fixing table 34, and is pressed by the head cover 40 to be described below to fix the discharge valve 35. For reference, the surface of the valve plate 30 on which the discharge valve 35 is installed may be formed such that a predetermined region including the discharge hole 32 is relatively recessed.

In the present embodiment, the discharge valve 35 is fixed to the valve plate 30 by the head cover 40. Of course, this is not necessarily the case, it is also possible to fix the discharge valve 35 by forming a structure on the valve plate 30 itself. The head cover 40 cooperates with the valve plate 30 to form a discharge chamber 40 '. The discharge chamber 40 'is a portion where the working fluid compressed and discharged from the compression chamber 22 temporarily stays.

The head cover 40 is coupled to the valve plate 30 with the gasket 42 interposed therebetween. The gasket 42 serves to prevent leakage between the head cover 40 and the valve plate 30 and to press the fixing part 37 of the discharge valve 35 more securely.

The head cover 40 is provided with a fixing structure 43 for fixing the valve spring 50 to be described below. The fixing structure 43 may be any type as long as it can fix the valve spring 50. Examples of the fixing structure 43 include a fixing rib or a welding part. The position where the fixing structure 43 is provided is an inner surface of the head cover 40, which is relatively higher than the position where the fixing portion 37 of the discharge valve 35 is seated (based on the drawing). . In other words, the fixing portion 51 of the valve spring 50 is spaced apart from the fixing portion 37 of the discharge valve 35 in the direction in which the opening / closing portion 36 of the discharge valve 35 is opened. Is provided. And, more preferably, the fixing portion 51 is provided at a position higher than the height of the opening and closing portion 36 when the discharge valve 35 is opened.

The valve spring 50 is fixedly installed at one side of the inner surface of the head cover 40. The fixing part 51, which is one end of the valve spring 50, is fixed by the fixing structure 43 of the head cover 40. An inclined portion 52 is provided to extend from the fixing portion 51. The inclined portion 52 extends inclined toward the discharge valve 35. A tip bent part 53 is provided at the tip of the inclined part 52. The tip bent portion 53 is formed to have an inclination in a direction opposite to the inclined portion 52. That is, the valve spring 50 is formed to be inclined toward the front upper portion (based on the drawing).

As such, the valve spring 50 has a spring constant k set by the angle formed by the inclined portion 52 and the tip bent portion 53 and the thickness thereof. By varying these values, the valve spring 50 is designed to fit the respective compressor capacity.

The portion where the tip of the inclined portion 52 and the tip bent portion 53 meet is substantially the portion in contact with the tip of the discharge valve 35. For convenience, a portion of the discharge valve 35 that contacts the opening / closing portion 36 is referred to as the front end of the valve spring 50. The valve spring 50 has a tip thereof selectively contacts the tip of the discharge valve 35 to control the opening and closing operation of the discharge valve 35.

Hereinafter, the operation of the valve device of the hermetic compressor according to the present invention as described above will be described.

First, it will be described that the discharge valve 35, the head cover 40 and the valve spring 50, etc. are assembled in the present invention. The opening and closing portion 36 of the discharge valve 35 is seated on the protruding end 33 to shield the discharge hole 32 on the valve plate 30, and the fixing part 37 is a valve plate ( 20) to rest on the mounting table 34.

In addition, the head cover 40 to which the valve spring 50 is fixed by the fixing structure 43 is coupled to the valve plate 30. The head cover 40 is coupled to the valve plate 30 by a plurality of bolts passing through respective edges of the valve plate 30 and the head cover 40. The bolt that couples the valve plate 30 and the head cover 40 is coupled to the cylinder 20 so that the components constituting the valve device are coupled to the cylinder 20 at the same time.

When the assembly is completed as described above, the valve spring 50 is the end thereof is in the top (opening reference to the opening) 36 of the tip of the discharge valve 35. That is, in the state in which the discharge valve 35 closes the discharge hole 32, the tip of the valve spring 50 is positioned above the opening / closing portion 36 of the discharge valve 35.

When the discharge valve 35 is opened, as shown in FIG. 4, the tip of the valve spring 50 contacts the opening / closing portion 36 to control the degree of opening of the discharge valve 35. The discharge valve 35 can be quickly operated in the direction of closing the discharge hole (32).

Now, operation of the valve device of the present invention will be described. When the piston 24 moves to the top dead center within the compression chamber 22, the compression of the working fluid is completed. Accordingly, the discharge valve 35 is opened while the pressure inside the compression chamber 22 is higher than the pressure inside the discharge chamber 40 '.

When the discharge valve 35 is opened, the compressed working fluid inside the compression chamber 22 is discharged to the discharge chamber 40 '. The working fluid discharged to the discharge chamber 40 'flows out of the compressor through a discharge silencer (not shown).

At this time, the opening degree of the discharge valve 35 is controlled by the valve spring (50). In addition, the valve spring 50 provides an elastic force to the discharge valve 35 as shown in FIG. 4 so that the opening and closing portion 36 closes the discharge hole 32 quickly.

Meanwhile, in addition to the elastic force provided by the valve spring 50, when the piston 24 moves toward the bottom dead center, the pressure inside the compression chamber 22 is lower than the pressure inside the discharge chamber 40 '. The opening / closing portion 36 of the discharge valve 35 closes the discharge hole 32. At this time, the working fluid is sucked into the compression chamber 22 through the suction hole. The working fluid sucked in this way is compressed while the piston 24 moves to the top dead center, and is subjected to the above-described process.

In this process, the valve spring 50 is the front end thereof to support the opening and closing portion 36 of the discharge valve 35. In particular, the front end of the valve spring 50, as shown in Figure 4, when the opening and closing portion 36 of the discharge valve 35 opens the discharge hole 32, the outlet of the discharge hole 32 The whole opening / closing part 36 is made to be substantially parallel with respect to the whole. Therefore, the flow loss of the working fluid discharged from the discharge hole 32 is minimized, and the working fluid can be uniformly discharged through the entire discharge hole 32.

In addition, in the present invention, the fixing portion 51 of the valve spring 50 is at a position higher than its tip. The tip of the valve spring 50 is also at a higher position than the fixed portion 37 of the discharge valve 35. Accordingly, the valve spring 50 can accurately control the opening and closing portion 36 without disturbing the opening and closing operation of the discharge valve 35.

The rights of the present invention are not limited to the embodiments described above, but are defined by the claims, and those skilled in the art can make various modifications and adaptations within the scope of the claims. It is self-evident.

In the valve device of the hermetic compressor according to the present invention as described in detail above, the following effects can be obtained.

First, according to the present invention, when the opening and closing portion of the discharge valve is opened substantially horizontally on the upper portion of the discharge hole it is possible to obtain the effect of minimizing the flow loss of the working fluid through the discharge hole.

Further, in the present invention, the valve spring for controlling the opening and closing operation of the discharge valve is installed at a position higher than the tip of the discharge valve, and the tip controls the operation of the discharge valve, so that the durability of the valve spring is relatively increased. have.

Lastly, in the present invention, the valve spring is fixed to the head cover and the discharge valve is fixed by coupling the head cover to the valve plate. Therefore, it is possible to minimize the number of parts constituting the valve device relatively.

Claims (3)

A valve plate having a discharge hole communicating with the inside of the compression chamber, A head cover coupled to the valve plate to form a discharge chamber in which the working fluid discharged through the discharge hole temporarily stays; A discharge valve for fixing one end portion to the valve plate by the head cover and an opening and closing portion at the other end to open and close the discharge hole; A fixed spring, one end of which is fixed to the inside of the head cover, and the other end of which includes a valve spring for selectively contacting the opening and closing portion of the discharge valve to control the behavior of the discharge valve, The valve spring has a fixed portion fixed to the head cover at one end thereof, the inclined portion is formed to be inclined toward the discharge valve from the fixed portion, the inclined portion is inclined in the opposite direction to the inclined portion at the end of the inclined portion A bent part is formed, the valve unit of the hermetic compressor characterized in that the portion where the inclined portion and the tip bent portion is in contact with the opening and closing portion of the discharge valve. delete According to claim 1, wherein the fixed portion of the valve spring, when compared with the fixed portion of the discharge valve, the position is spaced apart a predetermined distance in the opening direction of the discharge valve and the front end of the valve spring is also selective to the opening and closing portion of the discharge valve Valve device of a hermetic compressor, characterized in that spaced in contact with the position provided.

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