JP2002195160A - Hermetic electric compressor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent variation of energy efficiency and noise due to continuous use for a long period in a discharge valve device and to reduce loss at opening and closing moments of an discharge reed. SOLUTION: This sealed electric compressor comprises: a valve plate; a recessed portion formed on a valve plate at an opposite side to a cylinder; an outlet hole provided with a discharge valve seat placed on the recessed portion; a valve holding portion arranged on the same plane as the discharge valve seat placed on the recessed portion; the discharge reed provided with a cap opening and closing an opening of the outlet hole; and a spring lead placed on the discharge reed at an opposite side to the valve plate; and a stopper placed on the spring lead at an opposite side to the discharge reed. The spring lead is arranged to have a gap to the discharge reed cap. The stopper has at least two approximately parallel portions on different levels to a plane including the discharge valve seat and a valve holding portion.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to relates to hermetic electric compressor used in a refrigerator or the like, more particularly, to improve the discharge valve device provided in the discharge passage of the refrigerant gas.

[0002]

2. Description of the Related Art In recent years, hermetic electric compressors used for cooling systems of electric refrigerators and the like are required to have high durability, to improve energy efficiency and to reduce noise due to operation.

A conventional hermetic electric compressor is disclosed in, for example,
There is one disclosed in JP-A-137779. Hereinafter, an example of the above-mentioned conventional hermetic electric compressor will be described with reference to the drawings. FIG. 4 is a sectional view of a discharge valve device in a conventional hermetic electric compressor. In FIG. 4, reference numeral 32 denotes a valve plate, 33 denotes a discharge hole provided in the valve plate 32, and 34 denotes a discharge lead, which has a lid 35 for opening and closing the opening of the discharge hole. Further, 36 is spring reed 37 is a cylinder head, 38 is a cylinder head 3
A recess 39 provided in 7 is a gasket, and the discharge lead 34 and the spring lead 36 are held by the pressing force between the valve plate 32 and the cylinder head 37 via the gasket 39. Also, valve plate 3
2, the discharge valve device comprising a cylinder head 37 or the like is fastened by a bolt or the like to the cylinder end. In this hermetic electric compressor, the spatial height at a position corresponding to the discharge lead cover 35 between the spring lead 36 and the cylinder head 37 is adjusted by the depth of the recess 38 provided in the cylinder head 37. Therefore, it has been proposed that the height of the space can be adjusted without increasing the thickness of the gasket 39.

[0004]

However, in the above conventional structure, the fulcrum of the discharge lead and the spring lead is held by being pressed and deformed by the cylinder head via a gasket made of an elastic member.
The pressure holding force between the cylinder head and the plate gasket changes due to the deterioration of the elastic member caused by continuous use for a long period of time and the loosening of bolts and the like as fastening means to the cylinder. It was uncertain about keeping the gap height constant for a long time. Also, since the discharge lead and the spring lead are held by being covered by the cylinder head, after the holding, the height of the space between the discharge lead and the cylinder head relative to the position corresponding to the lid of the discharge lead of the spring lead is maintained. There has been a problem that it is not possible to perform a confirmation inspection and a confirmation inspection on whether or not the discharge lead and the spring lead are set to operate normally in the discharge valve device alone. Regarding this problem, in recent years, while refrigerants with low environmental impact have been actively adopted, when parts are shared between HFC134a and R600a, which are refrigerants having greatly different compression ratios, it is necessary to match the refrigerants with each other. It is difficult to achieve high energy efficiency without optimizing each part, and the discharge valve device also manages the spatial distance between the spring lead and the discharge lead and the stopper, and obtains the maximum value of energy efficiency for each refrigerant it is necessary also to check after the discharge valve device assembly as had immediate resolution is required.

Further, when the opening amount of the discharge lead is regulated by the spring lead, noise is likely to be generated because the contact angle between the free end of the discharge lead and the side opposite to the valve holding portion and the spring lead is large. Had.

The present invention simultaneously solves the above-mentioned problems of the conventional hermetic electric compressor, in which the operating noise is low, the durability and the energy efficiency are high, and parts are shared with refrigerants having different compression ratios. It is an object of the present invention to provide a hermetic electric compressor that can perform the operation.

[0007]

According to a first aspect of the present invention, there is provided a motor-driven element and a compression element having a cylinder in a closed container, and a valve plate attached to an open end of the cylinder; A recess formed on the side opposite to the cylinder of the plate, a discharge hole provided with a discharge valve seat provided in the recess, and a valve holding portion provided in the recess and arranged on the same plane as the discharge valve seat. A discharge lead having a lid disposed in the recess to open and close the opening of the discharge hole,
A discharge lead device comprising a spring lead disposed on a side of the discharge lead opposite to the valve plate and a stopper disposed on a side of the spring lead opposite to the discharge lead; The stopper is disposed so as to have a gap, and the stopper has at least two substantially parallel portions on the valve plate side with respect to a plane including the discharge valve seat and the valve holding portion, and at a position corresponding to the discharge lead lid portion, arranged to have a gap with respect to the spring lead, the discharge reed, said spring reed, said stopper, said valve plate is characterized in that the securing in the valve holding portion,
By securing a space height at the free ends of the discharge lead and the spring lead, a pressure loss when the discharge lead is opened is prevented, and the opening amount of the discharge lead is regulated by adjusting the space height of the spring lead. be able to. In addition to these, by providing substantially parallel portions of two or more with respect to the plane including the discharge valve seat and the valve holding portion stopper, the space height can be easily managed for discharge reed of the stopper, and at the same time By fastening the valve plate, the discharge lead, the spring lead, and the stopper, the discharge valve device can be inspected by itself.

[0008] The invention described in claim 2 of the present invention is claimed in claim 1.
According to the invention described above, the spring reed has at least one bent portion, and has a slope with respect to a plane including the discharge valve seat and the valve holding portion at a position corresponding to the discharge reed lid, Prevents the spring lead from coming into line or surface contact with the discharge lead when the discharge lead is opened, and reduces the adhesive resistance due to the refrigerating machine oil between the spring lead and the discharge lead by making point contact, thereby delaying the closing of the discharge lead. At the same time, the contact angle between the free end of the discharge lead and the spring lead when the discharge lead collides with the spring lead to regulate the opening amount can be kept small, and the impact load can be reduced. Occurrence can be reduced. Also, by adjusting the bending position of the spring lead and the load required for bending, the spatial height at the free ends of the spring lead, the discharge lead and the stopper can be easily adjusted. This also has the effect that the discharge valve device can be easily shared.

The third aspect of the present invention is the first aspect of the present invention.
Or the distance A between the end of the spring lead and the discharge lead opposite to the valve holding portion is the distance B between the stopper and the end of the discharge lead opposite to the valve holding portion.
Against A / B = is characterized in that 0.3 to 0.9 is proper opening amount while preventing a delay of opening of the discharge reed by managing the A / B within this range In order to reduce the delay in closing the discharge lead by using the spring force of the spring lead, the energy efficiency of the compressor can be increased.

The fourth aspect of the present invention is the first aspect of the present invention.
Alternatively, in the invention described in 2 or 3, since the stopper, the spring lead, and the discharge lead are fixed by caulking with a rivet in the valve holding portion, loosening of the fixation due to long-term use is prevented, and the durability of the discharge valve device is trusted. an effect that it is possible to improve the resistance.

[0011]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of a hermetic electric compressor according to the present invention will be described below with reference to the drawings.

FIG. 1 is a sectional view of a discharge valve device in a hermetic electric compressor according to the present invention. FIG. 2 is a sectional view of the hermetic electric compressor of the present invention.

In FIGS. 1 and 2, reference numeral 1 denotes a closed container formed of an upper container and a lower container, 2 denotes a compression element, 3 denotes an electric element, and 4 denotes refrigerating machine oil retained at the bottom of the closed container. The compression element 2 and the electric element 3 are elastically supported inside the closed container 1 via a support device 5. Reference numeral 6 denotes a refrigerant that fills the space in the closed container, and is preferably a refrigerant other than the target of specific CFCs corresponding to recent environmental problems, such as R134a or R600a.

[0014] The compression element 2 and the piston 9 reciprocates within the cylinder 8 provided in the cylinder block 7,
Suction lead 1 provided at the open end of cylinder 8
0, the valve plate assembly 11 and the suction lead 10, and a cylinder head 12 attached to the cylinder through a valve plate assembly 11. The valve plate assembly 11 includes a discharge valve device. The valve plate 15 includes a discharge hole 13 and a suction hole 14.
, The spring lead 17 and the stopper 18 are integrally formed.

FIG. 3 is an exploded view of components attached to the cylinder opening end. These suction leads 1
0, the valve plate 15, and the cylinder head 12 are fastened to the opening end of the cylinder 8 by bolts or the like. The suction reed 10 is made of a thin metal plate, and the suction reed valve 21 is formed by notch.
A notch 22 for the discharge hole is also provided. Opening of the suction hole 14 is opened and closed by the suction lead 10. The valve plate 15 is made of a sintered metal and includes a suction hole 14, a recess 23, a discharge hole 13 having a discharge valve seat 24, and a valve holding portion 25. Since the discharge hole 13 is provided in the recess 23, the compressed refrigerant remains in the discharge hole 13 and is formed with a minimum thickness that allows strength to prevent a decrease in volumetric efficiency caused by expansion at the time of suction. 1.2mm to 2mm
It has become about. Further, the valve holding portion 25 provided in the recess 23 is formed on the same plane as the discharge valve seat 24,
The ejection lead 16 is formed such that the ejection lead 16 is disposed on one plane in a state where the ejection lead 16 is attached and the ejection hole 13 is closed. The opening and closing of the opening of the discharge hole 13 is performed by a discharge lead lid 26 provided on the discharge lead 16. Further, the discharge valve seat 24 suppresses the adhesive resistance due to the refrigerating machine oil when the discharge lead 16 is opened,
The surface on the discharge lead 16 side is processed into a curved surface in order to prevent abrasion due to the impact load at the time of closing, and the surface is polished so that the contact surface with the discharge lead 16 keeps the line contact stable. Can be. In addition, the collision speed between the discharge lead 16 and the discharge valve seat 24 is about 0.2 [m / s] at the time of stable operation at an operation frequency of about 50 Hz, and about 0.5 [m / s] at about 60 Hz. Since the impact load is 1/6 or less of the impact fatigue limit, high reliability can be obtained, and the spring constant of the discharge lead 16 at the start of opening is 100 g / experimental optimum value of valve response.
mm is designed less it becomes like. The spring reed 17 has a gap between the discharge reed 16 and the stopper 18 at the free end is anti-valve holding portion, in the present embodiment has one bent portion 27 to the spring reed 17, the bent portion 27 The gap size is adjusted according to the position and the load at the time of bending. Also, by adjusting the gap size, parts can be shared even in models using refrigerants having greatly different compression ratios. In R134a refrigerant used model for the distance B29 distance A28 at the free end of the spring reed 17 and discharge reed 16 is at the free end of the stopper 18 and the discharge reed 16 is A / B = 0.5~0.9, In the model using the R600a refrigerant, it is preferable that A / B = 0.3 to 0.7. The spring lead 17 has an inclination with respect to a plane including the discharge valve seat 24 and the valve holding portion 25, and the inclination is such that when the opening amount of the discharge valve is regulated by the spring lead 17, Is formed so that the contact angle with respect to the spring lead 17 is smaller than 40 degrees. Thereby, discharge reed 16 is suppressed noise generated when colliding with spring reed 17, it is possible to provide a discharge valve device of low noise. The stopper 18 is fixed together with the discharge lead 16 and the spring lead 17 at a position corresponding to the valve holding portion 25 provided in the recess 23 of the valve plate 15. For example, the valve plate 15, the discharge lead 16,
The spring lead 17 and the stopper 18 have a caulking hole at a position corresponding to each of the valve holding portions 25, and are caulked by the rivet 30 or the like in the caulking hole. The stopper 18 has at least two substantially parallel portions (surfaces) that are at least two steps different from a plane including the discharge valve seat 24 and the valve holding portion 25. For example, the substantially parallel portions are both end portions of the stopper and connect the substantially parallel portions. The portion has a curved surface and is inclined with respect to a plane including the discharge valve seat 24 and the valve holding portion 25. As described above, the spring reed 17 and the discharge reed 1 are provided at both ends by providing substantially parallel portions (surfaces) that are stepped with respect to a plane including the discharge valve seat 24 and the valve holding portion 25.
6 it becomes easy to manage the distance B29 at the free end of the inspection in the assembly process can be easily performed. The valve plate 15, the discharge lead 16, the spring lead 17, and the stopper 18 are connected to the valve holder 25.
Since the valve plate assembly formed by fixing in the above can be inspected to confirm the function as a discharge valve device by itself, the operation confirmation inspection can be performed at the assembly stage before the mounting to the cylinder 8. , it is possible to discover the defective product at an early stage. The distance A28 between the spring lead 17 and the discharge valve and the stopper 1
The distance B29 between the discharge valve 8 and the discharge valve can also be inspected at the stage of valve plate assembly before attachment to the cylinder 8, so that there is provided a discharge valve device with small variation in energy efficiency due to individual differences of the spring leads 17. Can be.

In the valve plate assembly, the discharge lead 16, the spring lead 17, and the stopper 18 are fixed at positions corresponding to the valve holding portion 25 provided on the valve plate 15.
It is possible to provide a hermetic electric compressor that does not change its fixed position due to deterioration or the like even after long-term operation and maintains stable high efficiency and low noise for a long time.

[0017]

As described above, the refrigerant compressor of the present invention prevents the pressure loss at the time of opening the discharge lead by securing the space height at the free end of the discharge lead and the spring lead. By adjusting the space height, the opening amount of the discharge lead can be regulated, and the efficiency of the hermetic electric compressor can be improved. In addition, the spring reed is inclined at the position corresponding to the discharge reed lid with respect to the plane including the discharge valve seat and the valve holding part, so that the noise generated when the discharge reed and the spring reed collide with each other is suppressed, so it is possible to reduce the noise of the type electric compressor. In addition to these, by providing substantially parallel portion (the surface) two or more with respect to a plane including a discharge valve seat and the valve holding portion stopper, can easily manage the space height to discharge reed stopper , And at the same time valve plate, discharge lead,
By fixing and integrating the spring lead and stopper, the discharge valve device can be inspected as a single unit, reducing variations and reducing the cost by sharing parts of the discharge valve device with different refrigerant models. Has the effect of being able to.

[Brief description of the drawings]

FIG. 1 is a sectional view of a discharge valve device in a hermetic electric compressor of the present invention.

Sectional view of the hermetic electric compressor of the present invention; FIG

FIG. 3 is an exploded view of the components mounted on the cylinder opening end of the present invention.

4 is a cross-sectional view of the discharge valve device of the conventional hermetic electric compressor

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Closed container 2 Compression element 3 Electric element 8 Cylinder 12 Cylinder head 13 Discharge hole 15 Valve plate 16 Discharge lead 17 Spring lead 18 Stopper 23 Depression 24 Discharge valve seat 25 Valve holding part 26 Discharge lead lid part 27 Spring lead bent part 28 distance A 29 distance B 30 rivet 31 substantially parallel portion

 ──────────────────────────────────────────────────続 き Continued on the front page (72) Inventor Masahiko Osaka 4-5-2-5 Takaidahondori, Higashiosaka-shi, Osaka Inside Matsushita Refrigerating Machinery Co., Ltd. (72) Akihiko Kubota 4-chome Takaidamotodori, Higashiosaka-shi, Osaka No. 2 No. 5 Matsushitareiki within Co., Ltd. (72) inventor Hiroki Awashima Osaka Prefecture Higashi Takaidahondori 4-chome No. 2 No. 5 Matsushitareiki within Co., Ltd. (72) inventor Shigeruteki Science, Osaka Prefecture Higashi Takaidahondori 4-5-2-5 Matsushita Refrigerating Machinery Co., Ltd. (72) Inventor Hiromitsu Iwata 4-5-2-5 Matsushita Refrigerating Machinery Co., Ltd. F-term (reference) in Matsushita Refrigeration Machinery Co., Ltd.

Claims (4)

[Claims] An electric element and a compression element having a cylinder are provided in a closed container, a valve plate attached to an open end of the cylinder, a recess formed on a side of the valve plate opposite the cylinder, and the recess. A discharge hole provided with a discharge valve seat provided in the recess, a valve holding portion provided in the recess and disposed on the same plane as the discharge valve seat, and opening and closing an opening of the discharge hole disposed in the recess. includes a discharge reed having a lid, and a spring reed disposed in a counter-valve plate side of the discharge reed, the discharge valve system comprising a stopper disposed in the counter discharge reed side of the spring reed, said spring reed is arranged to have a gap with respect to discharge reed lid, the stopper is small substantially parallel portion in the valve plate side with respect to the plane containing the valve holding portion and the discharge valve seat Wherein at a position corresponding to Kutomo two has the discharge reed lid arranged to have a gap with respect to the spring lead fixation, the discharge reed, said spring reed, the stopper, the valve plate in the valve holder hermetic electric compressor, characterized by. 2. A spring reed has at least one bent portion, wherein characterized in that it comprises a slope at a position corresponding to the discharge reed lid with respect to the plane containing the valve holding portion and the discharge valve seat Item 7. A hermetic electric compressor according to Item 1. 3. A relative distance B at the anti-valve holding portion end of the distance A stopper and discharge reed at the anti-valve holding portion end of the spring reed and discharge reed / B
= Hermetic electric compressor according to claim 1 or 2, characterized in that 0.3 to 0.9. 4. A stopper spring reed, one of the discharge reed claim 1, characterized in that the fixing by caulking by rivets valve holding portion 3 1
Item 12. A hermetic electric compressor according to the item.