RU2246039C1 - Motor-compressor - Google Patents

Abstract

FIELD: light mechanical engineering; hermetic compressors for domestic refrigerators, freezers and air-conditioners.

SUBSTANCE: proposed hermetic compressor includes suction and discharge units having monolithic valve plate without seats. Self-acting suction and discharge valves are engageable with suction and discharge seats. Each seat is made on self-acting elastic movable lug in form of closed thin band of cylindrical and non-cylindrical shape which are tightly closed by suction and discharge valves on one side and are tightly engageable with monolithic valve plate on other side over suction and discharge holes. Thickness of walls of closed thin band of each suction and discharge seats is no more than 0.4 and no less than 0.2 mm. Seats are connected with main body of self-acting elastic lugs by means of thin strips; thickness of thin strips is no less than thickness of suction and discharge seats. Self-acting elastic lugs are made from steel polished band by stamping (punching), for example from cold-rolled spring band Sandvic-20C. Monolithic valve plate is made from steel polished cold-rolled spring band by stamping (punching), for example from band Sandvic-20C or steel У10A. Surface of monolithic valve plate (on both sides) and surface of each self-acting elastic lug with suction and discharge seats is divided by sealing vibration insulating oil film which performs "elastic" dampening of impact reducing the noise level by 3-4 dBA.

EFFECT: facilitated procedure of manufacture of valve plate; reduction of noise power by 3-4 dBA.

6 cl, 6 dwg

Description

Technical field

The invention has applications in refrigeration and air conditioning and relates to the field of light engineering, in particular to the production of hermetic motor compressors for domestic refrigerators, freezers and air conditioners.

State of the art

Known sealed motor compressors of the type P10TN, P12TN, MP14 for household refrigerators and freezers of the open joint-stock company "Holodmash" in Yaroslavl, manufactured under the license of the company "Zanussi" - p. 62. “Refrigerators for domestic use”, Moscow Technological Institute. Moscow, 1986, author A.I. Naberezhnykh, as well as a Danfoss compressor with a crank mechanism of movement of the SC18R 104G series and NLE9F series - p. 153. Household compression refrigerators. Weinberg B.S., Vine L.N. M., “Food industry”, 1974, as well as a motor-compressor according to patent RU 2148192 of 08.26.1999. The closest to the present invention are compressors with a monolithic valve plate.

These motor compressors contain a casing and a motor installed in it with a compressor, which has a cylinder head with silencers on the discharge and suction sides, a cylinder, a drive mechanism and a piston sliding reciprocally in the cylinder. The piston absorbs, compresses and injects the working fluid through a suction-discharge device made in the form of a monolithic valve plate containing seats with suction and discharge openings. Saddles with suction and discharge openings of a monolithic valve plate are overlapped by self-acting elastic movable petals of the suction and discharge valves. A monolithic valve plate containing seats with suction and discharge holes is made of sheet steel or cast iron or is pressed by pressing iron powder SC - 100.26 from Haganas AB (Sweden) - the base. Ligature - Distaloy - Сu of the company “Haganas AB” (Sweden) - 20%, zinc stearate TU 6-09-4262-76 - 0.7%. The implementation of the suction and discharge seats in a monolithic valve plate leads to increased compressor noise during impacts of the suction and discharge valves on the saddles of the above plate and complicates its manufacturing technology, including machining.

Disclosure of invention

The objective of the present invention is to simplify, improve the manufacturing technology of a monolithic valve plate without suction and discharge seats and reduce the noise level by 3-4 dBA, as well as increase the operability of the suction-discharge device and its functional quality indicators.

This problem is solved by the fact that in a motor compressor, for example a sealed chladon compressor, a monolithic valve plate is made without seats, and each of the suction and discharge seats is made on a self-acting elastic movable petal in the form of a closed thin belt of cylindrical and non-cylindrical shape, at least one which, on the one hand, are tightly closed by the above-mentioned self-acting suction and discharge valves, and on the other hand, are tightly mated through the discharge and suction openings the above valve plate under the action of pressure of the working fluid in the cylinder and the discharge chamber. Each of the suction and discharge seats is made in the form of a closed thin belt of cylindrical and non-cylindrical shape, the wall thickness of which is not more than 0.4 and not less than 0.2 mm, and the above saddles are connected by thin jumpers with the main body of self-acting elastic petals, the thickness of which is not less than the thickness of the above saddles.

Self-acting elastic movable petals containing closed thin belts of suction and discharge seats of cylindrical and non-cylindrical shape are made of material and using the manufacturing technology of self-acting elastic suction and discharge valves, for example, by stamping (punching) from a polished Sandvic-20С tape.

The execution of a monolithic valve plate without suction and discharge seats allows them to be made, for example, from polished cold-rolled tape by stamping (cutting) without further machining, which simplifies the technology and reduces the cost of their manufacture.

The present invention allows to significantly reduce the noise level by 3-4 dBA during strokes of the suction and discharge valves on the thin closed belts of the suction and discharge seats, made on self-acting petals, due to the elastic damping and vibration isolation of the shocks.

Quenching and vibration isolation of shocks is also carried out due to the fact that the surface of the valve plate and the surface of each self-acting elastic lobe with suction and discharge saddles are separated by a vibration-insulating oil film. The above thin oil films also perform a sealing function, i.e. reduce leaks.

A brief description of the drawings.

The invention is further illustrated by specific examples of its implementation and the accompanying drawings, in which:

figure 1 shows a General view of the motor compressor in the context;

figure 2 - suction-discharge device in section with a monolithic valve plate without seats, mating through the suction and discharge holes with closed thin saddles of suction and discharge, made on self-acting elastic petals;

figure 3 - experimental samples of the suction-discharge device for compressors of the type P10TN, P12TN and MP14;

figure 4 - experimental samples of the suction-discharge device for compressors company "Danfoss" series SC18R 104G;

figure 5 - experimental samples of the suction-discharge device for compressors type K-VO open joint-stock company "Biryusa" Krasnoyarsk (US Patent 4,573,880 dated 03/04/96).

figure 6 - experimental samples of the suction-discharge device for compressors company "Danfoss" series NLF9F.

The best embodiment of the invention

The motor compressor, for example, is sealed (Fig. 1 and Fig. 2) includes a motor, which usually contains a stator 3, which is firmly mated to the compressor housing 5 by means of bolts 1, rotor 2, crankshaft 4, on which rotor 2 is pressed. The compressor consists from the housing 5 and at the same time a cylinder 18 cast with it, which houses the piston 19, mating with the crank 22 of the crankshaft 4 by means of the connecting rod 21 and the piston pin 20, and the crankshaft 4 is mating with the sliding bearing 5a of the compressor housing 5 and the upper sliding bearing 23. Cylinder 18 sn is loaded with a suction-discharge device (Fig. 1, 2, Fig. 3, Fig. 4, Fig. 6), including a monolithic valve plate 17 without seats with suction openings 17b and discharge openings 17a of a cylindrical and non-cylindrical shape, a self-acting elastic lobe of the suction valve 11, a self-acting elastic lobe 10 with suction saddles 10a and thin jumpers 10b, 10g. The valve on the suction side 11, a self-acting elastic lobe 10 with suction seats 10a are centered by the holes 28 on the pins 28a. The suction-discharge device also includes a self-acting movable lobe 15 with a thin closed belt of the pressure seat 15a and thin belts 15b and 15g, a self-acting pressure valve 14, a lift limiter 13 of the pressure valve 14, which are aligned with holes 27 along the rivet pins 30, pressed into the valve plate 17 (figure 2).

The suction-discharge device (FIGS. 2 and 3) is tightly mated through the sealing paranitic gasket 9 with the cylinder head 16 containing the discharge chamber 7, the suction chamber 12 and the paranitic gasket 6, mating with the end surface 18a of the cylinder 18 by means of bolts 8 located in the holes 29. The motor-compressor and the suction-delivery device are located in the casing on the springs 25. The compressor casing consists of a lower 26 and an upper 26a part, which are hermetically connected, as a rule, by welding.

The motor compressor contains significant design features of the suction-discharge device and operates as follows. The rotational movement of the rotor 2 (Fig. 1) is converted into reciprocating movement of the piston 19 in the cylinder 18 through a crank mechanism, including a crank neck 22 of the crankshaft 4, a connecting rod 21 and a piston pin 20, mating with the piston 19. In figure 1 the piston has been moved from top dead center (V.M.T.) to bottom dead center (N.M.T.). When moving the piston 19 in N.M.T. the suction valve 11 is open, and the cylinder 18 is filled with a working fluid from the suction chamber 12 through the suction holes 17b in the valve plate 17 and the suction seats 10a. In this case, the self-acting pressure valve 14 is under the influence of high pressure of the working medium of the pressure chamber 7 and fits snugly to the surface of the closed thin belt of the pressure seat 15a, blocking the pressure holes 17b. Since the discharge seats 15a are located on the movable elastic plate 15, which is also affected by the high pressure of the working fluid, they are in close contact with the discharge holes 17a of the valve plate, minimizing leakage. Upon reaching the piston 19 N.M.T. the suction valve 11 closes and at a high speed hits the surface of the thin band of the suction seat 10a, which causes compressor noise. Due to the fact that the closed belts of the suction saddle 10a are located on a self-acting movable elastic lobe 10, “elastic” shock absorption takes place, and the noise level is reduced by 3-4 dBA.

When the piston moves toward V.M.T. There is a compression and increase in the pressure of the working fluid in the cylinder 18. Due to the elasticity of the suction valve 11 and the elasticity of the self-acting movable elastic lobe 10, the closed belt of the suction seat 10a is tightly coupled with the valve plate 17 through the suction holes 17b and the surface of the suction valve 11, which ensures a minimum of leaks. When the piston 19 approaches V.M.T., a self-acting discharge valve 14 opens, and the compressed working fluid is pushed through the discharge holes 17a into the discharge chamber 7. When the piston 19 reaches V.M.T., the discharge valve 14 closes and an impact occurs on the surface of a closed thin belt of the pressure seat 15a with a thickness of 0.2-0.4 mm, the shock is elastically quenched and weakly transmitted to the valve plate 17, which reduces the noise level by 3-4 dBA. When moving the piston in N.M.T. the above processes are repeated.

To date, samples have been made of the suction-discharge device for pressurized refrigerant compressors (Fig.1,2 and Fig.3). The discharge valve 14 and the suction valve 11, which are serially produced from a polished steel spring band of Sandvic-20C type with a thickness of 0.203 ^+0.008 mm by stamping (punching), as well as a monolithic valve plate without seats, the surface of which is formed by grinding and polishing. A thin closed girdle of the suction saddle 10a located on the self-aligning movable elastic petal 10 and a thin closed girdle of the suction saddle 15a located on the self-aligning elastic petal 15 made of polished steel tape type Sandvic-20C with a thickness of 0.203 ^+0.008 mm by electric discharge machining followed by heat treatment and a hammer. Such a design of the suction-discharge device provides elastic shock absorption of the suction valves 11 and the discharge 14 about the discharge seats 15A and suction 10a located on the self-acting elastic petals 15 and 10, which reduces the sound power level by 3-4 dBA.

Samples of the suction-discharge device (Fig. 4, Fig. 5 and Fig. 6) for the above-mentioned serial sealed HFC compressors were also manufactured. The valve plates 17 are made without suction and discharge seats, for example by grinding and polishing them. Self-acting elastic petals 15 with injection saddles 15a and self-acting elastic petals 10 with suction saddles 10a are made by electric discharge machining followed by heat treatment and jacking. Discharge valves 14 and suction valves 10 are commercially available.

In experimental samples, the sound power level decreased by 3-4 dBA, because when the suction and discharge valves 11 and 14 are struck by closed thin belts of the suction seat 10a and pressure saddle 15a installed on the self-acting elastically moving petals 10 and 15, shock absorption is ensured. Shock absorption is also carried out due to the fact that on two sides on the surface of closed thin belts of the suction seats 10a and discharge 15a located on the self-acting elastic petals 10 and 15, there is a thin sealing-vibration-insulating layer of the oil film. The thin sealing vibration-damping and vibration-damping oil layer of the film located between the surface of the valve plate 17 and the surface of the self-acting elastic plate 10 and 15, on which the suction and discharge seats 15a and 15a are located, is especially effective in damping impacts.

Claims (6)

1. A motor compressor, in particular a hermetic one, containing a casing, a motor and a compressor housed therein, which includes a cylinder head, a cylinder, a transmission mechanism and a piston that sucks, compresses and pumps the working fluid through a suction-discharge device made in the form of self-acting suction and discharge valves, mating with seats, including suction and discharge openings, characterized in that the valve plate is made without seats, and each of the suction and discharge seats , at least two, is made on a self-acting elastic movable lobe in the form of a closed thin belt of cylindrical or non-cylindrical shape, which are tightly overlapped on one side by the above-mentioned self-acting suction and discharge valves, and on the other hand are tightly mated along the discharge and suction openings of the indicated valve plate. 2. The motor compressor according to claim 1, characterized in that the wall thickness of the closed thin belt of each of the seats of the suction and discharge is not more than 0.4 and not less than 0.2 mm, and the above saddles are connected by thin jumpers with the main body of self-acting elastic petals, moreover, the thickness of these thin jumpers is not less than the thickness of the closed thin bands of saddles. 3. The motor compressor according to claims 1 and 2, characterized in that the self-acting elastic petals with suction and discharge saddles are made of polished steel tape by stamping (cutting). 4. Motor compressor according to claims 1 and 3, characterized in that the Sandvic-20C tape is selected as the material of the tape for self-acting elastic petals with suction and discharge saddles. 5. The motor compressor according to claims 1 and 4, characterized in that the valve plate without seats is made of polished steel cold-rolled spring tape by stamping (punching), for example, from Sandvic-20C tape or U10A steel. 6. The motor compressor according to claims 1 to 5, characterized in that the mating surface of the valve plate and the mating surface of each self-acting elastic lobe with suction and discharge seats are separated by a vibration-insulating oil film.

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