KR200203035Y1 - device for combining fixed scroll in scroll-type fluid machine - Google Patents

Abstract

The present invention relates to a fixed scroll coupling device of a scroll fluid machine, in the process of moving the fixed scroll by guiding the fixed scroll when the fixed scroll is moved up and down as the fixed scroll has an axial direction during operation This is to prevent tilting.

To this end, the present invention, a plurality of vertical protrusion pieces 101 formed in a predetermined spaced apart state around the top of the upper frame 5, a plurality formed in a predetermined spaced apart state on the outer peripheral surface of the fixed scroll (10) Each horizontal protrusion piece 102 formed of the two horizontal protrusion pieces 102 and formed on the fixed scroll 10 is supported by each vertical protrusion piece 101 formed on the upper frame 5. The guide protrusion 103 is formed on the upper surface of each vertical protrusion piece 101 formed on the 5), and the guide groove 104 is formed on each horizontal protrusion piece 102 formed on the fixed scroll 10 to fix the guide protrusion 103. In the state where each horizontal protrusion piece 102 formed on the scroll 10 is supported by each vertical protrusion piece 101 formed on the upper frame 5, the guide protrusion 103 formed on each vertical protrusion piece is each horizontal protrusion piece. Fixed disk of scroll type fluid machine fitted with guide groove 104 formed in 102 It is a roll coupling device.

Description

Device for combining fixed scroll in scroll-type fluid machine

The present invention relates to the field of scroll fluid machines, and more particularly, when the swing scroll is turned eccentrically during operation of the device, the refrigerant sucked into the compression chamber is compressed while forming a compression chamber together with the swing scroll. The present invention relates to a fixed scroll coupling device of a scroll fluid machine for guiding the fixed scroll when the fixed scroll serving to discharge has a axial stress in the axial direction within a limited degree of freedom.

In general, a scroll fluid machine is a device that sucks and compresses various fluids (refrigerant, air, water) by using a fixed scroll, which is a pair of scrolls, and a rotating scroll, and then discharges or pumps it by directly sucking it. It includes a scroll compressor, an air compressor in which the working fluid is air, and the like. The configuration includes a main body part, which generally constitutes an overall appearance, a power generation unit for generating driving force, and a driving force generated by the power generation unit. It is divided into a compression unit for compressing and then discharging, and the structure of the compression unit has almost the same structure as almost all scroll fluid machines.

In one application example of the scroll type fluid machine, a scroll compressor whose fluid is a refrigerant is used as an element constituting a refrigeration cycle such as a refrigerator, a general air conditioning air conditioner, a car air conditioner, and the like. When a scroll compressor is used as a component of a refrigeration cycle of a refrigerator or a general air conditioner, it is provided separately in the main body. However, when a scroll compressor is used as a component of a refrigeration cycle of a vehicle air conditioner, the engine power of a vehicle is usually used as it is. Therefore, there is no separate power generating unit.

Then, the scroll compressor, which is an element constituting the refrigeration cycle of the refrigerator and the general air conditioner for the purpose of understanding the present invention and related art, will be described in detail as follows.

A suction pipe 2 for sucking refrigerant to one side of the compressor main body 1 having a space therein is fixed, and the space in the compressor main body 1 includes a stator 3a and a rotor 3b. A motor 3 for generating a driving force is fixed, and a crank shaft 4 is press-fitted to rotate under the driving force of the motor 3 at the center of the rotor 3b constituting the motor. The upper and lower parts are bearing-supported by the upper frame 5 and the lower frame 6 fixed in the compressor main body 1, respectively. The upper end of the crankshaft 4 has an involute pivoting wrap ( The swinging scroll 8 having 8a) is coupled in an eccentric state, and the swinging scroll 8 only rotates between the upper frame 5 and the swinging scroll 8 in accordance with the rotation of the crankshaft 4. The oldham ring (7) is installed The upper frame 5 has an involute-shaped fixed wrap 10a to be engaged with the pivoting wrap 8a of the pivoting scroll 8 to form a compression chamber 9 together with the pivoting scroll 8. The fixed scroll 10 is coupled by a coupling device to have a axial stress in the limited degree of freedom range, and the refrigerant compressed in the compression chamber 9 exits the compression chamber at the center of the fixed scroll. Fixed scroll through hole 11 is formed, the pressure separation plate 12 is fixed around the upper end of the compressor body (1) in a state having a small gap with the fixed scroll (10) to separate the high pressure portion and the low pressure portion, The lower end of the cap 14 is fixed to the compressor main body 1 together with the pressure separating plate 12 so as to form the discharge chamber 13 at the upper portion of the pressure separating plate, and the center of the pressure separating plate 12. In the fixed scroll hole formed in the fixed scroll (10) The pressure separating plate through-hole 15 is formed such that the refrigerant exiting the compression chamber 9 through the cap 14 continues upwardly toward the discharge chamber 13 formed by the cap 14. On the upper surface of the check valve to escape from the compression chamber (9) to the refrigerant moving upward through the pressure separation plate through hole 15 enters the discharge chamber 13 while the refrigerant entering the discharge chamber is not back flow again 16 is provided, the discharge pipe 17 for discharging the refrigerant in the discharge chamber 13 is fixed to the circumferential surface of the cap 14, the compression chamber (9) in the fixed scroll (10) A moving passage 18 is formed to move some of the refrigerant in the upright, and the pressure separating plate 12 is supported on the upper frame 5 on the upper surface of the fixed scroll 10 so that the outer circumference of the compressor is Only when it is fixed to the upper end of the main body 1 The back pressure chamber 19 is formed along the circumference and is positioned between the scroll 10 and the pressure separator plate 12 so as to fill the refrigerant moving upwardly through the movement passage 18. The fixed scroll 10 A ring-shaped inner sealing member 20 and an outer sealing member 21 are provided between the upper surface of the bottom surface and the lower surface of the pressure separator plate 12 to seal the back pressure chamber 19.

Therefore, when the refrigeration cycle is operated while the scroll compressor is used for a refrigeration cycle of a refrigerator or an air conditioner for general air conditioning, the rotor 3b of the motor 3 fixed to the space part of the compressor main body 1 rotates. Therefore, the crankshaft 4 press-fitted in the center of the rotor also rotates, wherein the turning scroll 8 coupled to the upper end of the crank shaft in an eccentric state is the upper frame 5 and the turning scroll ( 8) The orbital movement is provided by the old dam ring (7) installed between.

On the other hand, the crankshaft 4 which rotates together by the rotation of the rotor 3b constituting the motor 3, the upper and lower frames 5, the upper and lower parts of which are fixed to the space in the compressor main body 1 Since the bearing is supported by (6), it can be understood that it is stable without being shaken in the rotating process.

As such, when the pivoting scroll 8 pivots, the fixed scroll is coupled by the coupling device to have a stiffness in the axial direction within a range of degrees of freedom limited to the pivoting wrap 8a and the upper frame 5 of the pivoting scroll. Considering that the fixed wrap 10a of (10) has a shape of a single volute and is engaged with each other to form the compression chamber 9, the volume of the compression chamber is changed, so that the suction, compression, and discharge strokes are continuous. In the suction stroke, the refrigerant gas is sucked into the compressor main body 1 through the suction pipe 2 fixed to one side of the circumferential surface of the compressor main body 1, and then a passage (slit) not shown is shown. It is sucked into the compression chamber (9) through, and the sucked refrigerant gas is compressed during the compression stroke, the compressed refrigerant gas through the fixed scroll through hole 11 formed in the center of the fixed scroll (10) during the discharge stroke The compression Exit (9).

The high pressure refrigerant exiting the compression chamber 9 through the fixed scroll hole 11 of the fixed scroll 10 is fixed around the upper end of the compressor body 1 and separated into a high pressure part and a low pressure part 12. The discharge chamber 13 formed by the cap 14 while continuously moving upward through the pressure separation plate through hole 15 of the pressure separation plate 12 and passing through the check valve 16 installed on the upper surface of the pressure separation plate 12. And then discharged through the discharge pipe 17 fixed in place on the circumferential surface of the cap 14.

Meanwhile, in the above-described operation, when the refrigerant is sucked into the compression chamber 9 formed by the turning scroll 8 and the fixed scroll 10 and then exits the compression chamber, the fixed scroll 10 has a limited range of freedom. It is coupled to the upper frame 5 so as to have a stress in the axial direction within, the pressure separating plate 12 is fixed to the upper periphery of the compressor body (1) in the fixed scroll 10 and a slight gap The fixed scroll 10 is to move as much as possible in the axial direction opposite to the turning scroll 8 as proportional to the pressure of the compression chamber (9), if the fixed scroll (10) If the maximum movement in the axial direction opposite to 8) between the end of the fixed wrap (10a) of the fixed scroll (10) and the bottom surface of the swing scroll (8) and the end of the swing wrap (8a) and the fixed scroll ( 10) The gap between the bottom of the surface is more than necessary As a result, the refrigerant gas in the compression chamber 9 leaks through a gap between the swing wrap 8a of the swing scroll 8 and the fixed wrap 10a of the fixed scroll 10.

However, when the refrigerant is compressed in the compression chamber 9 and then discharged, a part of the refrigerant is moved upwardly through the moving passage 18 formed in the fixed scroll 10 to exit the compression chamber 9, The escaped refrigerant is formed along the circumference on the upper surface of the fixed scroll 10 to be filled into the back pressure chamber 19 located between the fixed scroll and the pressure separation plate 12, so that the back pressure chamber is fixed at this time. As the back pressure acts, the fixed scroll 10 has an axial pressing force toward the swing scroll 8, so that the fixed scroll 10 rotates while the refrigerant is compressed in the compression chamber 9 and then discharged. Fixed end 10a of the fixed scroll 10 and the bottom surface of the pivoting scroll 8 and fixed with the tip of the pivoting wrap 8a of the pivoting scroll, as not maximally moved in the axial direction opposite to (8). Bottom side of scroll (10) Of the gap between the swing wrap 8a of the swing scroll 8 and the fixed wrap 10a of the fixed scroll 10. The problem of being easily leaked through will not occur.

In addition, when the refrigerant enters and fills the back pressure chamber 19, the pressure of the back pressure chamber is medium pressure, rather than the compressed refrigerant discharge flow path (the fixed scroll hole formed in the fixed scroll and the pressure separator plate formed in the pressure separator plate). Since it is in a low state, the refrigerant in the compressed refrigerant discharge passage tries to leak into the back pressure chamber 19 on the lower pressure side through the gap between the fixed scroll 10 and the pressure separating plate 12 and at the same time in the back pressure chamber 19. The refrigerant is to leak out of the back pressure chamber 19, which is a lower pressure side through the gap between the fixed scroll 10 and the pressure separator plate 12, the inner side between the fixed scroll 10 and the pressure separator plate 12 Since the sealing member 20 and the outer sealing member 21 are installed to seal the inside and the outside of the back pressure chamber 19, the refrigerant on the high pressure side leaks into the back pressure chamber or the inside of the back pressure chamber 19 What is refrigerant leakage low pressure side is almost impossible.

In the scroll type fluid machine such as the scroll compressor described above, the conventional fixed scroll coupling device for coupling the fixed scroll to form the compression chamber together with the rotating scroll to the upper frame, as shown in Figure 1 to 2 attached to the upper frame ( 5) a plurality of vertical protrusion pieces 101 formed at a predetermined interval spaced around the upper end, and a plurality of horizontal protrusion pieces 102 formed at predetermined intervals on the outer circumferential surface of the fixed scroll 10. And each horizontal protrusion piece 102 formed on the fixed scroll 10 is supported on each vertical protrusion piece 101 formed on the upper frame 5.

In the conventional fixed scroll coupling device configured as described above, when the fixed scroll 10 is placed on the upper frame 5, a plurality of vertical protrusion pieces 101 are formed at a predetermined interval on the upper circumference of the upper frame 5. As the plurality of horizontal protrusions 102 are formed on the outer circumferential surface of the fixed scroll 10 at predetermined intervals, each horizontal protrusion piece 101 formed on the fixed scroll 10 at any moment. Each of the vertical protrusion pieces 102 formed on the upper frame 5 is supported, and accordingly, the fixed scroll 10 is coupled to the upper frame 5 while being supported.

However, since the conventional fixed scroll coupling device is simply coupled to each horizontal protrusion piece formed on the fixed scroll in a state of being supported by each vertical protrusion piece formed on the upper frame, the process of inhaling and compressing the refrigerant during operation of the apparatus is performed. When the fixed scroll has a moving force in the axial direction within the range of degrees of freedom limited by the pressure of the compression chamber and the back pressure chamber in the process of performing repeatedly, the fixed scroll does not guide in the axial direction. In the process of movement, it may cause instability and tilting. As a result, when the refrigerant sucked into the compression chamber is compressed and then discharged, the refrigerant chamber is moved through a place other than the fixed scroll hole formed in the fixed scroll. As it exits, the compressor's efficiency drops and the noise There was a problem that occurred.

The present invention is devised to solve the above-described problems, the phenomenon that the fixed scroll is guided by the fixed scroll when the fixed scroll has an axial direction during the operation of the compressor tilting in the process of moving in the axial direction Its purpose is to prevent tilting.

1 is a longitudinal sectional view showing a state in which a conventional fixed scroll coupling device is applied to a scroll compressor;

Figure 2 is an exploded perspective view of the main portion showing a conventional fixed scroll coupling device

Figure 3 is a longitudinal sectional view showing a state in which the present invention fixed scroll coupling device is applied to a scroll compressor

Figure 4 is a main cross-sectional view showing a state in which the present invention fixed scroll coupling device is applied to the scroll compressor

Figure 5 is an exploded perspective view showing the main part of the present invention fixed scroll coupling device

Explanation of symbols for the main parts of the drawings

5. Upper frame 10. Fixed disk

101. Vertical protrusions 102. Horizontal protrusions

103. Guide protrusion 104. Guide groove

According to the present invention for achieving the above object, a plurality of vertical protrusions formed in a state spaced at a predetermined interval around the upper end of the upper frame, a plurality of horizontal protrusions formed in a state spaced apart at regular intervals on the outer peripheral surface of the fixed scroll Each horizontal protrusion piece formed on the fixed scroll is supported by each vertical protrusion piece formed on the upper frame, wherein a guide protrusion is formed on the upper surface of each vertical protrusion piece formed on the upper frame, and formed on the fixed scroll. Guide grooves formed on the horizontal protrusion pieces in the state where the guide protrusions formed on the vertical protrusion pieces are formed on the horizontal protrusion pieces in the state where the horizontal protrusion pieces formed on the fixed scroll are supported by the vertical protrusion pieces formed on the upper frame. A fixed scroll coupling device for a scroll fluid machine fitted with a rod is provided.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.

Attached Figure 3 is a longitudinal cross-sectional view showing a state in which the fixed scroll coupling device of the present invention is applied to the scroll compressor, Figure 4 is a cross-sectional view of the main portion showing a state of the fixed scroll coupling device of the present invention applied to the scroll compressor, Figure 5 As an exploded perspective view of the main part showing the scroll coupling device, the embodiment of the present invention is a plurality of vertical protrusions 101 are spaced at regular intervals around the upper end of the upper frame (5) fixed to the space in the compressor main body (1) And a plurality of horizontal protrusion pieces 102 are formed on the outer circumferential surface of the fixed scroll 10 at predetermined intervals so that each horizontal protrusion piece 102 formed on the fixed scroll 10 has an upper frame 5. Supported by each of the vertical protrusions 101 formed in the (), the upper surface of each of the vertical protrusions 101 formed in the upper frame 5 is formed with a guide protrusion 103, the fixed scroll (10) Formed on Each of the horizontal protrusion pieces 102 is formed with a guide groove 104 so that each horizontal protrusion piece 102 formed on the fixed scroll 10 is supported by each vertical protrusion piece 101 formed on the upper frame 5. In the state, the guide protrusions 103 formed on the vertical protrusion pieces are fitted into guide grooves 104 formed on the horizontal protrusion pieces 102, respectively.

The present invention configured as described above, the fixed scroll coupling device, when the fixed scroll 10 is placed on the upper frame 5, the plurality of vertical protrusions 101 at a predetermined interval spaced around the top of the upper frame 5 And a plurality of horizontal protrusions 102 are formed on the outer circumferential surface of the fixed scroll 10 at predetermined intervals so that each horizontal protrusion piece 102 formed on the fixed scroll 10 at any moment is formed. ) Is supported on each vertical protrusion piece 102 formed on the upper frame 5, and thus the fixed scroll 10 is coupled in a state supported by the upper frame 5, wherein the vertical protrusion pieces 101 Guide protrusions 103 are formed on the upper surface of the guide plate, and the guide protrusions 104 are formed in the horizontal protrusion pieces 102 so that the guide protrusions 103 are fitted into the guide grooves 104.

Therefore, if the fixed scroll (10) coupled to the upper frame (5) has an up and down movement force in the axial direction within a limited range of freedom during operation of the compressor, each vertical formed in the upper frame (5) as described above Considering that the guide protrusion 103 of the protruding piece 102 is fitted into the guide groove 104 of each horizontal protruding piece 101 formed in the fixed scroll 10, the fixed scroll 10 is eventually axially oriented. As it is guided to the upper frame 5 in the process of moving up and down, it can be understood that there is no inclination to one side to maintain stability.

Therefore, the present invention, even if the fixed scroll is operated in the state coupled to the upper frame, even if the device moves up and down in the axial direction within a limited range of degrees of freedom, the tilting to one side does not occur in the process of moving the fixed The flowability of the scroll becomes very stable, and thus, the refrigerant compressed in the compression chamber does not leak through other than the discharge hole formed in the fixed scroll, so that the efficiency of the compressor is increased and the operational noise is also large. The effect is to be reduced.

Claims (1)

Each horizontal protrusion formed on the fixed scroll comprises a plurality of vertical protrusion pieces formed at a predetermined interval spaced around the upper end of the upper frame, and a plurality of horizontal protrusions formed at a predetermined interval on the outer circumferential surface of the fixed scroll. The piece is supported on each vertical protrusion piece formed in the upper frame, the guide projection is formed on the upper surface of each vertical protrusion piece formed on the upper frame, and the guide groove is formed on each horizontal protrusion piece formed in the fixed scroll to fix the When the horizontal protrusion pieces formed on the scroll are supported by the vertical protrusion pieces formed on the upper frame, the guide protrusions formed on the vertical protrusion pieces are fitted into the guide grooves formed on the horizontal protrusion pieces. Scroll combiner.