KR100747480B1 - Overheating prevention apparatus for scroll compressor - Google Patents

Abstract

An overheating preventing device for a scroll compressor is provided to drive an overheating sensing plate by a restraining pin for restraining orbiting motion of an orbiting scroll to stop operation of the compressor. An overheating preventing device for a scroll compressor is fixed to a fixed scroll(130) for blocking a current applied to a driving motor(120) when the refrigerant discharged from a compression chamber is overheated beyond a predetermined temperature. The overheating preventing device includes a high temperature sensing plate(161) is mounted to the fixed scroll and deforms in axial height according to temperature of a discharge space, and an orbiting restraining pin(162) coupled with the high temperature sensing part to move together therewith in a pin supporting hole(135) of the fixed scroll for restraining the orbiting scroll or releasing the restraining.

Description

OVERHEATING PREVENTION APPARATUS FOR SCROLL COMPRESSOR}

1 is a longitudinal sectional view showing the inside of a conventional scroll compressor;

Figure 2 is a longitudinal cross-sectional view showing the operating state of the heat reaction valve assembly during normal operation of the conventional scroll compressor;

Figure 3 is a longitudinal sectional view showing the operating state of the thermal reaction valve assembly during abnormal operation of the conventional scroll compressor;

4 is a longitudinal sectional view showing an example of the scroll compressor of the present invention;

Figure 5 is a perspective view showing the decomposition of the overheat prevention unit in the scroll compressor of the present invention,

Figure 6 is a longitudinal cross-sectional view showing the operating state of the overheat prevention unit during the normal operation of the scroll compressor of the present invention,

Figure 7 is a longitudinal sectional view showing an operating state of the overheat prevention unit during abnormal operation of the scroll compressor of the present invention.

** Description of symbols for the main parts of the drawing **

110: case 112: suction space

113: discharge space 120: drive motor

130: fixed scroll 132: fixed wrap

134: discharge port 135: pin support hole

136: detection plate seating groove 140: turning scroll

142: turning wrap 160: overheating prevention unit

161: high temperature detection plate 161a: pin binding hole

162: restraint pin 163: lower cap

163a: pin hole 164: upper cap

164a: through hole

The present invention relates to a device for preventing overheating of a scroll compressor, and more particularly, to a device for preventing overheating of a scroll compressor that can be quickly sensed and stopped during an overheating operation of the compressor.

Generally, the scroll compressor is a high efficiency low noise compressor widely applied to the air conditioner field. The scroll compressor forms two compression chambers in which the swinging lap of the scroll which rotates in rotation is engaged with the fixed lap of the fixed scroll so as to continuously move, and the refrigerant is sucked into each of the compression chambers. It is gradually compressed while moving along the turning trajectory of the scroll and is continuously discharged from the final compression chamber into the inner space of the case.

The scroll compressor has a pump down operation that collects refrigerant from the air conditioner to a condenser, a malfunction of the condenser fan, a high compression ratio operation, or a temperature of the intake gas is overheated or the refrigerant leaks. An abnormally rising phenomenon may occur, which may cause problems such as damage to the wrap of each scroll or carbonization of the oil.

In the case of the high pressure scroll compressor, as the discharge gas fills the inner space of the case and is discharged, an overload circuit breaker (OLP) is installed in the driving motor to stop the operation of the motor when the discharge gas is overheated. However, in the case of the low pressure scroll compressor, since the discharge gas is discharged to the condenser immediately through the discharge chamber separated from the driving motor, even if the discharge gas temperature is overheated, the overload breaker reacts late, which may cause damage to the motor. .

1 is a longitudinal sectional view showing the inside of a conventional scroll compressor, Figure 2 is a longitudinal sectional view showing the operating state of the thermal reaction valve assembly during normal operation of the conventional scroll compressor, Figure 3 is a thermal reaction valve during abnormal operation of the conventional scroll compressor. Longitudinal cross-sectional view showing the operating state of the assembly.

As shown in the drawing, a conventional scroll compressor includes a case 10 having a sealed space therein, an electric drive unit 20 installed inside the case 10 to generate a driving force, and the electric drive unit ( 20 is composed of a compression mechanism 30 for compressing the refrigerant in the case 10 is coupled to.

The case 10 is partitioned into a suction space 12, which is a low pressure part, and a discharge space 13, which is a high pressure part, by the high and low pressure separating plate 11.

A suction pipe 14 for sucking refrigerant is installed in the suction space 12 of the case 10, and a discharge pipe 15 is installed in the discharge space 13 of the case 10.

The motor mechanism 20 includes a stator 21 fixedly installed on an inner circumferential surface of the case 10, a rotor 22 rotatably disposed inside the stator 21, and the rotor 22. It is composed of a drive shaft 23 coupled to the center to transmit the rotational force to the compression mechanism (30).

The stator 21 has a coil wound around the core laminate, and an overload circuit breaker 24 is installed at the upper end of the coil to stop the motor when the compressor is overheated.

The compression mechanism (30) is provided with an involute-shaped fixed wrap (31a) is provided with a fixed scroll (31) installed on the plate valve 16, and the fixed wrap (31a) of the fixed scroll 31 in the compression chamber An involute swing wrap 32a is provided to form a swing scroll 32 mounted on the plate valve 16 and the swing scroll 32 interposed between the plate valve 16 and the swing scroll 32. The old dam ring 33 which prevents rotating of 32 is comprised.

A communication passage 31c is formed in the fixed scroll 31 so that the discharge space 13 and the suction space 12 of the case 10 communicate with each other, and at the inlet of the communication passage 31c of the fixed scroll 31. When the temperature of the discharged refrigerant rises abnormally, the heat reaction valve assembly 40 is installed to open the communication passage 31c.

The thermal reaction assembly 40 includes a plate valve 41 having a disc shape as shown in FIG. 2, and a retainer ring 42 disposed above the plate valve 41 to support the plate valve 41. consist of.

The plate valve 41 is joined to two metal members having different coefficients of thermal expansion in a layered arrangement along the thickness direction, and protrudes to one side in the thickness direction to block the inlet of the communication passage 31c. The blocking portion 41a is formed, and a plurality of through holes 41b are formed around the blocking portion 41a so that the discharge space 13 and the suction space 12 communicate with each other.

The retainer ring 42 is formed in a circular annular shape, and a plurality of fingers (unsigned) extend in a radial direction on an outer circumferential surface thereof.

In the figure, reference numeral 17 denotes a subframe, and 31b denotes a discharge port.

The conventional scroll compressor as described above is operated as follows.

That is, while the drive shaft 23 of the electric motor unit rotates with the rotor 22, the turning scroll 32 is rotated by an eccentric distance from the upper surface of the plate valve 16 by the old dam ring 33, In addition, the turning wrap 32a continuously forms a pair of compression chambers between the fixed wrap 31a, and the rotating scroll 32 continuously rotates while the refrigerant is rotated. Compressed while moving to the center along the trajectory is discharged to the discharge space (13).

At this time, when the temperature of the refrigerant discharged into the discharge space 13 is maintained within a predetermined range as shown in FIG. 2, the cutoff portion 41a is maintained while the central portion of the plate valve 41 is bent downward. The refrigerant discharged to the discharge space 13 is discharged to the discharge pipe 15 by blocking the inlet of the communication passage 31c. On the other hand, as shown in FIG. 3, when the temperature of the refrigerant discharged to the discharge space 13 rises above a predetermined range, the central portion of the plate valve 41 is bent upward, and the blocking portion 41a communicates with the communication path ( The through-hole 41b is opened while falling from 31c, and a part of the refrigerant discharged into the discharge space 13 through the open through-hole 41b flows into the communication flow path 31c and directly enters the overload circuit breaker 24. It was judged that the temperature of the refrigerant discharged by the overload circuit breaker 24 was overheated by the transmission, so that the power supplied to the electric mechanism unit 20 was turned off to stop the compressor.

However, in the conventional overheat prevention device of the scroll compressor as described above, the motor by the operation of the thermal reaction assembly 40 and the thermal reaction assembly 40 which is opened and closed in accordance with the temperature of the refrigerant discharged into the discharge space (13). There is a problem in that the production cost is increased because the configuration of the overload circuit breaker 24 to turn off.

In addition, the refrigerant discharged into the discharge space 13 is transferred to the load breaker 24 through the communication passage 31b, and the motor is stopped by sensing the temperature in the overload breaker 24, so that the temperature of the discharged refrigerant There was also a problem that the overheating operation of the compressor is continued because it does not react quickly to the change.

The present invention has been made in view of the problems of the conventional overheat prevention device of the scroll compressor as described above, the configuration is simplified to reduce the production cost and to quickly react to the temperature change of the refrigerant discharged to shorten the overheating operation of the compressor It is an object of the present invention to provide an overheat prevention device of a scroll compressor.

In order to achieve the object of the present invention, a drive motor installed in the case; Fixed scroll provided with a fixed wrap fixed to the case; A turning scroll which is pivoted by a driving force of the driving motor by being formed with a turning wrap to form a compression chamber in engagement with the fixed wrap of the fixed scroll; A high temperature sensing unit installed in the fixed scroll and deformed according to the temperature of the refrigerant discharged from the compression chamber; It is coupled to the high-temperature detection unit is provided with a scroll compressor overheat prevention apparatus including; a swing restraining unit for restraining or releasing the swing scroll while moving together.

Hereinafter, an apparatus for preventing overheating of a scroll compressor according to the present invention will be described in detail with reference to an embodiment shown in the accompanying drawings.

Figure 4 is a longitudinal sectional view showing an example of the scroll compressor of the present invention, Figure 5 is a perspective view showing the decomposition of the overheat prevention unit in the scroll compressor of the present invention, Figure 6 is an operating state of the overheat prevention unit in the normal operation of the scroll compressor of the present invention Figure 7 is a longitudinal cross-sectional view, Figure 7 is a longitudinal cross-sectional view showing the operating state of the overheat prevention unit during abnormal operation of the scroll compressor of the present invention.

As shown therein, the scroll compressor according to the present invention includes a case 110 in which a sealed inner space is formed and a main frame 116 and a subframe 117 are respectively installed on upper and lower sides of the inner space, and the case. A drive motor 120 installed inside the 110 to generate a driving force, a fixed scroll 130 fixedly installed on an upper surface of the main frame 116, and a fixed wrap 132 of the fixed scroll 130. Spiral turning wrap 142 is formed so as to form a plurality of compression chambers in pairs to be rotated to be pivotally mounted on the upper surface of the main frame 115, the rotating scroll 140 and the main The Oldham's ring 150 which is installed between the frames 116 and prevents the rotating scroll 140 from rotating, and the temperature of the refrigerant that is installed in the fixed scroll 130 and discharged from the compression chamber are Drive motor when overheated above a certain temperature 20 is included in the overheat prevention unit 160 to block the current supplied to.

The case 110 has a high and low pressure separating plate 111 is installed in the middle and the inner space is partitioned into a suction space 112 that is a low pressure part and a discharge space 113 that is a high pressure part. The suction pipe 114 is connected to the suction space 112 of the case 110, and the discharge pipe 115 is connected to the discharge space 113 of the case 110.

The drive motor 120 includes a stator 121 fixedly installed at an inner circumferential surface of the case 110, a rotor 122 rotatably disposed inside the stator 121, and the rotor 122. It is composed of a drive shaft 123 coupled to the center to transmit the rotational force to the compression mechanism.

The stator 121 has a coil wound around the core laminate, and an overload circuit breaker 124 is installed at the upper end of the coil to stop the motor when the compressor overheats.

The fixed scroll 130 has a fixed wrap 132 having the same height to form a pair of compression chambers on the bottom surface of the hard plate portion 131 is formed in an involute shape, the hard plate portion of the fixed scroll 130 In one side, a suction port 133 is formed to communicate with the suction space 112 of the case 110, and the case 110 in the final compression chamber in the center of the hard plate portion 131 of the fixed scroll 130. The discharge port 134 is formed to communicate with the internal space of the discharged refrigerant to the discharge space 113 of the case 110.

In addition, the pin support hole 135 in the height direction of the fixing wrap 132 so that the restraining pin 162 of the overheat prevention unit 160 to be described later is inserted in the edge of the hard plate portion 131 of the fixed scroll 130. And a sensing plate on the outer end of the pin support hole 135 accommodated in the discharge space 113 of the case 110 so that the high temperature sensing plate 161 of the overheat prevention unit 160 to be described later is placed thereon. The seating groove 136 is formed to be negative.

In addition, the pin support hole 135 is located within the range 360 ° from the outer end of the turning wrap 142 so that the restriction pin 162 to be described later to be in close contact with the outer surface of the turning wrap 140 of the turning scroll 140 It is preferable to form a large enough thickness of the restraint pin 162 to restrain the swing scroll 140 stably.

In addition, the pin support hole may be formed in the width direction of the fixing wrap 132 although not shown in the drawing.

The pivoting scroll 140 has the same height on the upper surface of the hard plate portion 141 with the fixed wrap 132 of the fixed scroll 130 to the center to gradually narrow the sealed volume of the two pair of compression chambers Swivel wrap 142 is formed in an involute shape.

The overheat prevention unit 160 is inserted into the sensing plate seating groove 136 of the fixed scroll 130 as shown in Figures 4 and 5, the high temperature that the axial height is deformed in accordance with the temperature change of the discharge space (113) It is coupled to the sensing plate 161 and the high temperature sensing plate 161 to restrain or release the pivoting movement of the pivoting scroll 140 while moving in the axial direction from the pin support hole 135 of the fixed scroll 130. The restraining pin 162, the lower cap 163 for accommodating the high temperature sensing plate 161 and the restraining pin 162 together, and the upper end of the opening side of the lower cap 163 to cover the restraining pin 162 It consists of an upper cap 164 to prevent the departure.

The high temperature sensing plate 161 is formed in a disc shape consisting of a bimetallic material having a plurality of metals having different thermal expansion coefficients so as to be deformed in both thickness directions according to temperature changes, and the restraint pins 162 in the center thereof. The pin binding hole 161a is formed to be inserted and coupled. In addition, although not shown in the drawings, the high temperature sensing plate 161 may be formed in various shapes such as a rectangular shape that can move the restraint pin 162 while being deformed according to a change in temperature of the discharge space 113 as well as a disk shape. Can be.

The restraining pin 162 is inserted into the pin restraint hole 161a of the high temperature sensing plate 161 to be in close contact with the turning wrap 142 and is formed to be enlarged at the upper end of the restraining part 162a. And a pin head portion 162b fixed to the pin binding hole 161a of the high temperature sensing plate 161.

The lower cap 163 is formed so that the outer diameter is inserted into the sensing plate seating groove 136 of the fixed scroll 130, the pin support hole 135 of the fixed scroll 130 in the center of the lower cap 163 The pinhole 163a is formed so that it may communicate with.

The upper cap 164 is formed so that the outer circumferential surface is pressed into the inner circumferential surface of the lower cap 163 is fixed, the center of the upper cap 164 communicates with the discharge space 113 of the case 110, the discharge space The through hole 164a is formed so that the discharge gas of the 113 flows in.

An apparatus for preventing overheating of a scroll compressor according to the present invention as described above has the following effects.

That is, when a current is applied to the coil of the driving motor 120 to rotate the driving shaft 123 together with the rotor 122, the turning scroll 140 coupled to the driving shaft 123 is the old dam ring 150. The pivoting movement is made by the eccentric distance from the upper surface of the main frame 116, with the swing wrap 142 of the swing scroll 140 is continuous between the fixed wrap 132 of the fixed scroll 130 A pair of compression chambers are formed to move to each other, and the revolving scroll 140 continuously rotates and the refrigerant is compressed while moving to the center along the trajectory of the revolving scroll 140 to be discharged to the discharge space 113. .

At this time, when the temperature of the refrigerant discharged into the discharge space 113 is maintained within a predetermined range as shown in FIG. 6, the upper member of the overheat detection plate 161 is expanded more than the lower member so that the central portion is convex upward. As a result, the restraint pin 162 coupled to the overheat detection plate 161 is raised, thereby allowing the compressor to operate normally while the pivoting scroll 140 continues the pivoting motion.

On the other hand, as shown in FIG. 7, when the temperature of the refrigerant discharged to the discharge space 113 rises above a predetermined range, the lower member of the overheat detection plate 161 is expanded more than the upper member so that the center portion is lowered. Deformed in a concave state, thereby causing the restraining pin 162 coupled to the overheat sensing plate 161 to be lowered to be in close contact with the turning wrap 142 of the turning scroll 140, turning the turning scroll 140 You are constrained to exercise. Accordingly, the drive motor 120 is an excessive current is generated to turn the turning scroll 140, so that the overload circuit breaker 124 blocks the current to stop the operation of the compressor.

In this way, it is possible to simplify the configuration for stopping the operation of the drive motor by sensing the temperature of the refrigerant discharged into the discharge space to reduce the production cost and assembly cost, as well as to increase productivity, and discharged from the compression chamber By responding quickly to the temperature of the refrigerant it is possible to prevent damage due to overheating operation of the compressor.

The overheat prevention apparatus of the scroll compressor according to the present invention, when the temperature of the refrigerant to be compressed is overheated by the restraining pin is operated by the overheat detection plate to restrain the turning motion of the turning scroll to stop the operation of the compressor, It is possible to reduce the cost by simplifying the configuration to prevent the overheating operation of the compressor, as well as to quickly respond to the temperature of the refrigerant discharged from the compression chamber to effectively prevent damage to the compressor.

Claims (10)

A drive motor installed in the case; Fixed scroll provided with a fixed wrap fixed to the case; A turning scroll which is pivoted by a driving force of the driving motor by being formed with a turning wrap to form a compression chamber in engagement with the fixed wrap of the fixed scroll; A high temperature sensing unit installed in the fixed scroll and deformed according to the temperature of the refrigerant discharged from the compression chamber; And And a swing restraining unit coupled to the high temperature sensing unit to restrain or release the swing scroll while moving together. The method of claim 1, And the drive motor is provided with an overload circuit breaker on / off according to the amount of current supplied to the drive motor. The method of claim 1, The high temperature detection unit is formed of a bimetal overheat prevention device of the scroll compressor is coupled so that the turning restraint is interlocked when the deformation according to the temperature change of the bimetal. The method of claim 3, The high temperature detection unit is formed of a plate body and the overheat prevention device of the scroll compressor is coupled to the pivoting rest is inserted in the center thereof. The method of claim 1, And the pivot restraining portion is formed into a pin supporting hole of the fixed scroll and includes a restraining pin that prevents the pivot movement of the swing scroll while moving. The method of claim 1, The turning restraint portion is a overheat prevention device of the scroll compressor is installed in the 360 ° range from the end of the turning wrap of the turning scroll. The method of claim 1, And the pivot restraining portion is installed to be in close contact with the outer surface of the swing wrap when the swing scroll is restrained. The method of claim 7, wherein And the pivot restraining portion is installed to move in a lap height direction. The method of claim 7, wherein And the pivot restraining portion is installed to move in a direction orthogonal to the lap height. The method of claim 1, And the high temperature sensing unit and the turning restraining unit are accommodated together in the inner space of the receiving member and modularized.

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