KR101397081B1 - Apparatus for varying capacity in scroll compressor - Google Patents

Abstract

The present invention discloses a capacity variable device for a scroll compressor. The present invention relates to a scroll compressor comprising a fixed scroll and an orbiting scroll which are located inside a casing and are pivotally coupled to each other; A cover having a first space and a second space and being coupled to an upper surface of the fixed scroll and forming a first chamber and a second chamber with the first space and the second space together with the upper surface of the fixed scroll; A first passage communicating the first chamber with a suction side formed by the orbiting movement of the orbiting scroll; A second passage communicating the second chamber with the intermediate pressure side formed by the orbiting movement of the orbiting scroll; A connection pipe communicating the first chamber and the second chamber; And an opening / closing unit mounted on the connection pipe and opening / closing the connection pipe. Therefore, not only the capacity for compressing the gas in the scroll compressor can be changed, but also the structure can be simplified, thereby increasing the energy efficiency of the system and reducing the manufacturing cost.

Description

[0001] APPARATUS FOR VARYING CAPACITY IN SCROLL COMPRESSOR [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a scroll compressor, and more particularly, to a variable capacity device for a scroll compressor that can vary the capacity for compressing gas and simplify the structure.

Generally, a compressor converts electric energy into kinetic energy and compresses the refrigerant gas by its kinetic energy. The compressor is a core component of the refrigeration cycle system, and there are various types such as a rotary compressor, a scroll compressor, and a reciprocal compressor according to a compression mechanism for compressing a refrigerant. Such compressors are used in refrigerators, air conditioners, showcases, and the like.

FIG. 1 is a sectional view showing a compression mechanism of the scroll compressor, and FIG. 2 is a plan view showing a wrap of the fixed scroll and a wrap of the orbiting scroll which constitute the compression mechanism.

The compression mechanism of the scroll compressor includes a fixed scroll 30 mounted in the casing 10 at a predetermined interval from the upper frame 20 mounted in the casing 10, (40) positioned between the fixed scroll (30) and the upper frame (20) so as to pivotally engage with the orbiting scroll (40) and the upper frame (20) Pressure separating plate for separating the inside of the casing (10) into a high-pressure region and a low-pressure region, which is coupled to the fixed scroll (30) and the casing (10) And a discharge valve assembly 60 mounted on the upper surface of the fixed scroll 30 to open and close the discharge hole 31 formed in the fixed scroll 30. [

The orbiting scroll (40) is connected to the eccentric part (71) of the rotary shaft (70) inserted into the upper frame (20).

A suction pipe 12 is connected to one side of the casing 10 located in the low pressure region and a discharge pipe 13 through which gas is discharged to one side of the casing 10 located in the high pressure region is coupled do.

Reference numeral 32 denotes a lap of the fixed scroll 30 protruding in an involute curve shape, 41 is a wrap of the orbiting scroll 40 protruding in the involute curve shape, B is the bush, and S is the sealing member.

Operation of the scroll compressor compression mechanism as described above is as follows.

First, when the rotary shaft 70 is rotated by receiving the rotational force of the power transmission mechanism, the orbiting scroll 40 coupled to the eccentric portion 71 of the rotary shaft rotates about the axis of the rotary shaft 70. The orbiting scroll (40) is pivotally moved while being prevented from being rotated by the overhanging (50).

The lap 41 of the orbiting scroll 40 is engaged with the lap 32 of the fixed scroll 30 and orbiting while the orbiting scroll 40 is pivotally moved so that the lap 41 of the orbiting scroll 40 The plurality of compression pockets P formed by the wraps 32 of the fixed scroll 30 move to the center of the fixed scroll 30 and the orbiting scroll 40 and the volume is changed while sucking the gas And is discharged through the discharge hole (31) of the fixed scroll (30).

The high-temperature, high-pressure gas discharged through the discharge hole (31) of the fixed scroll (30) is discharged to the outside of the casing (10) through the discharge pipe (13)

Generally, the scroll compressor is divided into a high-pressure type and a low-pressure type according to the internal pressure state of the casing 10, and is classified into symmetric and asymmetric depending on the pressure state in the plurality of compressed pockets. In general, the scroll compressor is sucked in by two suction pockets, respectively, to move to the center of the scroll, where the two suction pockets are symmetric when the suction volumes are the same, and when the two suction pockets have different gas suction volumes It is asymmetric.

Such a scroll compressor is usually a component of a refrigeration cycle system, and a refrigeration cycle system including the scroll compressor is mounted in an air conditioner.

Meanwhile, in order to minimize the power consumption, the air conditioner is required to vary the capacity of the scroll compressor for operating the refrigeration cycle system of the air conditioner. That is, when the load is largely applied to the air conditioner, the flow rate of the discharge gas of the scroll compressor is increased and the flow rate of the discharge gas of the scroll compressor is decreased when the load is less.

As a method of varying the capacity of the scroll compressor, there are an inverter system and a bypass system. The inverter system changes the rotational speed of the motor constituting the electric motor mechanism. However, it has a disadvantage that the control is complicated and the unit cost is high. The bypass method uses a constant speed motor and communicates with the high pressure side and the low pressure type, and the unit price is relatively low, but the manufacturing is complicated and the size of the compressor is increased.

It is an object of the present invention to provide a capacity variable device for a scroll compressor that not only can vary the capacity for compressing gas but also can simplify the structure.

In order to achieve the above object, according to the present invention, there is provided a scroll compressor comprising: a fixed scroll and an orbiting scroll which are positioned inside a casing and are swingably engaged with each other; A cover having a first space and a second space and being coupled to an upper surface of the fixed scroll and forming a first chamber and a second chamber with the first space and the second space together with the upper surface of the fixed scroll; A first passage communicating the first chamber with a suction side formed by the orbiting movement of the orbiting scroll; A second passage communicating the second chamber with the intermediate pressure side formed by the orbiting movement of the orbiting scroll; A connection pipe communicating the first chamber and the second chamber; And an opening / closing unit mounted on the connection pipe for opening and closing the connection pipe.

The opening / closing unit is located outside the casing.

The opening / closing unit is located inside the casing.

A fixed scroll and an orbiting scroll which are positioned inside the casing and are swingably engaged with each other; A plurality of first spaces and a plurality of second spaces are coupled to the upper surface of the fixed scroll, and a plurality of first spaces and a plurality of second spaces, together with the upper surface of the fixed scroll, A cover defining a plurality of second chambers; A plurality of first passages communicating the suction side formed by the orbiting movement of the orbiting scroll and the plurality of first chambers, respectively; Second passages for communicating the intermediate pressure side formed by the orbiting movement of the orbiting scroll and the plurality of second chambers; A plurality of connection tubes communicating the first chamber and the second chamber, respectively; And a plurality of opening / closing units mounted on the connection pipes and opening / closing the connection pipes, respectively.

The plurality of opening / closing units are located inside the casing.

The plurality of opening / closing units are located outside the casing.

A first chamber communicating with a suction pressure side formed by pivotally moving the fixed scroll and the orbiting scroll; A second chamber communicating with an intermediate pressure side where the fixed scroll and the orbiting scroll are engaged while pivotally moving; A connection pipe connecting the first chamber and the second chamber; And an opening / closing unit provided in the connection pipe for opening and closing the connection pipe.

In the capacity variable device of the scroll compressor of the present invention, a connection pipe connecting the suction pressure side and the intermediate pressure side is connected through the opening / closing unit, or the connection is blocked, so that the powder mode operation of 100% operation and the saving mode operation of which the compression capacity is reduced . As a result, it is possible to increase the energy efficiency of the system by enabling the variable capacity operation in the hot summer season and the slightly hot autumn season and spring season.

In the case of an inverter system using a variable speed motor, since the amount of gas compression is reduced, the motor rotates at a low speed during operation, so that oil supplied to the bottom of the casing is supplied to the compression mechanism. In the present invention, since the motor rotates at a constant speed, lubrication and reliability are maintained.

Further, the structure is simple, making it easy to manufacture, reducing the manufacturing cost, and operation is simple.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a capacity variable device of a scroll compressor according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 3 is a cross-sectional view showing a compression mechanism of a scroll compressor having a first embodiment of a scroll compressor capacity variable device according to the present invention, and FIG. 4 is a rear view of a fixed scroll constituting the compression mechanism.

As shown in the figure, the compression mechanism of the scroll compressor is as follows. A fixed scroll (100) is mounted in a casing (10) at a predetermined interval from an upper frame (20) mounted in a casing (10) having a predetermined shape. The fixed scroll (100) The orbiting scroll 200 is positioned between the fixed scroll 100 and the upper frame 20. [

The fixed scroll 100 is formed with a wrap 120 having a predetermined thickness and height on one surface of a body 110 having a predetermined shape and a center discharge hole 111 And a suction port 112 is formed on one side of the body portion 110. [

In the orbiting scroll 200, a wrap 220 having a predetermined thickness and height is formed on one surface of a disk 210 having a predetermined thickness and an area, and a boss portion 210 is formed on the other surface of the disk 210, (230) is formed.

The orbiting scroll 200 is inserted between the upper frame 20 and the fixed scroll 100 so that the wrap 220 is engaged with the wrap 120 of the fixed scroll. When the orbiting scroll 200 is pivoted And a plurality of compressed pockets P are continuously formed by the wrap 220 of the orbiting scroll and the wrap 120 of the fixed scroll. At this time, the compression pockets P positioned on the edge side of the fixed scroll 100 are in a suction pressure state of low pressure, and the compression pockets P positioned at the center of the fixed scroll 100 are in a discharge pressure state of high pressure, 100 are in an intermediate pressure state. The orbiting scroll (200) is supported on the upper surface of the upper frame (20).

An ore ring 50 for preventing rotation of the orbiting scroll 200 is coupled between the orbiting scroll 200 and the upper frame 20 and is provided on the upper surface of the fixed scroll 100, And a discharge valve assembly (60) for opening and closing the discharge hole (111).

The boss portion 230 of the orbiting scroll is connected to the eccentric portion 71 of the rotary shaft 70 inserted into the upper frame 20.

A suction pipe 12 through which gas is sucked into the casing 10 is inserted and coupled to a discharge pipe 13 through which the gas is discharged to the casing 10.

The cover 300 is coupled to the upper surface of the fixed scroll 100.

The cover 300 has a first space 320 and a second space 330 formed on one surface of a cover body portion 310 formed to have a predetermined thickness and area and is formed with a cover body portion 310 A plurality of fastening portions 340 are formed.

The cover body 310 is preferably formed in a disk shape having a predetermined thickness.

The first space 320 includes a first groove portion 321 formed to have a predetermined area and depth on one surface of the cover body portion 310 and a second groove portion 321 extending from the first groove portion 321 2 groove portion 322. [0051]

The second space 330 includes a first groove 331 formed on one surface of the cover 300 and having a predetermined area and depth and a second groove 331 extending from the first groove 331 And a second groove portion 332.

The fastening part 340 is formed to have a predetermined area on the outer circumferential surface of the cover body part 310 and has a through hole formed in the extended part. It is preferable that the fastening portions 340 are formed at three intervals.

The suction side compression pocket P formed by the orbiting movement of the orbiting scroll 200 and the upper surface of the fixed scroll 100 formed on the body 110 of the fixed scroll 100, A first passage 130 communicating with the first passage 130 is formed. As shown in FIGS. 5 and 6, the first passage 130 includes a plurality of grooves 131 having a predetermined area and depth, and a plurality of through holes 131 formed in the bottom surface of the grooves 131, The number of the through holes 132 formed in each of the grooves 131 may be two or three. Further, the first passage 130 may include a plurality of small through holes.

The intermediate pressure side compression pocket P formed by the orbiting scroll of the orbiting scroll 200 and the upper surface of the fixed scroll 100 formed on the body 110 of the fixed scroll 100, And a second passage (140) communicating with the upper surface is formed.

5 and 7, the second passage 140 includes a plurality of grooves 141 having a predetermined area and depth and a plurality of through holes 141 formed in the plurality of grooves 141, (142). The number of through holes 142 may be two or three. In another embodiment of the second passage 140, a plurality of small through holes may be formed.

The cover 300 is coupled to the upper surface of the fixed scroll 100, that is, the upper surface of the body 110 of the fixed scroll 100, and the first space 320 of the cover 300 and the second space 330 Is connected to the first passage (130) and the second passage (140) of the fixed scroll (100), respectively. The first space 320 and the second space 330 of the cover 300 constitute the first chamber and the second chamber together with the upper surface of the fixed scroll 100, respectively.

The first passage 130 and the second passage 140 are respectively located in the first groove portion 321 of the first space 320 and the first groove portion 331 of the second space 330 respectively .

The cover 300 is fixed to the upper surface of the fixed scroll 100 by fastening means, and the fastening means is preferably a plurality of bolts. The bolt is inserted into the fastening part 340 of the cover 300 and fastened to the upper surface of the fixed scroll 100.

The first space 320 and the second space 330 of the cover 300 are connected to each other by a connection pipe 400 and the connection pipe 400 is connected to the first and second chambers, 400 is opened and closed.

A connection hole 350 communicating with the first space 320 is formed on an upper surface of the cover 300 and one end of the connection pipe 400 is inserted and coupled to the connection hole 350, A connection hole 360 communicating with the second space 330 is formed on the upper surface of the connection pipe 300 and the other end of the connection pipe 400 is inserted and coupled to the connection hole 360. The connection holes 350 and 360 may be formed to communicate with the second groove 322 of the first space 320 and the second groove 332 of the second space 330, respectively.

An intermediate pipe (not shown) having a predetermined length is coupled to a connection hole 350 communicating with the first space 320 of the cover 300. One end of the connection pipe 400 is inserted into the intermediate pipe And an intermediate pipe (not shown) having a predetermined length is coupled to a connection hole 360 communicating with the second space 330 of the cover 300. The intermediate pipe is connected to the connection pipe 400 May be inserted and coupled.

The opening / closing unit 500 is preferably located inside the casing 10.

On the other hand, the opening / closing unit 500 may be located outside the casing 10 as shown in Fig. When the opening / closing unit 500 is located outside the casing 10, a part of the connecting pipe 400 is passed through the casing 10 and positioned outside the casing 10.

The compressed pockets P formed by the fixed scroll 100 and the orbiting scroll 200 are preferably asymmetric scroll compressors having different gas suction amounts.

9 is a front sectional view showing a second embodiment of the capacity variable device of the scroll compressor of the present invention.

As shown, the second embodiment of the capacity variable device of the scroll compressor of the present invention includes a cover 300 coupled to the upper surface of the fixed scroll 100, a plurality of first spaces 320, Two spaces 330 are provided. It is preferable that the first space 320 is two and the second space 330 is two. Hereinafter, a case where two first spaces 320 and two second spaces 330 are provided will be described.

The first space 320 and the second space 330 are located opposite to each other with respect to the first space 320 and the second space 330.

The shape of the first space 320 corresponds to the shape of the first space 320 described in the first embodiment and the shape of the second space 330 corresponds to the shape of the second space 320 described in the first embodiment, (Not shown).

The two first spaces 320 together with the upper surface of the fixed scroll 100 form two first chambers and the two second spaces 330 together with the upper surface of the fixed scroll 100 form two 2 chambers.

A suction side compression pocket P formed by the orbiting movement of the orbiting scroll 200 is formed in the fixed scroll 100 and two first passages 130 for communicating the two first chambers are formed.

In the fixed scroll (100), intermediate pressure side compression pockets (P) formed by the orbiting movement of the orbiting scroll (200) and two second passages (140) communicating the two second chambers are formed .

The number of the first passages 130 is formed corresponding to the number of the first spaces 320 and the number of the second passages 140 is formed corresponding to the number of the second spaces 330.

The shape of the first passage 130 and the shape of the second passage 140 are formed corresponding to the shapes of the first passage 130 and the second passage 140 of the first embodiment.

The first space 320 connects the first chamber and the second space 330 or the second chamber to the first connection pipe 400 and the first opening and closing unit 500 And the second chamber 400 is connected to the second chamber different from the first chamber and the second opening and closing unit 500 is coupled to the second connection pipe 400.

The two opening / closing units 500 are preferably located inside the casing 10.

On the other hand, the two opening / closing units 500 may be located outside the casing 10. When the opening / closing units 500 are located outside the casing 10, a part of the first and second connection pipes 400 penetrates one side of the casing 10 and is positioned outside the casing 10 .

In another form of the cover 300, as shown in FIG. 10, the cover 300 can be separated into two. That is, as in the first embodiment, the first space 320 and the second space 330 are formed in one cover 300, and the first space 320 and the second space 330 are formed in the other cover 300, A space 330 is formed.

In the third embodiment of the scroll compressor of the present invention, the first chamber communicating with the suction-side compressed pocket (P) formed by the fixed scroll (100) and the orbiting scroll (200) A second chamber formed in the body 110 and communicating with the intermediate pressure side compression pocket P formed by the fixed scroll 100 and the orbiting scroll 200 while being pivotally moved is formed in the body portion of the fixed scroll 100 110). The first chamber and the second chamber are connected to each other by a coupling pipe 400, and the opening and closing unit 500 is coupled to the coupling pipe 400. In this case, the opening / closing unit 500 may be located inside the casing 10 and may be located outside the casing 10.

The operation of the first embodiment of the scroll compressor capacity variable device of the present invention will be described as follows.

First, the operation of the compression mechanism of the scroll compressor is as follows.

When the rotational force of the electric motor mechanism is transmitted to the orbiting scroll 200 through the rotating shaft 70, the orbiting scroll 200 is engaged with the fixed scroll 100 and pivots about the center of the rotating shaft 70. The orbiting scroll (200) is pivotally moved while being prevented from rotating by the overhanging (50).

As the orbiting scroll 200 pivots, the wrap 220 of the orbiting scroll 200 is engaged with the wrap 120 of the fixed scroll 100 to pivot so that the wrap 220 of the orbiting scroll 200 The plurality of compressed pockets P formed by the wraps 120 of the fixed scroll 100 are moved to the center of the fixed scroll 100 and the volume thereof is changed while sucking and compressing the gas, Through the discharge hole (111) of the discharge port (111). Is formed continuously at the edge side of the fixed scroll (100) and the orbiting scroll (200) according to the orbiting motion of the orbiting scroll (200) and moves toward the center of the fixed scroll (100) ) Flows into the compressed pockets (P) through the suction port (112) of the fixed scroll (100).

Pressure suction pockets P in the state where the compressed pockets P are positioned at the edge of the fixed scroll 100. The volume of the compression pockets P is reduced while moving to the center of the fixed scroll 100, Pressure side compression pockets P which are intermediate pressures in a state in which the compression pockets P are in a discharge pressure state in which the pressure of the compression pockets P is high in a state where the compression pockets P are located between the center and the edge of the fixed scroll 100, do.

The high-temperature, high-pressure gas discharged through the discharge hole (111) of the fixed scroll (100) is discharged to the outside through the discharge pipe (13).

On the other hand, when the scroll compressor is operated at a 100% capacity (hereinafter, referred to as a "powder mode"), the connection pipe 400 is closed with the opening / closing unit 500 as shown in FIG. Since the connection pipe 400 is blocked, the compression pocket P located on the suction side and the compression pocket P located on the intermediate pressure side are not connected to each other, and thus the connection pipe 400 is positioned at the edge of the fixed scroll 100 The compressed pockets P are moved to the center of the fixed scroll 100, and the gas sucked into the compression pockets P at the edge is compressed and discharged as it is.

When the scroll compressor is operated (hereinafter, referred to as a saving mode) by reducing the compression capacity, the connection pipe 400 is opened by operating the opening / closing unit 500 as shown in FIG. When the operation is performed in this state, the compression pocket P in the intermediate pressure state and the compression pocket P in the suction pressure communicate with each other, and the compression pocket P on the intermediate pressure side becomes the low pressure suction pressure state. As described above, the pressure of the compression pocket P located between the middle and the edge of the fixed scroll 100 becomes the low pressure suction pressure state, and the compression pocket P is moved from the intermediate pressure position to the fixed scroll 100 And the compressed gas is discharged through the discharge hole 111 of the fixed scroll 100. The compressed gas is discharged through the discharge hole 111 of the fixed scroll 100, Accordingly, not only the gas pressure discharged through the discharge hole 111 is reduced, but also the capacity is reduced.

The operation of the second embodiment and the third embodiment of the present invention are similar to those of the first embodiment except that a plurality of the opening / closing units 500 close the connection pipes 400, 500 open the connection pipes 400, the saving mode is performed.

As described above, according to the present invention, the connection pipe 400 connecting the suction pressure side and the intermediate pressure side is connected through the opening / closing unit 500 or the connection is blocked to perform the saving mode operation Lt; / RTI > As a result, it is possible to save 25% ~ 33% of the energy efficiency of the whole system compared to the on / off method by operating the power mode in the hot summer and the saving mode operation in the warmer autumn or spring season.

In the case of the inverter system using a variable speed motor, since the motor rotates at a low speed during the saving mode operation, the amount of oil supplied to the bottom of the casing 10 toward the compression mechanism is small, which may cause problems in oil supply and reliability. According to the invention, since the motor of the electric motor mechanism rotates at a constant speed, lubrication and reliability are maintained.

The present invention is composed of the cover 300, the coupling pipe 400, and the opening / closing unit 500, so that the structure is simple and operation is facilitated. Therefore, it is possible not only to reduce the production cost but also to make the production easier.

1 is a sectional view showing a compression mechanism of a general scroll compressor,

2 is a plan view showing a fixed scroll wrap and an orbiting scroll wrap constituting a compression mechanism of the scroll compressor,

3 is a sectional view showing a compression mechanism of a scroll compressor provided with a first embodiment of a capacity variable device of a scroll compressor of the present invention,

4 is a rear view of a fixed scroll constituting a compression mechanism portion of a scroll compressor provided with a first embodiment of the capacity variable device of the scroll compressor of the present invention.

5 is a perspective view of a cover constituting the first embodiment of the scroll compressor capacity variable device of the present invention,

6 is a sectional view showing a first passage constituting the first embodiment of the scroll compressor capacity variable device of the present invention,

7 is a sectional view showing a second passage constituting the first embodiment of the scroll compressor capacity variable device of the present invention,

Fig. 8 is a front view showing an installation position of the opening / closing unit constituting the first embodiment of the scroll compressor capacity variable device of the present invention, Fig.

FIG. 9 is a sectional view showing a second embodiment of the scroll compressor capacity variable device of the present invention,

10 is a cross-sectional view showing a third embodiment of a variable capacity device for a scroll compressor according to the present invention.

FIGS. 11 and 12 are sectional views respectively showing the operating states of the first embodiment of the scroll compressor capacity varying device of the present invention. FIG.

DESCRIPTION OF REFERENCE NUMERALS

10; A casing 100; Fixed scroll

130; A first passage 140; The second passage

300; Cover 320; The first space

330; A second space 400; Connector

500; Opening / closing unit

Claims (13)

A fixed scroll and an orbiting scroll which are positioned inside the casing and are swingably engaged with each other; At least one first space and at least one second space are provided and are coupled to the upper surface of the fixed scroll so that the first space and the second space together with the upper surface of the fixed scroll respectively correspond to at least one or more first chambers At least one cover forming at least one second chamber; At least one first passage communicating between the suction side formed by the orbiting movement of the orbiting scroll and the first chamber; At least one second passage communicating between the intermediate pressure side formed by the orbiting movement of the orbiting scroll and the second chamber; At least one connection pipe communicating the first chamber and the second chamber; And And at least one opening / closing unit mounted on the connection pipe for opening / closing the connection pipe, Wherein the first space and the second space each have a first groove portion formed to have an area and a depth on one surface of the cover, and a second groove portion extending from one side of the first groove portion, 2 groove portion of the scroll compressor. The capacity variable device of claim 1, wherein the opening / closing unit is located outside the casing. The capacity variable device of claim 1, wherein the opening / closing unit is located inside the casing. The capacity variable device of claim 1, wherein the first passage and the second passage are through holes formed in the body of the fixed scroll, respectively. delete 2. The variable capacity device of claim 1, wherein the first groove is located in the first groove and the one side of the connection pipe is communicated with the second groove. delete 2. The capacity variable device of claim 1, wherein the second passage is located in the first groove and is communicated with the other side of the coupling tube in the second groove. The capacity variable device of claim 1, wherein the cover is fixed to the fixed scroll by a plurality of bolts. delete delete delete delete

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