KR102379078B1 - Electric compressor - Google Patents

Abstract

The present invention includes a motor, a rotating shaft rotated by the motor, and a main housing in which a compression means for sucking and compressing a refrigerant as it rotates by the rotating shaft is installed; an inverter housing installed under the main housing; and an inverter module seated in the inverter housing and controlling the motor, wherein the inverter module includes a cover plate disposed below the inverter housing, and formed along the circumference of the cover plate, the inverter housing side a cover part including a cover wall disposed to face; a control part disposed on the upper side of the cover part and mounted on the cover plate so as to be disposed inside the cover wall; It provides an electric compressor including a bracket for fixing the cover.

Description

Electric compressor

The present invention relates to an electric compressor, and more particularly, to an electric compressor that sucks in, compresses, and discharges refrigerant through driving of a motor receiving current from an external power source.

In general, a compressor refers to a device that sucks a refrigerant stored in an external storage tank, compresses it, and supplies it to a desired space or mechanical parts and circulates it. Compressors are classified into mechanical and electronic types according to the type of power source, and are classified into vane type, scroll type, screw type, etc. according to the refrigerant compression method.

Among them, the electric compressor refers to a compressor that sucks in a refrigerant, compresses it, and then discharges it through driving of a motor receiving current from an external power source. The electric compressor includes a main housing in which a motor, a rotating shaft, and a compression means are accommodated, an inverter housing installed on one side of the main housing, and an inverter assembly assembled to the inverter housing and connected to an external power source to control the motor. In addition, the inverter assembly includes a control unit mounted on the inverter housing and an inverter cover mounted on the inverter housing to cover the control unit.

At this time, according to the conventional electric compressor, the control unit and the inverter cover are designed to be individually assembled in the inverter housing. That is, in the conventional electric compressor, the control unit is seated on the inverter housing and the inverter cover covers the control unit, and then the main bolt passes through the inverter cover and the inverter housing so that the inverter assembly is assembled to the inverter housing. Therefore, according to the conventional electric compressor, the process of assembling the inverter assembly to the inverter housing is complicated, and there is a problem that considerable time and effort is required even when the inverter assembly is separated for reasons such as maintenance and repair of the inverter assembly. .

Patent Publication No. 10-2015-0081782 Electric Compressor

The present invention was created to solve the above problems, and it is an object of the present invention to provide an electric compressor having a modularized structure of the inverter assembly, which is simpler and easier to install and remove the inverter assembly.

The present invention includes a motor, a rotating shaft rotated by the motor, and a main housing in which a compression means for sucking and compressing a refrigerant as it rotates by the rotating shaft is installed; an inverter housing installed under the main housing; and an inverter module seated in the inverter housing and controlling the motor, wherein the inverter module includes a cover plate disposed below the inverter housing, and formed along the circumference of the cover plate, the inverter housing side a cover part including a cover wall disposed to face; a control part disposed on the upper side of the cover part and mounted on the cover plate so as to be disposed inside the cover wall; It provides an electric compressor including a bracket for fixing the cover.

The cover part is formed on the upper surface of the cover plate, and further includes a plurality of auxiliary fastening ends each having a first cover hole, and the bracket part has a plurality of bracket holes formed to correspond to the plurality of first cover holes. The inverter module further includes a plurality of auxiliary bolts inserted into the plurality of first cover holes and the plurality of bracket holes to fix the bracket portion to the cover portion.

The electric compressor according to the present invention further includes a packing part which is seated on the upper surface of the cover wall and is disposed to surround the circumference of the bracket part.

The packing part includes a packing core disposed to surround the circumference of the bracket part, and a packing member surrounding the outside of the packing core, wherein the packing core has an inner surface opposite to the bracket part, an inner surface of the packing member It is arranged to protrude further toward the bracket portion.

The packing part is formed to protrude toward the cover wall from the lower surface of the packing member facing the cover wall, is formed to extend along the circumferential direction of the packing member, and is disposed to be spaced apart from each other in the direction from the inner surface to the outer surface of the packing member It further includes a plurality of packing projections.

The packing part is disposed to be spaced apart from each other along the circumferential direction of the packing core on the inner surface of the packing core, and further includes a plurality of fixing protrusions inserted into fixing grooves formed in the bracket part.

The cover part is disposed to be spaced apart from each other along the circumferential direction of the cover wall on the inner surface of the cover wall, and further includes a plurality of insertion ends each having a second cover hole formed therein, and on the outer surface of the bracket part, the plurality of insertion ends A plurality of bracket flanges respectively seated on the stage are formed, and the electric compressor according to the present invention further includes a plurality of main bolts respectively inserted into the plurality of second cover holes to fix the inverter module to the inverter housing. do.

In the electric compressor according to the present invention, as the bracket part is interposed between the inverter housing and the cover part, the amount of pressurization of the cover wall with respect to the packing part is adjusted.

According to the electric compressor according to the present invention, by providing an inverter module designed to include a cover part, a control unit seated on the cover unit, and a bracket unit disposed between the control unit and the inverter housing and fixing the control unit to the cover unit, the conventional electric type Modularization of the inverter assembly provided in the compressor can be achieved.

Therefore, according to the electric compressor according to the present invention, the inverter module can be assembled and separated from the inverter housing in a single process without individually installing each component of the inverter module in the inverter housing, and thus the inverter module The time and effort required for the installation and separation of the device can be dramatically reduced.

1 is a perspective view of an electric compressor according to the present invention.
FIG. 2 is an exploded perspective view of the inverter module shown in FIG. 1 .
3 is a cross-sectional view illustrating a state in which the inverter module and the inverter housing are cut along the line AA shown in FIG. 1 in a state in which the inverter module is mounted on the inverter housing in FIG. 1 .
FIG. 4 is an enlarged perspective view of part B shown in FIG. 2 .
5 is a view illustrating the inverter module as viewed from the inverter housing side in a state in which each component of the inverter module shown in FIG. 2 is assembled.
6 is an enlarged perspective view of a portion C shown in FIG. 5 .
7 is a front view of the packing shown in FIG. 2 .
8 is a cross-sectional view illustrating a state in which the packing shown in FIG. 7 is cut along line DD.

Although the present invention has been described with reference to the embodiment shown in the drawings, which is merely exemplary, it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the appended claims.

1 to 8 , the electric compressor 1000 according to the present invention includes a main housing 1100 , an inverter housing 1200 , an inverter module 1300 , and a plurality of main bolts 1400 .

Referring to FIG. 1 , the main housing 1100 accommodates a motor (not shown) therein. The motor is driven by receiving current from an external power source. In order to compress the refrigerant sucked into the main housing 1100, a rotating shaft (not shown) coupled to the motor and a compression means (not shown) coupled to the rotating shaft are installed inside the main housing 1100. do. The rotating shaft is coupled to the motor and rotates by the motor. The compression means is coupled to the rotation shaft, and rotates together with the rotation shaft. When the electric compressor 1000 according to the present invention is a scroll compressor, the compression means may correspond to a fixed scroll or a rotating scroll. Meanwhile, the compression means is not necessarily installed only inside the main housing 1100 , but may also be installed outside the main housing 1100 .

1 and 3 , the inverter housing 1200 is installed under the main housing 1100 , and the inverter module 1300 is assembled from the lower side. The inverter housing 1200 includes a housing plate 1210 , a housing wall 1220 , and a plurality of housing coupling ends 1230 . The housing plate 1210 is coupled to the lower side of the main housing 1100 . The housing wall 1220 is formed along the circumference of the housing plate 1210 and is disposed to face downward. The plurality of housing coupling ends 1230 are formed on the inner wall of the housing wall 1220 and are disposed to be spaced apart from each other along the circumferential direction of the housing wall 1220 . A housing hole 1231 into which the main bolt 1400 is inserted is formed between the housing wall 1220 and the housing coupling end 1230 .

2 to 8 , the inverter module 1300 includes a cover part 1310 , a control part 1320 , a bracket part 1330 , a plurality of auxiliary bolts 1340 and a packing part 1350 . .

2 and 3 , the cover part 1310 is disposed at the lowermost side of the electric compressor 1000 according to the present invention, and therein the control unit 1320, the bracket part 1330, and a plurality of Auxiliary bolts 1340 and packing part 1350 are disposed. And the cover part 1310 is mounted on the lower side of the inverter housing 1200, and the control unit 1320, the bracket part 1330, the plurality of auxiliary bolts 1340 and the packing part 1350 are attached to the inverter housing. (1200) and fixed to the main housing (1100). To this end, the cover part 1310 includes a cover plate 1311 , a cover wall 1312 , a plurality of auxiliary fastening ends 1313 , and a plurality of insertion ends 1315 . The cover wall 1312 is formed along the circumference of the cover plate 1311 and is disposed to face the inverter housing 1200 side. In this case, the cover wall 1312 is disposed to face the housing wall 1220 . Accordingly, when the inverter module 1300 is mounted on the inverter housing 1200 , a packing part 1350 to be described later is interposed between the cover wall 1312 and the housing wall 1220 .

The plurality of auxiliary fastening ends 1313 are disposed on the upper surface of the cover plate 1311 , and first cover holes 1314 into which the auxiliary bolts 1340 are inserted are formed. The plurality of insertion ends 1315 are formed on the inner wall of the cover wall 1312 and are disposed to be spaced apart from each other along the circumferential direction of the cover wall 1312 . A second cover hole 1316 is formed in each of the plurality of insertion ends 1315 . In more detail, the second cover hole 1316 is formed between the cover wall 1312 and the insertion end 1315 , respectively. In this case, the plurality of insertion ends 1315 are respectively disposed to face the plurality of housing coupling ends 1230 . In addition, the plurality of second cover holes 1316 are disposed to be concentric with the plurality of housing holes 1231 , respectively. Accordingly, the plurality of main bolts 1400 are respectively inserted into the plurality of second cover holes 1316 and the plurality of housing holes 1231 , thereby fixing the inverter module 1300 to the inverter housing 1200 . will make it

The control unit 1320 is seated on the upper surface of the cover plate 1311 , and is disposed inside the cover wall 1312 . The controller 1320 controls the motor based on a current applied from an external power source (not shown).

2 to 5 , the bracket unit 1330 is disposed on the upper side of the control unit 1320 to cover the control unit 1320 , and is seated on the cover unit 1310 to provide the control unit 1320 . is fixed to the cover part 1310 . The bracket unit 1330 may cover the entirety of the control unit 1320 or may be designed to cover only a portion of the control unit 1320 . Also, different from that shown in FIGS. 2 to 5 , the bracket unit 1330 may fix the control unit 1320 to the cover unit 1310 from the outside in the radial direction of the control unit 1320 .

The bracket part 1330 is formed with a plurality of bracket holes 1331 , a plurality of bracket flanges 1332 , and a plurality of fixing grooves 1334 . The plurality of bracket holes 1331 are respectively formed at positions corresponding to the plurality of first cover holes 1314 . In addition, the plurality of auxiliary bolts 1340 are inserted into the bracket hole 1331 and the first cover hole 1314 from the upper side of the bracket part 1330, respectively, to cover the bracket part 1330. It is fixed to the part 1310 . At this time, the control unit 1320 has a plurality of through holes at positions corresponding to the plurality of bracket holes 1331 and the plurality of first cover holes 1314 so that the plurality of auxiliary bolts 1340 can pass therethrough. (not shown) may be formed.

As such, in the inverter module 1300, the control unit 1320 is seated on the cover unit 1310, the bracket unit 1330 covers the control unit 1320, and the plurality of auxiliary bolts 1340. is designed to fix the bracket part 1330 to the cover part 1310, so that the inverter module 1300 is modularized with respect to the inverter housing 1200 and the main housing 1100. can be designed. Therefore, according to the electric compressor 1000 according to the present invention, the inverter module 1300 can be mounted and detached from the inverter housing 1200 and the main housing 1100 more quickly and accurately.

3 to 6 , the bracket flange 1332 is formed on a peripheral surface of the bracket part 1330 facing the packing part 1350 . And the bracket flange 1332 is interposed between the housing coupling end 1230 and the insertion end 1315 . At this time, in the bracket flange 1332 , a flange groove 1333 is formed on the packing part 1350 side. As shown in FIGS. 5 and 6 , the flange groove 1333 is formed to overlap a portion of the second cover hole 1316 when viewed from the inverter housing 1200 side. And the packing groove 1355 of the packing part 1350, which will be described later, is formed to overlap with the remaining portion of the second cover hole 1316 that is not overlapped by the flange groove 1333 . That is, as the packing part 1350 is installed along the circumference of the bracket part 1330, the flange groove 1333 and the packing groove 1355 to be described later are formed together with the second cover hole 1316 and formed to have the same shape. And the plurality of main bolts 1400, as shown in FIG. 3, respectively, from the lower side of the cover part 1310, the second cover hole 1316, the flange groove 1333 and the packing groove in turn. 1355 , and is inserted into the housing hole 1231 to fix and assemble the inverter module 1300 to the inverter housing 1200 .

Here, the plurality of auxiliary bolts 1340 are provided for modularization of the inverter module 1300 . That is, referring to FIG. 2 , the plurality of auxiliary bolts 1340 are sequentially inserted into the bracket unit 1330 , the control unit 1320 and the cover unit 1310 from the upper side of the inverter module 1300 , and the It serves to fix the control unit 1320 and the bracket unit 1330 to the cover unit 1310 . On the other hand, the plurality of main bolts 1400 are provided to fasten the inverter module 1300 already designed to form a modular structure to the inverter housing 1200 . That is, referring to FIG. 1 , the plurality of main bolts 1400 are inserted into the inverter module 1300 and the inverter housing 1200 from the lower side of the inverter module 1300 , and the inverter module 1300 . It serves to fix the inverter housing (1200). Therefore, it will be said that the auxiliary bolt 1340 and the main bolt 1400 are different from each other in their insertion direction and role.

Referring back to FIGS. 5 and 6 , the plurality of fixing grooves 1334 are formed on the circumferential surface of the bracket part 1330 and are disposed to be spaced apart from each other along the circumferential direction of the bracket part 1330 . . In addition, a plurality of fixing protrusions 1354 of the packing part 1350, which will be described later, are respectively inserted into the plurality of fixing grooves 1334 . Accordingly, the packing part 1350 is maintained in a fixed state without rotating along the circumferential direction of the bracket part 1330 by the plurality of fixing protrusions 1354 .

5 to 8, the packing part 1350 is interposed between the cover wall 1312 and the housing wall 1220, and is disposed to surround the circumference of the bracket part 1330, A space is sealed between the inverter module 1300 and the inverter housing 1200 . To this end, the packing part 1350 includes a packing core 1351 , a packing member 1352 , a plurality of packing protrusions 1353 and a plurality of fixing protrusions 1354 , and a plurality of packing grooves 1355 are provided. is formed

Referring to FIG. 8 , the packing core 1351 is disposed to surround the circumference of the bracket part 1330 . The packing member 1352 is disposed to surround the outside of the packing core 1351 . At this time, the packing core 1351 may be disposed such that an inner surface opposite to the circumferential surface of the bracket portion 1330 further protrudes toward the bracket portion 1330 with respect to the inner surface of the packing member 1352 . there is. The packing member 1352 may be manufactured by an insert injection method with respect to the packing core 1351, but is not limited thereto.

The plurality of packing protrusions 1353 are formed on an upper surface of the packing member 1352 facing the housing wall 1220 and a lower surface of the packing member 1352 facing the cover wall 1312 . In more detail, the plurality of packing protrusions 1353 protrude from the upper and lower surfaces of the packing member 1352 , respectively, and are formed to extend along the circumferential direction of the packing member 1352 . And, of the packing member 1352 , a surface opposite to the circumferential surface of the bracket part 1330 is referred to as an inner surface, and a surface facing the inner surface of the packing member 1352 or an upper surface and a lower surface of the packing member 1352 . And when the remaining surfaces other than the inner surface are referred to as the outer surface, the plurality of packing protrusions 1353 are disposed to be spaced apart from each other in the outer surface side direction (or the outer surface to the inner surface side direction) from the inner surface of the packing member 1352 . As such, when the plurality of packing protrusions 1353 are provided on the upper and lower surfaces of the packing member 1352, they are in closer contact with the housing wall 1220 and the cover wall 1312, and the housing wall ( The space between the 1220 and the cover wall 1312 is more effectively sealed.

The plurality of fixing protrusions 1354 are formed on the inner surface of the packing core 1351 and are disposed to be spaced apart from each other along the circumferential direction of the packing core 1351 . In addition, the plurality of fixing protrusions 1354 are disposed at positions corresponding to the plurality of fixing grooves 1334 formed on the circumferential surface of the bracket part 1330 , and are respectively inserted into the plurality of fixing grooves 1334 . Accordingly, the plurality of fixing protrusions 1354 allow the packing part 1350 to maintain a fixedly arranged state without rotating along the circumferential direction of the bracket part 1330 .

The plurality of packing grooves 1355 are formed on the inner surface of the packing core 1351 and are disposed to be spaced apart from each other along the circumferential direction of the packing core 1351 . At this time, the plurality of packing grooves 1355 are formed at positions corresponding to the plurality of flange grooves 1333 , and are formed to face the plurality of flange grooves 1333 . And, as described above, the packing groove 1355 has the same shape as the second cover hole 1316 together with the flange groove 1333 and is formed to be concentric with the second cover hole 1316 . The main bolt 1400 is inserted into the second cover hole 1316 , the second flange groove 1333 , the packing groove 1355 , and the housing hole 1231 , and the inverter module 1300 . is fixed to the inverter housing 1200 . At this time, the main bolt 1400 passes between the bracket flange 13320 and the packing part 1350 as shown in FIG. 3 .

As described above, according to the electric compressor 1000 according to the present invention, the cover part 1310 , the control unit 1320 seated on the cover part 1310 , the control unit 1320 , and the inverter housing 1200 . By having the inverter module 1300 disposed between and designed to include a bracket 1330 for fixing the control unit 1320 to the cover unit 1310, modularization of the inverter assembly provided in the conventional electric compressor can be promoted. there is.

Therefore, according to the electric compressor 1000 according to the present invention, each component of the inverter module 1300 is not individually installed in the inverter housing 1200, and the inverter module 1300 is installed in the inverter housing 1200 in a single process. 1200) can be assembled and separated, and accordingly, time and effort required for installation and separation of the inverter module 1300 can be remarkably reduced.

On the other hand, in the electric compressor 1000 according to the present invention, as the bracket part 1330 is interposed between the inverter housing 1200 and the cover part 1310 , the cover for the packing part 1350 . The amount of pressurization of the wall 1312 is adjusted. More specifically, referring to FIG. 3 , the bracket flange 1332 is interposed between the housing coupling end 1230 and the insertion end 1315, so that the cover wall ( 1312) is controlled to be less than or equal to a predetermined value.

If the bracket flange 1332 is not interposed between the housing coupling end 1230 and the insertion end 1315, in the electric compressor 1000 according to the present invention, only the packing unit 1350 is the It is in a state interposed between the housing wall 1220 and the cover wall 1312 . In this state, when the tightening amount of the main bolt 1400 is increased, the packing part 1350 is subjected to excessive pressure along the insertion direction of the main bolt 1400, and accordingly the packing part 1350 is It is compressed excessively, and the packing part 1350 is damaged. And as the packing part 1350 is damaged, the sealing performance of the packing part 1350 is lowered, and air, dust, refrigerant, etc. are introduced between the housing wall 1220 and the cover wall 1312. can occur.

However, like the electric compressor 1000 according to the present invention, when the bracket flange 1332 is interposed between the housing coupling end 1230 and the insertion end 1315, the main bolt 1400 is excessively Even if it is tightened, it is possible to prevent the packing portion 1350 from being compressed to a thickness smaller than the thickness of the bracket flange 1332 by the presence of the bracket flange 1332 . Therefore, according to the electric compressor according to the present invention, as the bracket part 1330 is interposed between the inverter housing 1200 and the cover part 1310 , the cover wall 1312 for the packing part 1350 is ) is adjusted to prevent the thickness of the packing part 1350 from being reduced to less than a reference value.

1000: electric compressor 1100: main housing
1200: inverter housing 1300: inverter module
1400: a plurality of main bolts

Claims (8)

a main housing in which a motor, a rotating shaft rotated by the motor, and a compression means for sucking and compressing refrigerant as it rotates by the rotating shaft are installed;
an inverter housing installed under the main housing; and
It is seated in the inverter housing, including an inverter module for controlling the motor,
The inverter module is
A cover portion including a cover plate disposed below the inverter housing, and a cover wall formed along the circumference of the cover plate and disposed to face the inverter housing;
a control unit disposed on the upper side of the cover part and seated on the cover plate so as to be disposed inside the cover wall;
a bracket portion disposed on the upper side of the control unit and fixing the control unit to the cover unit;
It is seated on the upper surface of the cover wall and includes a packing part disposed to surround the circumference of the bracket part,
The packing part,
a packing core disposed to surround the periphery of the bracket portion;
Including a packing member surrounding the outside of the packing core,
In the packing core, an inner surface opposite to the bracket portion is disposed to protrude more toward the bracket portion than an inner surface of the packing member. The method according to claim 1,
The cover part,
It is formed on the upper surface of the cover plate, and further comprises a plurality of auxiliary fastening ends each having a first cover hole formed therein,
A plurality of bracket holes are formed in the bracket portion to correspond to the plurality of first cover holes,
The inverter module is
The electric compressor further comprising a plurality of auxiliary bolts inserted into the plurality of first cover holes and the plurality of bracket holes to fix the bracket portion to the cover portion. delete delete The method according to claim 1,
The packing part,
A plurality of packings protruding from the lower surface of the packing member opposite to the cover wall toward the cover wall, are formed to extend along the circumferential direction of the packing member, and are disposed to be spaced apart from each other in the direction from the inner surface to the outer surface of the packing member An electric compressor further comprising a projection. The method according to claim 1,
The packing part,
The electric compressor further comprising a plurality of fixing protrusions arranged to be spaced apart from each other along a circumferential direction of the packing core on the inner surface of the packing core and inserted into the fixing grooves formed in the bracket part. The method according to claim 1,
The cover part,
It is arranged to be spaced apart from each other along the circumferential direction of the cover wall on the inner surface of the cover wall, and further comprises a plurality of insertion ends each having a second cover hole formed therein;
A plurality of bracket flanges respectively seated on the plurality of insertion ends are formed on the outer surface of the bracket portion,
The electric compressor further comprising a plurality of main bolts respectively inserted into the plurality of second cover holes to fix the inverter module to the inverter housing. 8. The method of claim 7,
As the bracket part is interposed between the inverter housing and the cover part, the amount of pressurization of the cover wall with respect to the packing part is adjusted.

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