KR102688254B1 - Electric compressor - Google Patents

Abstract

The present invention includes: a compressor main body in which a motor unit is installed, a suction port through which refrigerant is sucked is formed on one side, and a compression unit that receives power from the motor unit and compresses the refrigerant is provided on the other side; an inverter connected to the compressor body and controlling the operation of the motor unit while supplying power to the motor unit; an inverter case that surrounds the inverter from the outside and seals it so that the inverter is not exposed to the outside; and a sound insulating case accommodated inside so that the compressor body and the inverter case are separated from each other to prevent vibration of the compressor body from being transmitted to the inverter and the outside, wherein the sound insulating case separates the compressor body and the inverter case. It includes a lower sound insulator case supported at the lower part, and an upper sound insulator case provided on an upper part of the lower sound insulator case and sealing an upper part of the lower sound insulator case that is opened, and the lower sound insulator case is separated by a lower partition wall. It is divided into a first lower space and a second lower space, the upper sound insulation case is divided into a first upper space and a second upper space by an upper partition, and the inverter case is divided into the first lower space and the first upper space. An electric compressor is provided, wherein the compressor body is located within the second lower space and the second upper space.
Therefore, the inverter and the compressor body are separated to prevent the inverter from being damaged by the vibration of the compressor body. After the inverter is sealed with the inverter case, the inverter case and the compressor body are sealed with a sound insulation case to prevent the vibration of the compressor body from being transmitted to the inverter and the outside. The inverter can be easily replaced by preventing it from being transmitted to the sound source and not fixing the inverter to the sound insulating case through a separate fixing means.

Description

Electric compressor

The present invention relates to an electric compressor, and more specifically, to an electric compressor having a structure in which the compressor body and the inverter are separated.

Referring to the background technology described in Korean Patent Publication No. 2010-001822, various compressors such as reciprocating, rotary, and scroll compressors have been developed and used depending on their operation method.

Here, the reciprocating compressor is a compressor that suctions, compresses, and discharges the working fluid, that is, refrigerant, while the piston reciprocates within the cylinder, and the rotary compressor is a compressor that compresses the refrigerant while the rotor rotates within the cylinder. .

Meanwhile, a scroll compressor is a compressor that compresses refrigerant through pockets of variable volume between scroll wraps formed on each of the fixed and orbiting scrolls while the orbiting scroll rotates with respect to the fixed scroll.

In addition, among these compressors, an electric compressor that uses an electric motor as a power source consists of a motor part including an electric motor and a compression part that compresses the refrigerant.

In recent years, electric motors capable of inverter control have been applied to reduce the overall power consumption of refrigeration and air-conditioning devices such as air conditioners and to efficiently adjust the rotation speed of the electric motor in cases of refrigerant shortage.

1 is a schematic cross-sectional view showing an electric compressor according to the prior art.

As shown in FIG. 1, in a conventional electric compressor, the compression unit (not shown) is disposed on one side (11) of the housing 10, and an electric motor (not shown) is housed in the opposite side (12). there is.

Additionally, a base plate 30 is installed above the housing 10 with a joining plate 20 interposed therebetween.

Additionally, an inverter 40 is disposed on the circuit mounting surface 31 of the base plate 30 and is covered with a cover 50. Meanwhile, the inverter 40 is connected to the electric motor through a bus bar 60 that penetrates the base plate 30.

This inverter 40 is connected to a microcomputer unit including an IC device in which an operation program is stored, an IGBT device unit that switches the phase and frequency of the current applied to drive the microcomputer unit, and an external storage medium to store the program stored in the microcomputer unit. It is equipped with a communication unit and other high-current and low-current consumption elements that can be modified or upgraded.

Meanwhile, in the past, the microcomputer unit, IGBT device unit, communication unit, high current consumption device, and low current consumption device were implemented on a single printed circuit board.

And, as the electric motor rotates at high speed, heat and vibration are generated, and the generated heat and vibration are conducted to the inverter 40 through the housing 10.

Therefore, in the past, heat and vibration generated from the electric motor were transmitted to the inverter 40 and affected its components. As a result, microcomputer units and low-current consumption elements sensitive to heat and vibration malfunctioned, and in severe cases, In addition, there were frequent cases of malfunction of the microcomputer unit due to noise generated from the IGBT device unit.

The present invention was created to solve the above problems. The inverter is wrapped around the inverter case, the compressor body and the inverter case are spaced apart, the inverter is prevented from being damaged by vibration of the compressor body, and the compressor body is sealed with a sound insulation case. The purpose is to provide an electric compressor that can prevent vibration of the compressor body from being transmitted to the outside.

In order to achieve the above object, the present invention includes: a compressor body in which a motor unit is installed, a suction port through which refrigerant is sucked is formed on one side, and a compression unit that receives power from the motor unit and compresses the refrigerant is provided on the other side; an inverter connected to the compressor body and controlling the operation of the motor unit while supplying power to the motor unit; an inverter case that surrounds the inverter from the outside and seals it so that the inverter is not exposed to the outside; and a sound insulating case accommodated inside so that the compressor body and the inverter case are separated from each other to prevent vibration of the compressor body from being transmitted to the inverter and the outside, wherein the sound insulating case separates the compressor body and the inverter case. It includes a lower sound insulator case supported at the lower part, and an upper sound insulator case provided on an upper part of the lower sound insulator case and sealing an upper part of the lower sound insulator case that is opened, and the lower sound insulator case is separated by a lower partition wall. It is divided into a first lower space and a second lower space, the upper sound insulation case is divided into a first upper space and a second upper space by an upper partition, and the inverter case is divided into the first lower space and the first upper space. An electric compressor is provided, wherein the compressor body is located within the second lower space and the second upper space.

In the electric compressor according to the present invention, the inverter case includes a seating body on which the inverter is seated, one end of which is open and the other end and a peripheral surface having a sealed shape, and a sealing plate that seals the open end of the seating body. This can be done, and a through hole can be formed in the other sealed end of the seating body.

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The electric compressor according to the present invention may further include a cooling fin that is provided between the compressor body and the inverter case and cools the inverter through refrigerant sucked into the compressor body.

In the electric compressor according to the present invention, a first insertion hole and a second insertion hole into which the cooling fin is inserted may be formed in the lower partition and the upper partition, the cooling fin may have a wave shape, It may be provided in close contact between the compressor body and the inverter case.

The electric compressor according to the present invention may further include a connecting member connecting the compressor body and the inverter.

The electric compressor according to the present invention separates the inverter and the compressor body to prevent the inverter from being damaged by vibration of the compressor body. After sealing the inverter with the inverter case, the inverter case and the compressor body are sealed with a sound insulation case to protect the compressor body from damage. Vibration is prevented from being transmitted to the inverter and the outside, and the inverter can be easily replaced by not fixing the inverter to the sound insulation case through a separate fixing means.

Figure 1 is a cross-sectional view schematically showing an electric compressor according to the prior art.
Figure 2 is a diagram schematically showing the configuration of an electric compressor according to an embodiment of the present invention.
FIG. 3 is a diagram illustrating a state in which the inverter case and compressor body of FIG. 2 are sealed by a sound insulating case.
FIG. 4 is a diagram illustrating a state in which the inverter case, cooling fins, and compressor body are provided inside the sound insulating case shown in FIG. 3.
FIG. 5 is a diagram showing a state in which the inverter is stored in the inverter case shown in FIG. 2.
FIG. 6 is a diagram schematically showing the internal structure of the compressor main body shown in FIG. 2.

Hereinafter, preferred embodiments according to the present invention will be described in detail with reference to the attached drawings. Prior to this, the terms or words used in this specification and claims should not be construed as limited to their usual or dictionary meanings, and the inventor should appropriately define the concept of terms in order to explain his or her invention in the best way. Based on the principle of definability, it must be interpreted with meaning and concept consistent with the technical idea of the present invention.

2 to 6, the electric compressor 1000 according to an embodiment of the present invention includes a compressor body 1100, an inverter 1200, an inverter case 1300, and a sound insulation case 1400. And, it may further include a cooling fin 1500 and a connecting member 1600.

Referring to FIG. 6, a motor unit 1120 is installed inside the compressor body 1100, a suction port 1140 is formed on one side, and a compression unit 1160 is provided on the other side. The motor unit 1120 consists of a stator 1122 and a rotor 1124 and transmits power to the compression unit 1160.

The compression unit 1160 is provided with a fixed scroll 1162 and an orbiting scroll 1164 that rotates with respect to the fixed scroll 1162. The orbiting scroll 1164 is connected to the rotor 1124. While rotating, the refrigerant is compressed in the compression space (S) formed between the fixed scroll (1162).

The compressor body 1100 has a substantially cylindrical shape, and a sealed space is formed inside the compressor body 1100 by the front (1100a), the side (1100b), and the compression portion (1160).

A suction port 1140, which is a passage through which refrigerant flows, is formed on one side of the compressor body 1100. A discharge port (not shown) for discharging compressed refrigerant is formed in the motor unit 1120, and it is preferable that the insides of the motor unit 1120 and the compression unit 1160 communicate with each other.

The refrigerant flowing in through the suction port 1140 passes through the motor unit 1120, is delivered to the compression unit 1160, is compressed, and is then discharged to the outside through a discharge port (not shown). The refrigerant flowing into the suction port 1140 also serves to cool the stator 1122 and the rotor 1124 of the motor unit 1120 and lubricates the orbiting scroll 1164 of the compression unit 1160. I also do it.

The motor unit 1120 of the compressor main body 1100 is connected to the inverter 1200, and the inverter 1200 supplies power to the motor unit 1120 and controls the operation of the motor unit 1120. It plays a role.

Referring to FIGS. 4 and 5, the inverter 1200 is located spaced apart from the compressor body 1100, and the inverter 1200 is a printed circuit board 1210 on which various circuit elements are mounted on lines designed with circuit patterns. ), a plurality of electronic elements 1220 mounted on the printed circuit board, and other connection wires (not shown).

That is, the inverter 1200 is connected to a microcomputer unit including an IC device in which an operation program is stored, an IGBT device unit that switches the phase and frequency of the current applied to drive the microcomputer unit, and an external storage medium to store the program stored in the microcomputer unit. It is equipped with a communication unit that modifies or upgrades and other high-current and low-current consumption elements, and the inverter 1200 is a general one. A detailed description of the process in which the inverter 1200 supplies power to the motor unit 1120 and controls the operation of the motor unit 1120 will be omitted.

The inverter 1200 is surrounded on the outside by the inverter case 1300 and sealed so that it is not exposed to the outside. The inverter case 1300 includes a seating body 1320 and a sealing plate 1340. The seating body 1320 has a rectangular shape, one end of which is open, the other end is sealed, and the peripheral surface has a sealed shape. It is preferable that the inverter 1200 is seated and fixed inside the seating body 1320.

The open end of the seating body 1320 is sealed by a sealing plate 1340, so that the inverter 1200, which is seated and fixed inside the seating body 1320, is not exposed to the outside. A through hole 1320a through which a connecting member 1600, which will be described later, passes is formed at the other sealed end of the seating body 1320.

The inverter case 1300 and the compressor body 1100, in which the inverter 1200 is mounted, are separately accommodated inside the sound insulator case 1400, and the sound insulator case 1400 is the compressor body ( It serves to prevent the vibration of 1100 from being transmitted to the inverter 1200 and the outside.

2 and 3, the sound insulator case 1400 includes a lower sound insulator case 1420 and an upper sound insulator case 1440, and the lower sound insulator case 1420 and the upper sound insulator case Case 1440 preferably has a corresponding shape.

The lower sound insulator case 1420 is open at the top and supports the compressor body 1100 and the inverter case 1300 at the bottom, and the upper sound insulator case 1440 is open at the bottom, and the lower sound insulator case 1440 is open at the bottom. Located at the top of the case 1420, the open upper part of the lower sound insulator case 1420 is sealed.

The lower sound insulator case 1420 is divided into a first lower space 1422 and a second lower space 1423 by a lower partition wall 1421, and the upper sound insulator case 1440 is connected to the upper partition wall 1441. It is divided into a first upper space 1442 and a second upper space 1443.

The inverter case 1300, in which the inverter 1200 is accommodated, is located in the first lower space 1422 and the first upper space 1442, and the compressor body 1100 is located in the second lower space ( 1423) and the second upper space 1443, and the inverter case 1300 and the compressor body 1100 are separated by the lower partition 1421 and the upper partition 1441 and the sound insulator It is accommodated inside the case 1400.

2 and 4, cooling fins 1500 are provided between the inverter case 1300 and the compressor body 1100, and the cooling fins 1500 are inserted into the compressor body 1100. It serves to cool the inverter 1200 accommodated inside the inverter case 1300 through the sucked refrigerant.

In the process of supplying power to the motor unit 1120, heat is generated in the inverter 1200, and the generated heat causes damage to the circuit part of the inverter 1200, and the circuit part of the inverter 1200 is damaged. Cooling is necessary to prevent damage, and the cooling fins 1500 transmit the temperature of the refrigerant sucked into the compressor body 1100 to the heating unit of the inverter 1200 through the inverter case 1300. This cools the inverter 1200.

The cooling fins 1500 have a multi-stage curved wave shape and are provided in close contact between the compressor body 1100 and the inverter case 1300, and are located on the lower partition 1421 and the upper partition 1441. It is preferable that a first insertion hole 1421a and a second insertion hole 1441a into which the cooling fin 1500 is inserted are formed.

A first insertion hole 1421a and a second insertion hole 1441a are formed in the lower partition 1421 and the upper partition 1441, respectively, and the first insertion hole 1421a and the second insertion hole 1441a are in communication with each other. ), the cooling fin 1500 is inserted into the compressor body 1100 and the inverter case 1300 to be spaced apart with the cooling fin 1500 in close contact with the compressor body 1100. The temperature of the refrigerant is conducted through the cooling fins 1500 to cool the inverter 1200.

The compressor body 1100 and the inverter 1200, which are spaced apart by the sound insulation case 1400 and the inverter case 1300, are connected by a connecting member 1600. One end of the connecting member 1600 passes through the through hole 1320a and is connected to the inverter 1200 in the inverter case 1300, and the other end is connected to the compressor body 1100 to connect to the inverter 1200. As power is supplied to the motor unit 1120, the operation of the motor unit 1120 is controlled.

The inverter 1200 and the compressor body 1100 can be separated using the sound insulation case 1400, thereby preventing the inverter 1200 from being damaged by vibration of the compressor body 1100. . In addition, after sealing the inverter 1200 with the inverter case 1300, the inverter case 1300 and the compressor body 1100 are sealed with a sound insulation case 1400 so that the vibration of the compressor body 1100 is prevented by the inverter ( 1200) and the outside, and by not fixing the inverter 1200 to the sound insulation case 1400 through a separate fixing means, the inverter 1200 can be easily replaced.

The present invention has been described with reference to the embodiments shown in the drawings, but these are merely illustrative, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true scope of technical protection of the present invention should be determined by the technical spirit of the attached patent claims.

1000: Electric compressor 1100: Compressor body
1120: motor unit 1140: suction port
1160: Compression unit 1200: Inverter
1300: Inverter case 1320: Seating body
1340: Sealing plate 1400: Sound insulation case
1420: Lower sound insulation case 1421: Lower bulkhead
1422: 1st subspace 1423: 2nd subspace
1440: Upper sound insulation case 1441: Upper bulkhead
1442: First upper space 1443: Second upper space
1500: Cooling fin 1600: Connecting member

Claims (7)

A compressor body with a motor installed inside, a suction port through which refrigerant is sucked on one side, and a compression section on the other side that receives power from the motor and compresses the refrigerant;
an inverter connected to the compressor body and controlling the operation of the motor unit while supplying power to the motor unit;
an inverter case that surrounds the inverter from the outside and seals it so that the inverter is not exposed to the outside; and
It includes a sound insulation case that is housed inside so that the compressor body and the inverter case are separated from each other to prevent vibration of the compressor body from being transmitted to the inverter and the outside,
The sound insulation case is,
A lower sound insulation case supporting the compressor body and the inverter case at the bottom,
It includes an upper sound insulating case provided on the upper part of the lower sound insulating case and sealing the opened upper part of the lower sound insulating case,
The lower sound insulation case is divided into a first lower space and a second lower space by a lower partition,
The upper sound insulation case is divided into a first upper space and a second upper space by an upper partition,
The inverter case is located in the first lower space and the first upper space, and the compressor main body is located in the second lower space and the second upper space.
In claim 1,
The inverter case is,
A seating body on which the inverter is seated and which has an open end and a sealed shape at the other end and peripheral surface;
It includes a sealing plate that seals the open end of the seating body,
An electric compressor in which a through hole is formed at the other sealed end of the seating body.
delete delete In claim 1,
The electric compressor further includes a cooling fin provided between the compressor body and the inverter case and cooling the inverter by transferring the temperature of the refrigerant sucked into the compressor body to a heating part of the inverter.
In claim 5,
A first insertion hole and a second insertion hole into which the cooling fin is inserted are formed in the lower partition and the upper partition,
The electric compressor, characterized in that the cooling fin has a wave shape and is provided in close contact between the compressor body and the inverter case.
In claim 2,
An electric compressor further comprising a connecting member connecting the compressor body and the inverter.

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