KR101186830B1 - Inlet guide vane device of compresser - Google Patents

Abstract

The present invention relates to a gas guide vane device of a compressor, which is coupled to rotate through a shaft inside a housing into which gas is introduced, and controls a plurality of vanes to adjust a gas inflow rate, and is installed between the shaft and the housing of the vane to maintain airtightness. A grand packing, a push hole for fixing the grand packing installed between the shaft and the housing of the vane, and a push means configured to penetrate the flange of the push hole exposed to the outside to secure the engaging portion of the housing. .

Description

Compressor guide vane unit {INLET GUIDE VANE DEVICE OF COMPRESSER}

The present invention is provided with a seal between the shaft of the vane and the housing bush and the push means, respectively, to install the grand packing between the shaft and the housing of the vane, the push means is installed on the outside of the vane to fix the grand packing It relates to a gas guide vane device.

In general, a turbo compressor uses an electric motor to reduce the force of electrical energy to rotational energy to rotate the impeller, and the force generated by rotating the impeller is a machine that compresses gas by pressurizing air flowing between impeller blades. .

Due to the characteristics of the impeller used as a driving source for compressing the gas, the turbo compressor may cause a surge phenomenon that causes a fatal shock to the compressor during operation by leaving the set operating range.

The gas guide vane device installed to avoid such a surge phenomenon is a device that controls the surge phenomenon so that the impeller pressurizes the gas in the turbo compressor so that it can be operated only within the set operating range. It is an important device to be.

An inlet guide is provided at the inlet port to regulate the amount of gas sucked into the control unit of the turbocompressor.

These inlet guides are installed through a plurality of inlet inward direction to control the opening and closing amount of the inlet.

A sealing part is interposed between the housing of the inlet guide to which the inlet guide is coupled and the shaft extending to the vane to prevent leakage of gas.

As such, when the sealing part interposed between the housing and the shaft is pressurized due to the gas flowing through the inlet, a gap is generated between the housing and the shaft or between the shaft and the sealing part so that the gas may be ejected to the outside of the housing. .

There was a problem that a safety accident may occur due to harmful gases when exposed to steam and human body.

In addition, such a gas leak may cause damage to the device, or surge may occur when the compressor is installed in a place where steam and harmful gas are used.

In order to avoid such equipment damage, safety accidents and surges, there was a problem that the condition of the gas must be controlled and supplied in the entire turbocompressor process.

According to the present invention, a seal is interposed between the shaft of the vane and the housing bush and the pushing means, and a grand packing is installed between the shaft and the housing of the vane, and a push means is installed outside the vane to fix the grand packing. It is an object of the present invention to provide a gas guide vane device for a compressor, which seals between the housing and the pushing means.

Gas guide vane device of the compressor according to the present invention for achieving the above object, a plurality of vanes are coupled to rotate through the shaft inside the housing in which the gas is introduced to adjust the gas inflow amount; A grand packing installed between the vane shaft and the housing to maintain airtightness; And push means formed between the shaft and the housing of the vane to fix the gland packing, and a push bolt configured to penetrate the flange of the push hole exposed to the outside and to fix it to the housing.

In addition, a bush is further installed between the push hole of the push means and the shaft.

A first seal is further provided to maintain airtightness between the shaft and the bush.

A second seal is installed to maintain airtightness between the coupling portion of the housing and the shaft.

A third seal is installed to maintain airtightness between the engaging portion of the housing and the push hole of the push means.

A shaft coupled to a shaft end of the vane exposed to the outside and fixed to a coupling portion of the housing through a drop bolt and a drop nut to fix the position of the shaft; It further comprises a; drop means consisting of a drop arm to rotate the.

According to the gas guide vane device of the compressor according to the present invention configured as described above, by installing a bush between the shaft and the push means of the vane to facilitate the rotation of the vane, sealing between the shaft and the housing of the vane, the bush and the push means Each one is installed, and the gland packing is installed between the vane shaft and the housing to maintain airtightness, so that the gas flowing through the housing does not leak to the outside, preventing safety accidents and damages, and harmful gases are used when exposed to steam and human body. In order to avoid the surge when the compressor is installed, there is an advantage of reducing the cumbersome point by adjusting and supplying the condition of the gas in the entire turbocompressor process.

1 is an overall configuration diagram of a gas guide vane device of the compressor according to the present invention.
2 is an operation of the gas guide vane device of the compressor according to the present invention.
3 is a partial cross-sectional view of the gas guide vane device of the compressor according to the present invention.
4 is a partial perspective view of the gas guide vane device of the compressor according to the present invention.
5 is a partially exploded perspective view of a gas guide vane device of the compressor according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Like elements in the figures are denoted by the same reference numerals wherever possible. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

1 is an overall configuration of the gas guide vane device of the compressor according to the present invention, Figure 2 is an operation of the gas guide vane device of the compressor according to the invention, Figure 3 is a gas guide vane device of the compressor according to the present invention A is a partial sectional view of FIG. 4, FIG. 4 is a partial perspective view of A, and FIG. 5 is a partially exploded perspective view.

1 and 2, the gas guide vane device of the compressor includes a plurality of vanes 10 coupled to the inside of the housing 1 through which the gas is introduced through the shaft 12 to adjust a gas inflow amount, and the vane. Between the shaft 12 of the (10) and the housing (1) is installed between the gland packing 40 to maintain airtightness, and between the shaft 12 of the vane (10) and the engaging portion (4) of the housing (1) And a push hole 21 fixed to the engaging portion 4 while pressing the grand packing 40, and a push bolt 22 fixing the flange of the push hole 21 to the engaging portion 4. It comprises a push means (20).

The housing 1 is installed at the inlet side of the turbo compressor and is formed in a cylindrical shape.

The housing 1 has a plurality of coupling portions 4 are formed on the outer surface is the vane 10 is coupled through.

As shown in FIGS. 3 to 5, the shaft 12 of the vane 10 is coupled to the housing 1 through the housing 1 and the push means 20 and coupled to the housing 1 through rotation. The amount of gas flowing into the housing 1 is adjusted.

The vane 10 has a control unit 11 for adjusting the amount of gas introduced into the housing 1, and the shaft extending to the control unit 11 to rotate the control unit 11 And a connecting portion 13 formed at an end of the shaft 12 and connected to the drop arm 52 of the drop means 50.

In addition, the shaft 12 is formed with a groove to which the first and second seals 31 and 32 are coupled.

The first seal 31 maintains the airtightness between the shaft 12 and the bush 60 so that gas does not leak.

The second seal 32 maintains the airtightness between the shaft 12 and the housing 1 so that gas does not leak.

The push means 20 is the vane 10 is coupled through, and the grand packing 40 installed between the shaft 12 and the coupling portion 4 of the vane 10 inside the housing 1 Is fixed to the side.

At this time, the grand packing 40 may be formed between a plurality of the shaft 12 and the coupling portion 4 of the vane (10).

The push means 20 is composed of a push hole 21 and the push bolt 22.

The push hole 21 is inserted into and fixed to the coupling part 4 protruding from the outer circumference of the housing 1 to push the grand packing 40 to secure the coupling part 4.

At this time, a third seal 33 is installed between the pusher 21 and the coupling part 4 to maintain the airtightness between the pusher 21 and the coupling part 4.

The push bolt 22 is coupled to the outer flange of the pusher 21 to fix the pusher 21 inserted into the pusher 21 to the engaging portion 4 of the housing 1.

Then, the shaft 12 is coupled through to fix the position of the shaft 12 through the drop means (50).

The drop means 50 is a fixing portion 51 through which the shaft 12 is coupled through, a drop bolt 53 for fixing the fixing portion 51 to the coupling portion 4, and the shaft 12 Drop arm 52 is connected to the connecting portion 13 formed at the end of the) and coupled to the drop bolt 53, it is composed of a drop nut 54 is fixed through the fixing portion 51.

The fixing part 51 is fixedly coupled to the coupling part 4 through the drop bolt 53 and the drop nut 54, and determines the position of the shaft 12 coupled through the fixing part 51. Fix it.

The drop arm 52 is installed between the rotary part 3 rotating along the outer circumference of the housing 1 and the connection part 13 of the vane 10 to rotate the vane 3 by the rotation of the rotary part 3. Rotate 10).

At this time, the drop arm 52 and the connecting portion 13 of the shaft 12 are fixedly coupled through fixing or bonding with a fixture.

In the case of the fixture, a coupling pin may be used.

The rotating part 3 is installed to surround the outer periphery of the housing 1, rotates along the outer periphery of the housing 1, and is connected to the drop arm 52 through a plurality of connection protrusions formed on an upper side of the drop. The arm 52 is rotated.

The rotating part 3 rotates along a guide formed on the outer circumference of the housing 1, and a connecting protrusion is formed at an upper end thereof so as to be connected to the drop arm 52, so that the drop arm 52 has the connecting protrusion. To be rotated through

For example, when a connection groove is formed in the longitudinal direction in which one side is opened in the drop arm 52 and is coupled to the connection protrusion, when the rotation part 3 rotates through the driving of the driving part 60, the rotation protrusion is formed. The drop arm 52 is rotated by being transferred along the connection groove of the drop arm 52.

In addition, the driving unit 60 connected to the rotating unit 3 is formed in a cylinder shape and driven by pneumatic or hydraulic pressure, and is connected to the rotating unit 3 through a connecting table 5 formed with a slide groove.

A center of the connecting rod 5 is hinged to the driving unit 60, and slide grooves are formed at both ends of the connecting table 5, and the driving unit is coupled to both ends of the connecting table 5 by the operation of the driving unit 60. 60 and the rotating part 3 slide and operate in the reverse direction.

That is, the above configuration will be described in more detail as follows.

The shaft 12 of the plurality of vanes 10 is coupled through the housing 1 and the coupling part 4 to open and close the housing 1 through which gas is introduced.

A second seal 32 is interposed between the housing 1 and the shaft 12 of the vane 10, and a groove is formed in the shaft 12 to insert the second seal 32.

And, the grand packing is installed between the coupling portion 4 and the shaft 12 through which the shaft 12 is coupled.

At this time, the grand packing 40 may be formed between a plurality of the shaft of the vane 10 and the coupling portion (4).

In addition, the grand packing 40 coupled between the coupling part 4 and the shaft 12 is a push hole 21 of the push means 20 installed between the coupling part 4 and the shaft 12. Is fixed while pressing the grand packing 40.

As a result, the grand packing 40 is expanded to seal the shaft 12 and the coupling portion 4.

In addition, a bush 60 is installed between the push hole 21 and the shaft 12.

The bush 60 serves as a bearing to facilitate the rotation of the shaft 12.

A first seal 31 is installed between the bush 60 and the shaft 12 to maintain airtightness, and a groove into which the first seal 31 is inserted is formed in the shaft 12.

The first seal 31 may be installed on the outer periphery of the shaft 12.

In addition, a third seal 33 is installed between the coupling part 4 and the push hole 21 to maintain airtightness.

At this time, a groove into which the third seal 33 is inserted is formed at the outer circumference of the push hole 21.

The third seal 33 may be installed in a plurality of outer periphery of the push hole (21).

And the shaft 12 is penetrated so that the position is fixed, the drop means 50 for fixing the push hole 21 is installed spaced apart from the push means 20.

The drop means 50 is the shaft 12 is coupled through, the fixing portion 51 is fixed to the coupling portion 4 by the drop bolt 53 and the drop nut 54, and the shaft 12 It is made of a drop arm 52 is connected to the connecting portion 13 formed at the end of the) to rotate the shaft 12 by the drive of the rotary unit (3).

The drop arm 52 is coupled to the outer periphery of the housing 1 and coupled to the rotating protrusion of the rotating part 40 rotating along the outer periphery of the housing 1.

As a result, the drop arm 52 is rotated by the rotation of the rotary part 3, and the shaft 12 connected to the drop arm 52 is rotated due to the rotation of the drop arm 23.

Accordingly, the adjusting unit 11 formed on the shaft 12 is rotated.

In addition, the rotating part 3 is rotated through the driving part 2 installed outside.

The drive unit 2 is a device that is operated by hydraulic or pneumatic, the rotary unit 3 and the drive unit 2 is connected to the connecting rod 5 is formed with a slide groove on both sides.

At this time, the connecting table 5 is coupled to the center of the housing 1 or the drive unit 2 by the hinge is operated in the form of a seesaw.

That is, when the driving unit 2 is operated, the rotating unit 3 is rotated in the opposite direction to the operating direction of the driving unit 2.

The present invention configured as described above facilitates the rotation of the vane by installing a bush between the shaft of the vane and the push means, and installs a seal between the shaft and the housing of the vane, the bush and the push means, respectively, and the grand packing between the shaft and the housing of the vane By installing airtightness, the gas flowing through the housing does not leak to the outside, preventing safety accidents and damage, and avoiding surge when installing the compressor where harmful gas is used when exposed to steam or human body. There is an advantage of reducing the cumbersome only by supplying a condition of the gas in the process.

The present invention has been described with reference to the preferred embodiments, and those skilled in the art to which the present invention pertains to the detailed description of the present invention and other forms of embodiments within the essential technical scope of the present invention. Could be. Here, the essential technical scope of the present invention is shown in the claims, and all differences within the similar scope should be interpreted as being included in the present invention.

1 housing 2 drive unit
3: rotation part 4: coupling part
5: connecting rod 10: vane
11 control part 12 shaft
13: connection part 20: push means
21: push hole 22: push bolt
31: first sealing 32: second sealing
33: third sealing 40: grand packing
50: drop means 51: fixed part
52: drop arm 53: drop bolt
54: drop nut 60: bush

Claims (6)

A plurality of vanes coupled to the inside of the housing through which the gas is introduced to rotate through the shaft to adjust the gas inflow amount;
A grand packing installed between the vane shaft and the housing to maintain airtightness; And
And push means for securing the grand packing provided between the shaft of the vane and the housing, and push bolts fixed through the flange of the push hole exposed to the outside to secure the engaging portion of the housing. Guide vane device.
The method of claim 1,
Gas guide vane device of the compressor is further installed between the push port and the shaft of the push means.
The method of claim 2,
The gas guide vane device of the compressor is further provided with a first seal for maintaining airtightness between the shaft and the bush.
The method of claim 1,
The gas guide vane device of the compressor is provided with a second seal for maintaining the airtightness between the coupling portion and the shaft of the housing.
The method of claim 1,
The gas guide vane device of the compressor is provided with a third seal for maintaining the airtightness between the engaging portion of the housing and the push hole of the push means.
The method of claim 1,
A shaft coupled to a shaft end of the vane exposed to the outside and fixed to a coupling portion of the housing through a drop bolt and a drop nut to fix the position of the shaft; Drop means consisting of a drop arm for rotating the gas guide vane device further comprises.

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