KR20190006735A - Blower for multi-compression - Google Patents

Abstract

The present invention relates to a blower for multi-compression, facilitating disassembly and assembly of an impeller to easily perform replacement and repair of the impeller, and minimizing noises generated in the process of sucking and compressing air. The blower comprises: a base (10); a casing (20) installed on an upper surface of the base (10); a rotary shaft (30) rotatably installed in the casing (20); a motor (40) connected to the rotary shaft (30); an impeller unit (50) installed in the casing (20) and capable of being disassembled; and a noise reduction unit (60) installed outside the casing (20).

Description

[0001] BLOWER FOR MULTI-COMPRESSION [

The present invention relates to a multistage compression blower for sucking outside air and then compressing the multistage compression blower. More particularly, the present invention relates to a multistage compression blower for sucking and sucking air, So as to minimize the noise generated in the process.

Generally, a blower (blower, air blower) is a mechanical device that causes air to flow, and it consists of an impeller (a wing car) causing air flow and a casing guiding a flow entering and leaving a wing car.

Such blowers are used in an axial-flow fan provided so that the flow of air passing through the impeller is generated in a direction parallel to the axis of rotation of the impeller, and a certain pressure is required rather than a flow rate for the main purpose of increasing pressure by centrifugal force A radial-flow fan and a mixed-flow fan that are used when both axial and radial flows are present in the impeller and flow rate and pressure increase are required at the same time. do.

In such a blower, a multistage compression blower has been proposed and widely used in which impellers are provided in multiple stages inside a casing to compress air into multiple stages, thereby sucking outside air to produce high-pressure air in a short time.

However, the above-described conventional techniques have the following problems.

In the conventional multi-stage compression blower, it is difficult to disassemble an impeller installed in a multi-stage, and thus it is relatively difficult to replace and repair the impeller.

In addition, the conventional multi-stage compression blower has a problem that a lot of noise is generated in the process of sucking air or a lot of noise is generated due to vibration in the process of compressing air.

Patent No. 10-0424077 entitled "Multi-Stage Compressor Blower" (2004.03.10)

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art,

SUMMARY OF THE INVENTION It is an object of the present invention to provide a multi-stage compression blower which enables easy disassembly and assembly of an impeller, facilitates replacement and repair of an impeller, and minimizes noise generated during air suction and compression.

In order to achieve the above object, a "multi-stage compression blower" according to the present invention comprises: a base; A front cover disposed on one side of the base, a rear cover mounted on the other side of the base, a suction port communicating with the upper side of the front cover, and an outer side of the rear cover, A cylindrical casing fitted with a discharge port and horizontally extended; A first bearing portion extending through the center of the front cover, a second bearing portion extending through the center of the rear cover, both ends being mounted on the first bearing portion and the second bearing portion, A rotating shaft which is exposed to the outside of the bearing portion and is provided inside the casing; A motor installed on an upper surface of the base and connected to the rotation shaft and connected to the connection unit to rotate the rotation shaft; A fixed impeller fixed to the inner peripheral surface of the casing in such a manner that one of the fixed impellers and the plurality of fixed impellers are spaced apart from each other; An impeller portion including a plurality of rotating impellers mounted on the rotating shaft close to the respective fixed impellers, the impeller portion being detachable through the front cover; A noise reduction unit installed at the suction port and reducing a noise generated when the outside air is sucked through the suction port; .

Further, the noise reduction portion of the " multi-stage compression blower "according to the present invention includes a connection pipe vertically connected to the inlet, a lower end mounted around the upper end of the connection pipe, A plurality of pipe tubes penetrating through the horizontal plate so as to be horizontally and hermetically attached to the inner periphery of the noise reduction pipe; A horizontal circular plate horizontally attached to the upper end of the noise reduction pipe and an inlet pipe inserted through the center of the horizontal circular plate so as to communicate with the noise reduction pipe.

The noise reduction portion of the " multi-stage compression blower "according to the present invention is characterized in that a lower end and an inner end are attached between the upper surface of the horizontal disk and the outer peripheral surface of the inflow tube, and the upper surface of the horizontal disk, A cover tube to which an inner circumferential surface is attached to an outer end of the partition plate so as to surround the partition plate; and a lower end attached to an upper end of the partition plate inside the cover tube, And an upper cover covering the upper end of the pipe.

The above-mentioned base of the " multi-stage compression blower "according to the present invention comprises a pair of buffer members which are horizontally spaced apart from each other and a support base attached to the lower surface of the buffer member, And further comprising:

The casing of the " multi-stage compression blower "according to the present invention includes an upper guide plate installed between the upper side of the inner circumferential surface of the casing and the upper surface of the second bearing and guiding the compressed air discharged by the impeller to the lower side , Further comprising:

Further, the casing of the "multi-stage compression blower" according to the present invention comprises: a front cover plate which is detachably fitted on the inner surface of the casing with the front end of the impeller portion; A pair of vertical guide plates vertically attached to the outer surface of the front end cover plate corresponding to both sides of the through hole, and a pair of vertical guide plates mounted on an inner circumferential surface of the casing at a lower side of the inlet, And a leading end plate for guiding the outside air toward the impeller portion.

The fixed impeller of the "multi-stage compression blower" according to the present invention comprises: an adhered disk provided closely to the inner circumferential surface of the casing; an exhaust hole formed at the center of the adhered disk to discharge air while passing through the rotating shaft; An exhaust guiding jaw formed around the exhaust hole and formed in a tubular shape gradually narrowing toward the inner side from the adhered circular plate; and an exhaust guiding jaw which is attached to the outer surface of the adhered disk in a spiral manner around the exhaust hole, A first cover plate attached to an outer side of the first vane so as to cover the outer end of the first vane and the exhaust hole; and a second cover plate formed on the first cover plate to penetrate the rotation shaft And a first through hole.

Further, the rotating impeller of the "multi-stage compression blower" according to the present invention is characterized in that the rotating impeller of the multi-stage compression blower includes a mounting member to be fitted to the rotary shaft, a mounting disk mounted around the mounting member, A plurality of second wings attached to the outer surface of the disk and spaced apart from each other and formed in an arc shape; a second cover disk attached to the outside of the second wing to cover the outer end of the second wing; And a second through hole formed in the second cover plate so that the exhaust guiding jaw is inserted.

As described above, the impeller can be easily disassembled and assembled, so that the impeller can be easily replaced and repaired, and the noise generated during the process of sucking in air and the process of compressing can be minimized, .

1 is a schematic overall longitudinal sectional view of a multi-stage compression blower according to the present invention,
Fig. 2 is an enlarged view of the main part of Fig. 1,
Figs. 3 and 4 are enlarged views showing the operation state of Fig. 1,
Fig. 5 is a schematic lap top view of a multi-stage compression blower according to the present invention,
6 is a schematic front view of a multi-stage compression blower in accordance with the present invention;
7 is a schematic vertical cross-sectional view of a fixed impeller of a multi-stage compression blower according to the present invention,
8 is a schematic side view of a fixed impeller of a multi-stage compression blower according to the present invention,
9 is a schematic vertical cross-sectional view of a rotating impeller of a multi-stage compression blower according to the present invention,
10 is a schematic side view of a rotating impeller of a multi-stage compression blower according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be understood, however, that the invention can be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

1 to 10 are schematic views of a multi-stage compression blower according to the present invention. As shown, the multi-stage compression blower according to the present invention comprises a base 10, a casing 20 mounted on the upper surface of the base 10, and a rotating shaft (not shown) A motor 40 connected to the rotary shaft 30, an impeller 50 installed in the casing 20, and a noise reduction unit 60 installed outside the casing 20, ).

The base 10 is provided in the form of a frame and is provided on the ground to provide a place where the casing 20 and the motor 40 are supported while supporting the lower surface of the casing.

The base 10 includes a pair of buffer members 11 mounted horizontally on the lower surface thereof and an auxiliary base 12 attached to the lower surface of the buffer member 11 corresponding to the base 10 . The cushioning member 11 serves to reduce vibrations generated in the motor 40 and the casing 20 and transmitted to the base 10 and the auxiliary base 12 is provided in the cushioning member 11 And supports the bottom surface from the ground.

The casing 20 is installed on the upper surface of the base 10 and has a front cover 21 detachably mounted on one side thereof and a rear cover 22 mounted on the other side thereof and communicating with the upper portion of the front cover 21 side A suction port 23 is mounted and an outlet 24 is mounted to communicate with the outside of the rear cover 22. The rotary shaft 30 is connected to the impeller 50, And serves to provide a place where the unit 60 is installed, while providing a place where the outside air is sucked and compressed.

The front cover 21 may open the front of the casing 20 while providing a place where the first bearing portion 31 of the rotary shaft 30 is installed So that the impeller portion 50 can be easily assembled and disassembled.

The rear cover 22 serves to provide a place where the second bearing portion 32 of the rotary shaft 30 is installed while closing the rear surface of the casing 20.

The suction port 23 serves to provide a passage through which the outside air flows into the casing 20 and the discharge port 24 has a passage through which the compressed air is discharged from the inside of the casing 20 to the outside, .

The casing 20 further includes an upper guide plate 25 installed between the upper side of the inner peripheral surface of the casing 20 and the upper surface of the second bearing portion 32. The upper induction plate 25 guides the compressed air discharged by the impeller unit 50 to the lower side so that the compressed air can be smoothly discharged through the discharge port 24.

The casing 20 includes a front end cover plate 26 that is detachably fitted to the inner surface of the casing 20 at the front end of the impeller portion 50 and a front end cover plate 26 A pair of vertical guide plates 28 vertically attached to the outer surface of the end cover plate 26 corresponding to both sides of the through hole 27, And an end guide plate 29 mounted on the inner circumferential surface of the casing 20 to one side of the lower portion of the suction port 23 and guiding the outside air introduced through the suction port 23 toward the impeller portion 50 .

The front cover plate 26 covers and supports the front end of the impeller portion 50 and the through hole 27 is formed in such a manner that outside air flows around the rotating shaft 30 into the impeller portion 50 And the vertical guide plate 28 and the distal end guide plate 29 serve to guide the outside air introduced through the inlet 23 into the through hole 27 appropriately .

The rotary shaft 30 has a first bearing portion 31 penetrating the center of the front cover 21 and a second bearing portion 32 penetrating the center of the rear cover 22, The first bearing portion 31 and the second bearing portion 32 are mounted at opposite ends and the rear end of the second bearing portion 32 is exposed to the outside of the second bearing portion 32. The impeller portion 50 is rotated by the motor 40 while rotating the impeller part 50. [

The first bearing portion 31 and the second bearing portion 32 are known to rotatably support one end and the other end of the rotary shaft 30. Particularly, the first bearing part 31 is installed to be exposed to the outside of the front cover 21 and can be disassembled from the outside of the casing 20.

The motor 40 is installed on the upper surface of the base 10 and has a connecting portion 41 connected to the rotating shaft 30 and is directly connected to the rotating shaft 30 by the connecting portion 41 And rotates the rotation shaft 30 by supplying power.

The impeller portion 50 includes a fixing member 51 mounted on an inner circumferential surface of the casing 20 corresponding to the rear cover 22 and a fixing member 51 fixed to the fixing member 51, A fixed impeller 52 which is detachably fitted on an inner peripheral surface of the casing 20 and a fixed ring 53 which is detachably fitted on the inner peripheral surface of the casing 20 between the fixed impeller 52 and the fixed impeller 52, And a plurality of rotating impellers 54 mounted on the rotating shaft 30 in close proximity to the respective fixed impellers 52.

The impeller portion 50 rotates by the rotation shaft 30 and sucks the external air through the suction port 23 and compresses the compressed air. The impeller portion 50 discharges the compressed air through the discharge port 24, It can be disassembled outwardly corresponding to the front cover 21, so that replacement and repair of the parts can be easily performed.

The fixing member 51 is mounted on the inner circumferential surface of the casing 20 to support and fix the end of the stationary impeller 52.

A plurality of fixed impellers (52) are disposed on the inner surface of the casing (20) so that the fixed impeller (52) is spaced apart by the fixed ring (53) So that the air compressed by the rotary impeller 54 can be compressed again while being flowed.

Referring to FIG. 3, the fixed impeller 52 includes an adhered circular plate 521 which is closely attached to the inner circumferential surface of the casing 20, as shown in FIGS. 7 and 8, An exhaust hole 522 formed at the center of the adhered disk 521 so as to discharge air while being formed around the exhaust hole 522 and formed into a tubular shape gradually narrowing toward the inside from the adhered disk 521 A plurality of first wings 524 formed in an arc shape and spaced apart from each other on the outer surface of the close contact disk 521 in a spiral manner about the exhaust hole 522, A first cover plate 525 attached to the outside of the first vane 524 to cover the outer end of the first vane 524 and the exhaust hole 522, And a first through hole 526 formed in the cover plate 525.

The tight contact plate 521 is in close contact with the inner circumferential surface of the casing 20 and is in close contact with the end of the fixing ring 53 so that the stationary impeller 52 is detachably fixed to the inside of the casing 20 And the exhaust guide 522 is configured to allow air to pass therethrough through the adhered disk 521 and to guide the air passing through the exhaust hole 522 to the center. .

The first wing 524 is attached between the close contact disk 521 and the first cover disk 525 so that air is forced to flow inward from the outside to compress the air. The first cover plate 525 serves to cover the outside of the first vane 524 and the first through hole 526 serves to provide a passage through which the rotation shaft 30 passes.

The fixing ring 53 is detachably provided in the casing 20 between the close contact disc 521 and the close contact disc 521 so that the close contact disc 521 can be disassembled So as to be spaced apart from each other at regular intervals, and the airtightness is maintained by sealing the space between the close-contact circular plate and the close-contact circular plate.

The rotary impeller 54 is mounted on the rotary shaft 30 between the respective fixed impellers 52 and is rotated by the rotary shaft 30 to compress the inflow air to flow to the fixed impeller 52, .

The rotary impeller 54 has a mounting member 541 fitted to the rotary shaft 30 as shown in FIG. 9 and FIG. 10 with reference to FIG. 3, A plurality of second wings 543 formed in an arc shape and spaced apart from each other on the outer surface of the mounting disk 542 in a spiral manner about the mounting member 541, A second cover plate 544 attached to the outside of the second vane 543 to cover an outer end of the second vane 543 and a second cover plate 544 attached to the outside of the second vane 543, And a second through hole 545 formed in the second cover plate 544 so as to be inserted therein.

The mounting member 541 functions to provide a place where the rotation impeller 54 is detachably mounted on the rotary shaft 30 and provides a place where the mounting disk 542 is installed.

The mounting plate 542 serves to provide a place where the second wing 543 is attached and the second wing 543 is provided between the mounting plate 542 and the second cover plate 544 And is rotated by the rotary shaft 30 so that air is forcibly introduced from the outside to the inside and compressed. The second cover plate 544 serves to cover the outside of the second vane 543 and the second through hole 545 is formed on the outer side of the exhaust guide jaw 523 And serves to provide a passage through which the end is inserted.

The noise reduction unit 60 is provided at the suction port 23 and serves to reduce noise generated during suction of the outside air through the suction port 23. [

The noise reduction unit 60 includes a connection pipe 61 vertically connected to the suction port 23 and a lower end surrounding the upper end of the connection pipe 61 so that the upper end of the connection pipe 61 passes through the connection pipe 61 A horizontal plate 63 mounted horizontally and hermetically on the inner circumferential surface of the noise reduction pipe 62 so as to be vertically spaced apart from each other, A horizontal disc 65 horizontally attached to the upper end of the noise reduction pipe 62 and a noise reduction pipe 62 connected to the noise reduction pipe 62, And an inlet pipe 66 attached through the center of the horizontal circular plate 65 so as to communicate with the horizontal circular plate 65.

The noise reduction unit 60 has a lower end and an inner end between the upper surface of the horizontal disc 65 and the outer circumferential surface of the inflow pipe 66. The lower end of the horizontal disc 65 A cover tube 68 having an inner circumferential surface attached to an outer end of the partition plate 67 so as to surround the partition plate 67; And an upper cover 69 attached to the upper end of the partition plate 67 and covering the upper end of the inflow pipe 66 to the inside of the pipe 68.

4, outer air flows between the outer side of the upper cover 69 and the upper end of the cover tube 68 and between the upper side of the horizontal disk 65 and the cover tube 68, And the introduced external air flows into the noise reduction pipe 62 through the inflow pipe 66 and is blocked by the horizontal plate 63 and then flows into the pipe 64 And flows into the suction port 23 through the connection pipe 61. Through the series of processes, the noise generated when the air is sucked is canceled and reduced.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It is clear that the present invention can be suitably modified and applied in the same manner. Therefore, the above description does not limit the scope of the present invention, which is defined by the limitations of the following claims.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the present invention.

10: Base
11: buffer member 12: auxiliary base
20: casing
21: Front cover 22: Rear cover
23: inlet 24: outlet
25: upper guide plate 26: tip cover plate
27: through hole 28: vertical guide plate
29: tip guide plate
30:
31: first bearing part 32: second bearing part
40: motor
41:
50: Impeller part
51: Fixing member
52: Fixed impeller
521: Adhered disk 522: Exhaust hole
523: exhaust guiding jaw 524: first wing
525: first cover plate 526: first through hole
53: Fixing ring
54: Rotating impeller
541: mounting member 542: mounting plate
543: second wing 544: second cover disc
545: second through hole
60: Noise reduction section
61: Connector 62: Noise reduction pipe
63: horizontal plate 64: pipe tube
65: horizontal disc 66: inlet pipe
67: partition plate 68: cover tube
69: upper cover

Claims (8)

A base 10;
A front cover 21 is detachably mounted on one side of the base 10 and a rear cover 22 is mounted on the other side of the base 10 and a suction port A cylindrical casing 20 to which a discharge port 24 is mounted to communicate with the outside of the rear cover 22 and is horizontally extended;
A first bearing portion 31 is provided to penetrate the center of the front cover 21 and a second bearing portion 32 is provided to penetrate the center of the rear cover 22, 31) and a second bearing portion (32), and a rear end thereof is exposed to the outside of the second bearing portion (32) and is provided inside the casing (20);
A motor 40 installed on the upper surface of the base 10 and connected to the rotation shaft 30 and connected to the connection unit 41 to rotate the rotation shaft 30; ;
A fixing member 51 mounted on the inner circumferential surface of the casing 20 in correspondence with the rear cover 22 and a fixing member 51 fixed to the inner circumferential surface of the casing 20 such that one of the fixing members 51 is closely contacted, A stationary impeller 52 which is detachably fitted into the stationary impeller 52 and a stationary impeller 52 which is detachably fitted on the inner circumferential surface of the casing 20 between the stationary impeller 52 and the stationary impeller 52, An impeller portion 50 including a plurality of rotating impellers 54 mounted on the rotating shaft 30 close to the impeller 52 and capable of being disassembled through the front cover 21;
A noise reduction unit (60) installed at the suction port (23) for reducing noise generated while sucking outside air through the suction port (23);
Wherein the blower is a multi-stage compression type blower.
The method according to claim 1,
The noise reduction unit (60)
A connection pipe 61 vertically connected to the suction port 23,
A long noise reducing pipe 62 having a lower end mounted on the upper end of the connecting pipe 61 so as to penetrate the upper end of the connecting pipe 61 and having a relatively larger inner diameter than the connecting pipe 61,
A horizontal plate 63 which is horizontally and hermetically attached to an inner peripheral surface of the noise reduction pipe 62 so as to be vertically spaced apart from each other,
A plurality of pipe tubes 64 attached through the horizontal plate 63,
A horizontal disc 65 horizontally attached to the upper end of the noise reduction pipe 62,
An inlet pipe 66 attached through the center of the horizontal circular plate 65 so as to communicate with the noise reduction pipe 62,
Wherein the blower is a multi-stage compression type blower.
The method according to claim 1,
The noise reduction unit (60)
A lower end and an inner end are attached between an upper surface of the horizontal disk 65 and an outer peripheral surface of the inflow pipe 66 and a plurality of spaced apart portions are installed along the upper surface of the horizontal disk 65 about the inflow pipe 66 A partition plate 67,
A cover tube 68 having an inner peripheral surface attached to an outer end of the partition plate 67 so as to surround the partition plate 67,
An upper cover 69 having a lower end attached to the upper end of the partition plate 67 and covering the upper end of the inflow pipe 66 is inserted into the cover tube 68,
Wherein the blower further comprises:
The method according to claim 1,
The base (10)
A pair of buffer members 11 mounted horizontally on the lower surface thereof,
An auxiliary base 12 attached to the lower surface of the buffer member 11 corresponding to the base 10,
Wherein the blower further comprises:
The method according to claim 1,
The casing (20)
And an upper guide plate (25) installed between the upper side of the inner circumferential surface and the upper surface of the second bearing part (32) and guiding the compressed air discharged by the impeller part (50)
Wherein the blower further comprises:
The method according to claim 1,
The casing (20)
A front end cover plate 26 which is detachably fitted to the inner surface of the casing 20 at the tip end of the impeller portion 50,
A through hole 27 formed at the center of the end cover plate 26 so that the rotation shaft 30 passes through the through hole 27,
A pair of vertical guide plates 28 vertically attached to outer surfaces of the front end cover plates 26 corresponding to both sides of the through holes 27,
A tip guide plate 29 mounted on the inner circumferential surface of the casing 20 to one side of the lower portion of the inlet port 23 and guiding the outside air introduced through the inlet port 23 toward the impeller portion 50,
Wherein the blower further comprises: The method according to claim 1,
The fixed impeller (52)
A contact master plate 521 which is closely attached to the inner circumferential surface of the casing 20,
An exhaust hole 522 formed at the center of the close contact disk 521 so as to discharge the air while the rotation shaft 30 passes,
An exhaust induction jaw 523 formed around the exhaust hole 522 and formed in a tubular shape gradually narrowed toward the inside from the adhered disk 521,
A plurality of first wings 524 spaced apart from each other and formed in an arc shape on the outer surface of the close contact disk 521 in a spiral manner about the exhaust hole 522,
A first cover plate 525 attached to the outside of the first vane 524 to cover the outer end of the first vane 524 and the exhaust hole 522,
A first through hole 526 formed in the first cover plate 525 so that the rotation shaft 30 passes through the first cover plate 525,
Wherein the blower is a multi-stage compression type blower.
8. The method of claim 7,
The rotating impeller (54)
A mounting member 541 to be fitted to the rotary shaft 30,
A mounting plate 542 mounted around the mounting member 541,
A plurality of second wings 543 spaced apart from each other and formed in an arc shape on the outer surface of the mounting disc 542 in a spiral manner about the mounting member 541,
A second cover plate 544 attached to the outside of the second vane 543 to cover an outer end of the second vane 543,
A second through hole 545 formed in the second cover plate 544 so that the exhaust induction jaw 523 is inserted while the rotation shaft 30 passes through the first cover hole 544,
Wherein the blower is a multi-stage compression type blower.

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