KR101307183B1 - Rapping device for a scale removal of heat exchanger - Google Patents

Abstract

PURPOSE: A hitting device for removing an object attached to a heat exchanger is provided to hit a hitting plate with a hitting cylinder and deliver impact force to the area to be hit through a hitting rod, thereby easily adjusting the impact force applied to the area. CONSTITUTION: A hitting device for removing an object attached to a heat exchanger includes a main body (100), a hitting rod (200), a hitting plate (300), a position adjusting cylinder (400), and a hitting cylinder (500). The main body includes a first base plate (110) and a second base plate, which is coupled to the body with some distance, facing the body, by multiple guide posts (130) vertically combined in the base plate. The hitting rod is vertically arranged in the second base plate, penetrating the plate to be slid. The hitting plate is installed in the guide posts to be slid so that the plate is arranged between the first and second base plates, facing the base plates. The position adjusting cylinder is combined to the first base plate while the end part of the hitting rod is being connected to the hitting plate in order to slide the hitting plate in the guide posts depending on the operation of the cylinder. The hitting cylinder is vertically combined with the hitting plate and hits the hitting plate in contact with one end of the hitting rod to generate impact force to be transmitted to the hitting rod.

Description

Rapping device for a scale removal of heat exchanger

The present invention relates to a blow device for removing heat exchanger deposits, and more particularly to a heat exchanger attachment that imparts an impact on a tube unit to periodically remove accumulated external deposits from multiple tubes of a heat exchanger, such as a boiler tube unit. A strike device for removal.

In general, cleaning of the outer surface of heat exchanger tubes, such as boiler tubes, from accumulated ash and other deposits is accomplished by various Rapping devices. Referring to FIG. 1, the striking device corresponds to a shaft 6 rotatably installed at a lower portion of the heat exchanger 1, and a tube 2 of each heat exchanger 1 on the shaft 6. Arm 4 to be installed, a plurality of hammers (5) hitting each tube in accordance with the rotation of the shaft 6 in the state connected to the arm (4) and to rotate the shaft (6) Motor 7 and the like.

Such, the hitting device has been used a lot because of the advantage that the equipment is simple by using a mechanical hammer, the hammer (5) and the tube (2) in the state of maintaining a constant distance of the shaft (6) Due to the constant force applied repeatedly in accordance with the rotation, problems such as damage to the key connection portion of the shaft 6 and the arm 4 and the hitting portion of the hammer 5 are easily damaged. do.

The present invention has an object to provide a blow device for removing a heat exchanger deposit that can arbitrarily adjust the blow force.

The present invention, the main body having a first base plate and a second base plate coupled to be spaced apart by a plurality of guide pillars vertically coupled to the base plate, a state disposed vertically on the second base plate Strike rod is installed so as to slide slidably, the striking plate is slidably installed on the guide pillar to be disposed between the first base plate and the second base plate, in a state coupled to the first base plate A rod end is connected to the striking plate, the positioning cylinder for sliding the striking plate on the guide pillar according to the operation, is installed coupled to the striking plate vertically, the striking plate is placed in contact with one end of the striking rod The heat exchanger attachment agent comprising a blow cylinder for generating an impact force to be transmitted to the blow rod, while hitting the blow plate in the It provides for striking device.

In addition, on the second base plate, a tubular blow guide having both ends in a longitudinal direction to be slidably guided in a state where the blow rod is inserted and disposed may be further coupled.

In addition, the striking cylinder has a tubular shape having both ends opened, a housing having one end fixedly coupled to the striking plate vertically in a state where a fluid circulation hole is formed at one side thereof, and a striking piston slidably installed in the housing. And, coupled to the other end of the housing, when the blow plate is placed in contact with the striking rod in a state in which the compressor body is filled inside, the striking piston pushes the striking piston in the direction of the striking plate while the striking piston is the An air chamber portion for striking the striking plate, and an elastic member installed inside the housing to allow the striking piston to return to its original position by an elastic force after the striking piston is pushed by the compressor body of the air chamber portion. can do.

In addition, the air chamber is provided with an air storage unit filled with a compressor body on the inside, the chamber body is provided with a supply path for communicating the air storage unit and the housing and a discharge path for communicating the air storage unit with the outside, and An air pumping means connected to a discharge path to discharge a part of the compressor body from the air storage unit to the outside of the chamber body or to supply a compressor body from the outside to the air storage unit, and the air to be disposed between the supply path and the discharge path A storage valve slidably installed, the control valve selectively allowing the air storage unit to selectively communicate with the supply passage or the discharge passage according to the discharge or supply of the compressor body of the air storage unit by the air pumping means; Can be.

In the blower for removing the heat exchanger attachment according to the present invention, the blower plate moving by the operation of the positioning cylinder moves the blower rod end to be in contact with the target portion of the heat exchanger. As the hitting plate is hit, the impact force is transmitted to the hitting target portion through the hitting rod, and thus the impact force transmitted to the hitting target portion can be easily adjusted.

Figure 1 is a cross-sectional view of the installation state of the conventional blow device for removing the heat exchanger deposits.
2 is a perspective view of a blow device for removing a heat exchanger deposit according to an embodiment of the present invention.
3 is a cross-sectional view of Fig.
4 and 5 are cross-sectional views according to the operating state of FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings.

Figure 2 is a perspective view of a blow device for removing heat exchanger deposit according to an embodiment of the present invention, Figure 3 is a cross-sectional view of FIG. 2 and 3, the blower for removing the heat exchanger attachment, the main body 100, the striking rod 200, the striking plate 300, the positioning cylinder 400, the striking cylinder 500 is provided Doing.

The main body 100 is a part for supporting the installation of the striking rod 200, the striking plate 300, the positioning cylinder 400, the striking cylinder 500 to be described later. That is, the main body 100 is installed in a fixed state coupled to one side of the heat exchanger 10, the striking rod 200, the striking plate 300, the position adjustment cylinder 400, the striking cylinder 500 are each installed and installed do. The main body 100 includes a first base plate 110, a second base plate 120, and a guide pillar 130.

Here, the first base plate 110 is a plate portion for supporting the fixed position adjustment cylinder 400 to be described later. This, the lifting hole in the center of the first base plate 110 to easily move the blow cylinder 500 to be described later without interference when the blow plate 300 is moved in accordance with the operation of the positioning cylinder 400 111 is formed through.

The second base plate 120 is a plate portion slidably supporting the striking rod 200 to be described later. In such a center portion of the second base plate 120, a blow guide 121 for slidably guiding is formed in a state in which the blow rod 200 is inserted and disposed. Here, the hitting guide 121 is penetrated in a state perpendicular to the second base plate 120, the pipe is open at both ends in the longitudinal direction so as to slide sliding in the state in which the hitting rod 200 is inserted inside It has a shape. In this case, reference numeral 122 is a pair of guide rings for guiding the striking rod 200 to stably move while supporting the striking rod 200 in a state coupled to both ends of the striking guide 121 in the longitudinal direction. . The reference numeral 123 is disposed between the guide ring 122 and the striking rod 200 to prevent a foreign substance from flowing into the striking rod 200 and the striking guide 121.

The guide pillar 130 is a pillar member to be coupled to each other in a state in which the first base plate 110 and the second base plate 120 are spaced apart from each other. That is, both longitudinal ends of the guide pillar 130 are coupled to the first base plate 110 and the second base plate 120, respectively. In this case, both longitudinal ends of the guide pillar 130 are fixedly coupled to the edge portions of the surface portions of the first base plate 110 and the second base plate 120 that face each other. In addition, the guide pillar 130 is slidably guides the blow plate 300 to be described later.

The striking rod 200 is a portion that collides with the striking target portion 11 to which each attachment of the heat exchanger 10 is attached. Here, the striking rod 200 is installed to be slidably penetrated in a vertically disposed state on the second base plate 120. That is, the striking rod 200 is slidably inserted into the striking guide 121 provided in the second base plate 120 of the main body 100. Such, the striking rod 200 is a sliding movement or impact force through the impact plate 300 that is moved or hit by the positioning cylinder 400 and the striking cylinder 500 will be described later of the heat exchanger (10) Will be delivered to the hitting target portion (11). That is, the striking rod 200 is pushed in accordance with the sliding of the striking plate 300 by the position adjustment cylinder 400 while the end is in contact with the striking target portion 11, after the striking cylinder The impact force generated by the striking of the striking plate 300 by 500 is transmitted to the striking target portion 11.

The striking plate 300 is a plate portion which is slidably moved on the guide pillar 130 according to the operation of the positioning cylinder 400 and the striking cylinder 500 to be described later. The striking plate 300 is slidably installed on the guide pillar 130 so as to face the first base plate 110 and the second base plate 120 of the main body 100. Here, a plurality of sliding holes 310 are formed in the striking plate 300 so that the guide pillars 130 are inserted so as to be slidably moved on the guide pillars 130.

The position adjustment cylinder 400 generates a moving force to slide the striking plate 300 on the guide pillar 130 of the main body 100. That is, the positioning cylinder 400 moves the striking plate 300 to be in contact with the striking rod 200 while pushing the striking plate 300 in the direction of the striking rod 200. As the striking rod 200 is pushed by the striking plate 300, the contact position with the striking target portion 11 of the heat exchanger 10 can be adjusted. Such, the positioning cylinder 400 is coupled to one end of the rod 410 end of the rod 410 in a state in which at least one is installed so as to be vertically disposed on one side of the first base plate (110).

The striking cylinder 500 generates an impact force to be transmitted to the striking rod 200. That is, the striking cylinder 500 strikes the striking plate 300 while striking the striking plate 300 in a state in which the striking plate 300 is disposed in contact with one end of the striking rod 200 by the positioning cylinder 400. Through the rod 200 to the impact target portion 11 of the heat exchanger (10). The hitting cylinder 500 is vertically coupled to one side of the hitting plate 300 opposite to one side of the first base plate 110 of the main body 100. Thus, the striking cylinder 500 is moved correspondingly during the movement of the striking plate 300 by the operation of the positioning cylinder 400. Here, the blow cylinder 500 includes a housing 510, a blow piston 520, an air chamber 530, an elastic member 540.

The housing 510 is a part for guiding the striking piston 520 to collide with the striking plate 300. Such a housing 510 is formed in a cylindrical shape having both ends of the longitudinal opening while having a space portion therein so as to insert the striking piston 520 and the elastic member 540 therein. Here, one end in the longitudinal direction of the housing 510 is vertically fixed to one side of the impact plate 300, the other end is fixedly coupled to the air chamber 530.

In addition, at least one fluid circulation hole 511 is formed at one side of the housing 510 to circulate gas inside and outside the housing 510. When the striking piston 520 is moved toward the striking plate 300 through the fluid circulation hole 511, the gas inside the housing 510 is discharged to the outside of the housing 510. When the striking piston 520 is moved away from the striking plate 300, the gas outside the housing 510 is introduced into the housing 510, the striking piston 520 is the housing 510 It can be easily moved inside.

The striking piston 520 slides in the housing 510 by the air chamber 530 to strike the striking plate 300. This, the housing 510 is inserted into the slide so as to be installed.

The air chamber 530 is the compressor body in a state in which the striking plate 300 is in contact with the striking rod 200 by the position adjustment cylinder 400 in a state in which the compressor body is stored therein. While being introduced into the housing 510, the striking piston 520 is pushed and moved toward the striking plate 300. That is, the air chamber 530 slides the striking piston 520 in the housing 510 to strike the striking plate 300 while colliding the striking piston 520 with the striking plate 300. To be moved. The air chamber 530 is coupled to the other end of the housing 510 in a fixed state. Here, the air chamber part 530 includes a chamber body 531, an air pumping means 535, and a control valve 536.

The chamber body 531 has an air storage unit 532 for storing the compressor body inside. The chamber body 531 has a supply passage 533 for communicating the air storage 532 with the inside of the housing 510, and the air storage 532 with the chamber body 531. A discharge path 534 is formed.

The air piping means 535 is the air storage unit 532 to selectively control the connection to the supply passage 533 or the discharge passage 534 of the air storage unit 532 by the control valve (536). The compressor body is discharged to the outside of the chamber body 531 or the compressor body is supplied into the air storage unit 532 from the outside. That is, the air pumping means 535 is connected to the discharge passage 534 of the chamber body 531, and sucks some compressor bodies of the air storage unit 532 to the outside through the discharge passage 534. Or some of the compressor bodies are supplied to the air storage unit 532 from the outside. Therefore, when a part of the compressor body of the air storage unit 532 is discharged to the outside by the air pumping means 535, the control valve 536 moves in the direction of the discharge path 534, the discharge path 534 At the same time as to seal the remaining compressed air of the air storage unit 532 to be introduced into the housing 510 through the supply path (533). On the contrary, when a part of the compressor body is supplied from the outside to the air storage unit 532 through the discharge path 534 by the air pumping means 535, the control valve 536 moves toward the supply path 533. While moving, the supply path 533 is sealed and at the same time, the inlet of the compressed air into the housing 510 is blocked. Such, the air-pumping means 535 is a selective pumping device capable of discharging gas from the inside of the chamber body 531 or supplying the chamber body 531 again from the outside.

The control valve 536 is selectively provided as the compressor body of the air storage unit 532 by the air pumping means 535 is discharged through the discharge path 534 or supplied through the discharge path 534. The air storage unit 532 is a valve to selectively communicate with the supply passage 533 or the discharge passage (534). The control valve 536 is slidably inserted into the air storage 532 to be disposed between the supply passage 533 and the discharge passage 534. Therefore, the control valve 536 is the discharge path while pulling some of the compressor body of the air storage unit 532 to the discharge path 534 when the air pumping means 535 is discharged to the outside. When the air storage unit 532 is sealed and the air storage unit 532 communicates with the supply passage 533, and the compressor body is supplied to the air storage unit 532 by the air pumping means 535. In addition, the air storage part 532 is in communication with the discharge path 534 while sealing the supply path 533 while being pushed in the direction of the supply path 533.

The elastic member 540 is moved by the compression body of the air chamber 530, the striking piston 520 is pushed in the direction of the striking plate 300, the striking piston 520 is returned to its original position by the elastic force To be returned. That is, the elastic member 540 is moved back in the opposite direction by the elastic member in the state in which the striking piston 520 is moved in one direction by the compressed air supplied to the supply path 533 of the air chamber 530. By moving to return, the striking piston 520 is able to strike the striking plate 300 several times while the reciprocating circulation movement inside the housing 510. The elastic member 540 is installed inside the housing 510. In this case, one end of the elastic member 540 in the longitudinal direction is disposed to contact the striking plate 300, and the other end thereof is installed to be hooked to one end of the striking piston 520. Here, the elastic member 540 is shown as a spring member, but is not limited to this, it is of course possible to select and use a member having an elastic force.

Referring to Figures 2 to 5 the operation of the blow device for removing the heat exchanger attachment according to an embodiment configured as described above are as follows.

First, after the main body 100 is installed in a fixed state to the heat exchanger 10 in a fixed state, it is necessary to remove the deposits attached to the target object 11 in a state where the heat exchanger 10 is used for a predetermined time. If present, the positioning cylinder 400 is operated to move the end of the striking rod 200 in contact with the striking target portion 11. As shown in FIG. 4, when the positioning cylinder 400 is operated, the striking plate 300 is moved toward the striking rod 200 while the striking rod 200 moves toward the striking target portion 11. Push to move.

When the end of the striking rod 200 is in contact with the striking target portion 11, the striking cylinder 500 is operated to strike the striking plate 300 to impart an impact force to the striking rod 200. After the transmission, the hitting target part 110 is shaken by receiving the impact force from the hitting rod 200, and the attachment attached to the surface is separated. As shown in FIG. 5, when some of the compressor bodies are discharged from the air pumping means 535 of the air chamber 530 through the discharge passage 534 of the chamber body 531, the control valve 536 is driven by a suction force. While moving toward the discharge path 534 to maintain the discharge path 534 in a closed state. Then, the remaining compressor bodies stored in the air storage unit 532 of the chamber body 531 are pushed to collide with the striking plate 300 while moving to the supply passage 533. As such, after the striking piston 520 pushed by the compressor body strikes the striking plate 300, the striking piston 520 is formed by the elastic force of the elastic member 540. Return to the chamber body 531 of the 530 is moved. When the striking piston 520 is returned to its original position, the air pumping means 535 again supplies the compressor body through the discharge path 534 and moves the control valve 536 toward the supply path 533. While maintaining the supply passage (533) in a sealed state. Subsequently, when the striking plate 300 strikes the striking piston 520 by the striking piston 520, the above-described operation is repeated.

As described above, in the blower for removing the heat exchanger attachment of the embodiment, the blower plate 300 moving by the operation of the positioning cylinder 400 moves the end of the blower rod 200 to the heat exchanger 10. In the state in contact with the hitting target portion 11 of the, the hitting plate 300 is hit by the hitting cylinder (500) to operate after the hitting target portion (11) through the hitting rod 200 As the impact force is transmitted to the bar, the impact force transmitted to the hitting target part 11 can be easily adjusted.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

10: heat exchanger 11: area to be hit
100: main body 110: first base plate
120: second base plate 130: guide pillar
200: blow rod 300: blow plate
400: positioning cylinder 500: impact cylinder
510: housing 520: striking piston
530: air chamber portion 540: elastic member

Claims (4)

A main body having a first base plate and a second base plate coupled to be spaced apart from each other by a plurality of guide pillars vertically coupled to the base plate;
A striking rod slidably installed therethrough in a vertically disposed state on the second base plate;
A striking plate slidably installed on the guide pillar so as to face the first base plate and the second base plate;
A rod adjusting end connected to the striking plate in a state of being installed on the first base plate to move the striking plate on the guide pillar according to an operation; And
Installed and coupled vertically to the striking plate, the heat exchanger attachment removing blow including a striking cylinder for generating a striking force to be transmitted to the striking rod while striking the striking plate while the striking plate is placed in contact with one end of the striking rod Device. The method according to claim 1,
The blower for removing heat exchanger attachment on the second base plate is further provided with a tubular blow guide having both ends in the longitudinal direction so as to be slidably guided in a state where the blow rod is inserted. The method according to claim 1,
The blow cylinder,
A housing having a cylindrical shape having both ends opened and having one end fixedly coupled to the striking plate in a state where a fluid circulation hole is formed at one side thereof;
An impact piston slidably installed in the housing;
When the striking plate is placed in contact with the striking rod in a state in which the compressor body is filled therein, the striking piston pushes the striking piston in the direction of the striking plate, and the striking piston is the striking plate. An air chamber portion for hitting the
And an elastic member installed inside the housing and configured to return the striking piston to its original position by an elastic force after the striking piston is pushed by the compressor body of the air chamber unit. The method according to claim 3,
The air chamber portion,
A chamber body having an air storage unit filled with a compressor body therein, a supply path communicating the air storage unit and the housing, and a discharge path communicating the air storage unit with the outside;
An air pumping means connected to the discharge path for discharging a part of the compressor body of the air storage unit to the outside of the chamber body or supplying the compressor body to the air storage unit from the outside;
The air storage unit is slidably installed to be disposed between the supply path and the discharge path, and the air storage unit is selectively provided in accordance with the discharge or supply of a compressor body of the air storage unit by the air pumping means. A blow device for removing a heat exchanger attachment comprising a control valve for selective communication with a discharge path.

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