KR101053440B1 - Cleaning gun - Google Patents

Abstract

The present invention relates to a heat transfer tube cleaning gun capable of cleaning a heat transfer tube, and more particularly, to clean sludge and scale accumulated in the tube support plate and the heat transfer tube of a nuclear power plant steam generator using compressed air. The present invention relates to a cleaning gun having a multi-trigger structure so that the present invention can be grasped by a worker in the cleaning gun for cleaning the inside of a heat pipe of a steam generator, and the compressed air can be selectively discharged by introducing compressed air therein. Multi-trigger structure comprising a handle portion that can be coupled to one side of the handle portion is driven by the compressed air introduced through the handle portion, and the nozzle portion is coupled to the end of the trigger portion to finally discharge the compressed air It provides a cleaning gun having.

Handle, cock, nozzle, piston, compressed air

Description

Cleaning Gun {CLEANING GUN}

The present invention relates to a heat transfer tube cleaning gun capable of cleaning a heat transfer tube, and more particularly, to clean sludge and scale accumulated in the tube support plate and the heat transfer tube of a nuclear power plant steam generator using compressed air. And a cleaning gun having a multiple trigger structure.

In general, the primary system of a nuclear power plant is composed of a nuclear reactor, a steam generator, a coolant circulation pump, a pressurizer, and the like, and the coolant heated in the reactor enters a steam generator to transfer heat to the secondary system circulating water.

Accordingly, the secondary system circulating water, which receives heat from the coolant, is converted into steam of high temperature and high pressure, and the turbine rotates by the high temperature and high pressure steam.

However, the secondary system circulating water of the steam generator contains metallic sludge and scale by immersion of the pipe, so that the tube surface of the steam generator, the upper part of the tube sheet, and the tube support plate of the tube generator. plate) There was a problem that can cause various problems such as sludge deposited on the upper part.

In other words, the steam generator consists of a plurality of heat pipes in the form of bundles, the ends of the heat pipes are fixed to the heat pipe supporters at the bottom of the heat pipe bundles, and are supported by a heat pipe support plate configured to the top of the heat pipes at intervals of about 1 m. Impurities introduced or generated through the scale scale on the outer surface of the heat pipe to reduce the heat exchange power, and depositing sludge between the heat pipe and the heat pipe support plate causes the tension between the heat pipe support plate and the heat pipe to cause damage to the heat pipe. There was a problem.

Therefore, descaling of the surface of the heat transfer pipe and sludge removal of the heat transfer pipe support plate have become an essential means for ensuring the efficiency of the steam generator and the integrity of the heat transfer pipe.

However, at present, in Korea, a cleaning device is used through a handhole of a steam generator using a chemical cleaning method, an ultrasonic cleaning method, a cleaning method using a shock wave, and a cleaning method using a high pressure water spray to remove sludge inside a steam generator of a nuclear power plant. Or cleaning equipment for sludge removal of the heat transfer pipe support plate where the heat transfer pipe is fixed by installing a lyric device on the guide rail. It's happening.

 In other words, in order to remove the contamination of the heat exchanger tube of the heat exchanger, there is a device that penetrates the brush into the heat exchanger tube by using water pressure, but such a device requires a pressure pump and water so that the working environment is not good. There was a problem that the working time takes more than three times when using a rotary screw brush (screw brush).

In addition, when compressed air is used, the ball valve or the oil supply gun is turned on and off, which may reduce work efficiency and cause muscle and skeletal diseases. There was a disadvantage that the cleaning is not made smoothly because it does not penetrate into the air.

In addition, as described above, when the inside of the heat pipe is blocked by foreign matters when working with high-pressure water or compressed air, if compressed air is blocked, the brush and the foreign matters may protrude in the direction where the worker is located due to the internal pressure, causing a safety accident. There was this.

The present invention has been made in order to solve the above-mentioned conventional problems, an object of the present invention is to easily and easily remove the heat pipe contamination (sludge and scale) of the heat exchanger, the inside of the heat pipe is narrowed easily due to the sludge and scale The present invention provides a cleaning gun having a multi-triggered structure that can penetrate smoothly and at the same time prevent a worker's safety accident that may occur during a heat pipe cleaning operation.

The objects and advantages of the present invention will be described in more detail below, and will be further embodied by the examples. In addition, the objects and advantages of the present disclosure may be realized by the means shown in the claims and combinations thereof.

In order to achieve the above object of the present invention, the present invention is a cleaning gun for washing the inside of the heat transfer tube of the steam generator, the operator can grasp, and the handle portion which can selectively discharge the inlet by entering the compressed air therein; A cleaning gun having a multi-trigger structure including a trigger portion coupled to one side of the handle portion and driven by compressed air introduced through the handle portion, and a nozzle portion coupled to the end of the trigger portion to finally discharge the compressed air. To provide.

In addition, in the present invention, the handle portion is formed in the shape of a pistol handle so that the operator can hold the handle is formed with a flow path so that the compressed air can flow therein, and one end of the handle to be rotatable The lever is coupled to the end of the flow path of the handle is characterized in that consisting of a valve for opening and closing the flow path in accordance with the rotation of the lever.

In the present invention, the valve is characterized in that the three-way valve.

In addition, in the present invention, the trigger portion is a body having an inlet hole for entering the compressed air discharged through the handle portion, the one end is fitted to the body, the cylindrical cylinder formed with through holes on both sides in the longitudinal center; The cover is coupled to the other end of the cylinder, the through hole formed in the center of the cylinder is coupled to be inserted so as to be located inside the cover, the cover coupled to have a predetermined space between the cylinder and the cover, and the cylinder And a piston coupled to the hollow formed therein, a flanger coupled to the piston to flow in the same manner as the piston when the piston moves forward or backward, and a spring coupled to surround the outer circumferential surface of the flanger. do.

In the present invention, a groove is formed on the outer circumferential surface of the piston, characterized in that the O-ring is fitted to prevent the compressed air from leaking into the groove.

In addition, in the present invention, the piston between the piston and the cylinder to prevent the wear of the piston by friction, characterized in that it further comprises a liner to enable a smooth linear reciprocating motion of the piston.

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The cleaning gun having a multi-trigger structure according to the present invention as described above has the effect of reducing labor and simplifying the work process, and can easily and simply clean the heat pipe in a clean environment, and inside the heat pipe having a narrow inner diameter primarily. By inserting the flanger, it is easy to penetrate so that even if the inner diameter is narrowed, it is possible to easily penetrate through the heat pipe, the clean, and even if the brush and the foreign material is knocked out due to the pressure inside the heat pipe, the brush and foreign matter By forming a safety cover to block the, there is an effect that can prevent the safety accident of the worker in advance.

Hereinafter, the configuration and effect of the cleaning gun having a multi-trigger structure according to the present invention will be described in more detail with reference to the preferred embodiments and the accompanying drawings.

1 is a side view showing a cleaning gun having a multi-trigger structure according to the present invention, Figure 2 is a side cross-sectional view showing a cleaning gun having a multi-trigger structure according to the present invention.

As shown in the figure, the cleaning gun 100 having a multi-trigger structure according to the present invention to effectively remove the sludge and scale deposited on the heat transfer tube has a handle portion 110, the trigger portion 120, the nozzle The unit 130 is included.

As shown in FIG. 2, the handle part 110 serves to suck or block air, and includes a handle 112, a lever 114, and a valve 116.

Handle 112 is formed in the shape of a conventional pistol grip so that the operator can easily grip, the flow path 112b is formed so that the compressed air can flow therein, at one end is produced in an air compressor (not shown) Inlet 112a is formed to allow the compressed air to flow into the handle 112.

In addition, a lever 114 is formed on one side of the handle 112 to selectively discharge the introduced compressed air. As shown in FIG. 2, the lever 114 is rotatably coupled to the distal end of the handle 112 so that the compressed air introduced into the handle 112 through the inlet 112a can be moved. Optionally serves to discharge to the outside of the handle (112).

At this time, the lever 114 is to discharge the compressed air introduced into the handle 112 by pressing the valve 116 provided at the end of the handle 112 to selectively open and close the flow path (112b). It is formed of a length member having a certain length so that the user can easily grip.

The valve 116 is installed in conjunction with the lever 114 at the distal end of the handle 112. When pulling the lever 114, the valve 116 is opened so that the compressed air can be discharged to the outside. When the lever 114 is released, the flow path 112b is sealed to prevent the compressed air from leaking out.

Specifically, in the present invention, when the user pulls the lever 114 by using the 3-way valve 116, the compressed air introduced into the handle 112 is external to the handle 112, preferably a trigger portion (to be described later). 120, and when the lever 114 is released, the compressed air introduced into the handle 112 is prevented from leaking to the outside (triggered part) and at the same time, the compressed air introduced into the triggered part 120 is prevented. Reversely serves to block the flow into the handle 112. Here, the 3 way valve is a known technique, a detailed description thereof will be omitted.

In addition, when the flow path 112b is closed by the valve 116, a discharge port 112c is formed at one end of the handle 112 to discharge the compressed air inside the trigger 120 to the outside of the gun.

2, as shown in FIG. 2, coupled to one side of the handle part 110 and driven by compressed air introduced through the handle part 110, the body 121 and the cylinder ( 122), cover 123, piston 124, spring 125, and flanger 126.

The body 121 has an inlet hole 121a formed at one end thereof to allow the compressed air discharged through the valve 116 of the handle 110 to be introduced, and is formed in a cylindrical shape, and formed to have one side open. do.

The cylinder 122 is formed in a cylindrical shape having a predetermined length by which one end is fitted to the body 121 formed to have one end open. In this case, the cylinder 122 has a hollow therein, and a through hole penetrating both sides of the central portion in the longitudinal direction is formed.

Cover 123 is coupled to the other end of the cylinder 122, the through hole formed in the center of the cylinder 122 is coupled to be inserted so as to be located inside the cover 123, the cylinder 122 It is preferable to be coupled to have a predetermined space between the cover 123.

On the other hand, the piston 124 is fitted to the hollow formed inside the cylinder 122 serves to convert the energy of the compressed air into mechanical kinetic energy, and formed to have the same diameter as the inner peripheral surface of the cylinder 122 Thus, the inside of the cylinder 122 may be moved forward or backward by compressed air.

At this time, the piston 124 is made of a synthetic resin material, after forming the groove 124a along the outer circumferential surface of the piston 124 and the O-ring (O) in close contact with the inner peripheral surface of the cylinder 122 in the groove 124a By combining, it is preferable to prevent leakage of compressed air so that the piston 124 can smoothly flow in the cylinder 122.

In addition, a liner may be provided to allow a smooth linear reciprocation of the piston 124 by fitting between the piston 124 and the cylinder 122. As shown in the drawing, the liner R prevents the piston 124 moving forward and backward in the cylinder 122 from being worn by friction.

In addition, the flanger 126 coupled to the piston 124 is provided to flow in the same way as the piston 124 when the piston 124 is moved forward or backward.

The flanger 126 serves to insert the brush B, which will be described later, into the heat transfer pipe P primarily, and is formed to have a predetermined length. At this time, the flanger 126 is a material that can be easily moved forward and backward by the compressed air, it is preferable to use a material that can pass through the heat exchanger tube narrowed by the sludge and scale. Therefore, in the present invention, a stainless material is used so that it can withstand long periods of light weight and durability and corrosion.

In addition, a spring 125 is provided on an outer circumferential surface of the flanger 126. The spring 125 serves to provide the elastic restoring force to the piston 124 and the flanger 126 advanced for the compressed air to be moved to the original position, one end to the piston 124 And the other end is in contact with the end of the cylinder 122.

In addition, the end of the flanger 126 is provided with a flanger cap 127 to prevent damage to the inner diameter of the brush and the heat transfer tube to be described later.

The flanger cap 127 is replaceable to fit the inner diameter of the heat pipe, to ensure the universality of the equipment, and serves to prevent the inner diameter of the heat pipe is damaged by the friction force with the flanger 126 to pass through the inside of the heat pipe during cleaning. do.

The nozzle unit 130 is coupled to the distal end of the percussion part 120 and includes a stopper 132 and a gauge 134.

The nozzle unit 130 is coupled to the end of the triggering unit 120 to finally discharge the compressed air, the discharge port 132a so that the flanger 126 of the triggering unit 120 can be moved forward or backward in the center ) Is provided with a stopper 132 and the visual information to one side of the stopper 132, to observe the compression change of the compressed air introduced into the percussion unit 120, the flanger inside the heat transfer pipe (P) (126) The gauge 134 which can determine the presence or absence of penetration is provided.

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In addition, it may be configured to further include a safety cap 138 for sealing the discharge port (132a) in order to prevent a safety accident due to a malfunction in advance.

On the other hand, the fitting portion (128a) that is fitted to a portion of the cover 123 and the gripping portion that can be gripped by the worker so that the operator can safely and firmly grip the cleaning gun 100 according to the present invention It can be configured to further include a grip (128) consisting of (128b).

The grip 128 has a ring shape at one end so that the outer circumferential surface of the cover 123 may be fitted to the fitting portion 128a having the ring shape, and the grip portion 128b is made of a synthetic resin material or a metal material. If the shape can be easily and safely grasped by the user.

Looking at the operation method of the cleaning gun 100 having a multi-triggered structure according to the invention made in such a configuration as follows.

3a to 3d is an operating state diagram showing an operating state of the cleaning gun having a multi-trigger structure according to the present invention.

First, the safety cap 138 sealing the discharge port 132a of the nozzle unit 130 is removed.

Thereafter, as shown in FIG. 3A, the safety cap 138 has been removed, and the brush B is attached and then inserted into the heat transfer pipe P to be cleaned.

Thereafter, the operator grips the handle 112 and the grip 128 and then pulls the lever 114 in the direction of the arrow so that the 3-way valve 116 is opened, so that the compressed air is moved in the direction of the arrow as shown in FIG. 3B. It is to be introduced into the cylinder 122 of the trigger 120.

Thereafter, the introduced compressed air pressurizes the rear surface of the piston 124 which is in close contact with one end of the cylinder 122 by the spring 125, thereby ascending the piston 124 and the flanger 126 as shown in FIG. 3B. The through hole 122a formed in the longitudinal center portion of the cylinder 122 is advanced. At this time, the spring 125 is in a compressed state and the flanger 126 and the brush are moved by the movement distance of the piston 124 in the heat transfer pipe P.

Thereafter, the compressed air having advanced the piston 124 is nozzle through the air gap formed between the cylinder 122 and the cover 123 through the through hole 122a formed in the cylinder 122, as shown in Figure 3c It is injected into the unit 130. Accordingly, the gauge 134 operates as the pressure rises, and the pressure can be observed.

Then, the compressed air passing through the through hole 122a is to press the brush (B) to clean the heat pipe (P).

Thereafter, when the brush B penetrates the heat pipe P (when the brush penetrates the heat pipe, pressure is released to the outside, the pressure of the gauge decreases), as shown in FIG. 3D. Release of the lever 114 of the gun 100 causes the piston 124 to return to its original position by the restoring force of the spring 125. At this time, the compressed air remaining inside the gun is discharged through the outlet 112c of the handle 112.

Therefore, the cleaning gun 100 having a multi-trigger structure according to the present invention reduces labor and improves productivity by simplifying a work process, and whether or not the brush penetrating was previously determined as auditory information, but visual information through a pressure gauge can be confirmed. It has the advantage of being able to prevent industrial accidents.

So far, the embodiments of the present invention have been described in detail, but the scope of the present invention is not limited thereto, and it will be included to substantially equivalent scope of the embodiments of the present invention.

1 is a side view showing a cleaning gun having a multi-trigger structure according to the present invention,

Figure 2 is a side cross-sectional view showing a cleaning gun having a multi-trigger structure in accordance with the present invention.

3 to 3 is an operating state diagram showing an operating state of the cleaning gun having a multi-trigger structure according to the present invention.

<Explanation of symbols on the main parts of the drawing>

100: cleaning gun 110: handle portion

112: handle 112a: inlet

112b: Euro 112c: outlet

114: lever 116: valve

120: cock 121: body

121a: inlet hole 122: cylinder

122a: through hole 123: cover

124: piston 125: spring

126: flanger 127: flanger cap

128: grip 128a: fitting

128b: Gripping portion O: O-ring

R: Liner 130: Nozzle

132: stopper 132a: discharge port

134: gauge 138: safety cap

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Claims (7)

In the cleaning gun for cleaning the inside of the heat pipe of the steam generator, A handle part which can be gripped by a worker and selectively discharges compressed air into the inside thereof, A trigger part coupled to one side of the handle part and driven by compressed air introduced through the handle part; The nozzle unit is coupled to the periphery of the trigger portion to finally discharge the compressed air, The trigger portion, The body is formed with an inlet hole for entering the compressed air discharged through the handle portion, one end is fitted to the body, the cylindrical cylinder is formed with a through hole on both sides of the longitudinal center, and the other end of the cylinder The cover is coupled to be inserted so that the through-hole formed in the center of the cylinder can be located inside, the cover is coupled to have a predetermined space on the outer circumferential surface of the cylinder, the piston is fitted into the hollow formed inside the cylinder, and A flanger coupled to the piston to flow in the same way as the piston when the piston moves forward or backward, a spring coupled to surround the outer circumferential surface of the flanger, and a grip fitted to a portion of the cover Cleaning gun with multiple trigger structure. The method of claim 1, wherein the handle portion, A handle formed in the shape of a pistol grip for holding by the worker and having a flow path formed therein to allow compressed air to flow therein; A lever having one end rotatably coupled to one side of the handle; Cleaning gun having a multi-trigger structure, characterized in that formed in the end of the flow path of the handle made of a valve for opening and closing the flow path in accordance with the rotation of the lever. delete delete The cleaning gun according to claim 1, wherein a groove is formed on an outer circumferential surface of the piston, and an O-ring is fitted to prevent compressed air from leaking into the groove. The cleaning gun of claim 1, further comprising a liner to prevent the piston from being worn by the friction between the piston and the cylinder and to enable a smooth linear reciprocation of the piston. delete

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