KR20140001285U - Cleaning Device for Heating Pipe - Google Patents

Abstract

The present invention relates to a heating pipe cleaning apparatus, comprising: a housing having a housing bottom surface portion and a housing side surface portion bent from a circumferential edge of the housing bottom surface portion to form a concave shape in cooperation with the housing bottom surface portion; A wash water passing pipe installed inside the housing such that both ends thereof are exposed through the housing side surface; A compressed air supply unit for supplying compressed air to the inside of the wash water passage through the air supply pipe having an air compressor connected to the air supply pipe and an outlet port connected to the wash water passage inside the housing; And a control unit controlling the air compressor to discharge compressed air intermittently from the air compressor. As a result, foreign matter in the heating pipe can be efficiently removed.

Description

Cleaning Device for Heating Pipe

The present invention relates to a heating pipe cleaning device, and more particularly to a device for use in cleaning the foreign matter present in the interior of the heating pipe constituting a part of the heating device.

Heating apparatuses are widely used, and among these heating apparatuses, a heating pipe is embedded in an area requiring heating, and then hot water is passed through the heating pipe.

As such, in the case of a heating device using a heating pipe, the water flow is disturbed by foreign substances such as slime, scale, etc. generated in the heating pipe, which lowers the heating efficiency and causes a problem that these foreign substances are transferred to the hot water generator. .

In order to solve this problem, a method of cleaning the heating pipe has been devised and used.

9 is a view showing a conventional heating pipe cleaning method.

A conventional heating pipe cleaning method is described below with reference to FIG. For convenience of explanation, the heating piping is assumed to be separated from the heating system.

First, the water supply pipe 201 and the heating pipe 202 are connected using the connection pipe 203.

Next, the pressurized washing water is supplied through the water supply pipe 201. Here, the washing water may be used as tap water.

The washing water supplied through the water supply pipe 201 is supplied into the heating pipe 202.

The foreign matter such as the scale attached to the inner wall surface of the heating pipe 202 is physically peeled off by the pressure of the washing water entering the heating pipe 202.

However, according to the conventional heating pipe cleaning method, foreign matters in the heating pipes are physically removed by the pressure of the washing water entering the heating pipes 202 such as scales attached to the inner wall surface of the heating pipes 202. There was a problem that can not be removed efficiently.

Accordingly, an object of the present invention is to provide a heating pipe cleaning device that can efficiently remove foreign substances in a heating pipe.

The object of the present invention is a housing having a housing bottom surface portion and a housing side surface portion bent from a circumferential edge of the housing bottom surface portion to form a concave shape in cooperation with the housing bottom surface portion; A wash water passing pipe installed inside the housing such that both ends thereof are exposed through the housing side surface; A compressed air supply unit for supplying compressed air to the inside of the wash water passage through the air supply pipe having an air compressor connected to the air supply pipe and an outlet port connected to the wash water passage inside the housing; And a control unit for controlling the air compressor to discharge compressed air intermittently from the air compressor.

In this case, the compressed air supply unit is configured to maintain the magnitude of the shock wave generated in the wash water passing pipe stably, and the noise reduction unit and the residual compressed air installed at the end of the residual compressed air discharge pipe connected to the air supply pipe and the residual compressed air discharge pipe. Residual compressed air discharge portion having a discharge pipe opening and closing valve installed in the residual compressed air discharge pipe to open and close the discharge pipe; The control unit controls the air compressor so that compressed air is not discharged from the air compressor according to a control signal from the outside, and controls the discharge pipe opening and closing valve so that the discharge pipe opening and closing valve is opened while the compressed air is not discharged from the air compressor. It is desirable to.

And it is preferable to further include a magnetization portion installed in the wash water through-holes to provide a magnetic force to the inner space of the wash water through-pipes so as to more efficiently remove the foreign matter in the heating pipe.

In addition, to increase the magnetization of the wash water and to easily install the magnet, the magnetization portion is installed inside the wash water through tube and the outer surface and the magnet support tube is formed so that the magnet seating grooves are arranged in two rows along the length direction; It is preferable to include a magnet installed in each of the magnet seating grooves.

Therefore, according to the present invention, when supplying compressed air intermittently into the heating pipe, the foreign matter in the heating pipe is removed by the impact force of the shock wave generated in the heating pipe and the pressure of the washing water. The foreign matter inside can be removed efficiently.

1 and 2 are a perspective view of a heating pipe cleaning device according to an embodiment of the present invention, respectively,
3 is a partial cutaway perspective view of a heating pipe cleaning device according to an embodiment of the present invention;
Figure 4 is a perspective view showing a coupling state of the intermediate passage pipe portion and the magnetization of the heating pipe cleaning device according to an embodiment of the present invention,
5 is a view showing an exploded state of the intermediate passage and the magnetization of the heating pipe cleaning apparatus according to an embodiment of the present invention,
Figure 6 is a cross-sectional view showing a coupling state of the intermediate passage tube and the magnetization of the heating pipe cleaning apparatus according to an embodiment of the present invention,
7 is a control block diagram of a heating pipe cleaning device according to an embodiment of the present invention,
8 is a view showing a method of using a heating pipe cleaning device according to an embodiment of the present invention,
9 is a view showing a conventional heating pipe cleaning method.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 and 2 are respectively a perspective view of a heating pipe cleaning device according to an embodiment of the present invention, Figure 3 is a partial cutaway perspective view of the heating pipe cleaning device according to an embodiment of the present invention, Figure 4 is an embodiment of the present invention 5 is a perspective view illustrating a coupling state of the intermediate passage pipe part and the magnetization part of the heating pipe cleaning device according to the present invention, and FIG. 5 is a view illustrating a disassembled state of the intermediate passage pipe part and the magnetization part of the heating pipe cleaning device according to the embodiment of the present invention; Figure 6 is a cross-sectional view showing a coupling state of the intermediate passage pipe and the magnetization of the heating pipe cleaning device according to an embodiment of the present invention, Figure 7 is a control block diagram of the heating pipe cleaning device according to an embodiment of the present invention.

Heating pipe cleaning apparatus according to an embodiment of the present invention, as shown in these drawings, the housing 10, the on-off switch 21 installed in the housing 10, the washing water through pipe 30, the compressed air supply unit 40 and a power supply line 22, a magnetization unit 60 provided in the washing water through tube 30, and a control unit 23 for controlling the operation of the compressed air supply unit 40.

The housing 10 has a housing side face portion 11 and a housing side face portion which are bent from the circumferential edge of the housing bottom face portion 11 so as to form a concave shape in cooperation with the housing bottom face portion 11 and the housing bottom face portion 11. It has the cover part 13 and the support plate part 14 couple | bonded with (12).

The housing side portion 12 is provided with a pair of exposure holes 12a for exposing the wash water passage 30 to the outside of the housing 10.

The housing side surface portion 12 has a reinforcing frame 12b and a support rib 12c formed at an upper end thereof.

The cover portion 13 is coupled to the housing side surface portion 12 so that the upper opening of the housing side surface portion 12 can be opened and closed by the rotation operation.

And the cover portion 13 is installed to maintain the open state through the lower support lever 15 and the upper support lever 16.

The lower support lever 15 is rotatably coupled to the reinforcing frame 12b through the lower end.

The upper support lever 16 is rotatably coupled to the cover 13 and the lower support lever 15.

The support plate portion 14 is installed to be fixed to the support rib 12c through a screw.

The on-off switch 21 is provided on the upper surface of the support plate part 14.

The washing water passage 30 is an upstream passage 31 and a downstream passage 32 installed inside the housing 10 so as to be exposed through the housing side 12 through the exposure hole 12a, and an upstream passage ( 31) and an intermediate passage portion 33 for connecting the downstream passage portion 32.

The upstream passage portion 31 is connected to the water supply pipe 201 during the cleaning operation.

The intermediate passage portion 33 is coupled to the upstream passage portion 31 and the downstream passage portion 32 through the connecting ring 34, respectively.

Each connecting ring 34 is screwed into the intermediate passage portion 33, the upstream passage portion 31 and the downstream passage portion 32, the stopper jaw (34a) is formed on the inner surface along the circumferential direction.

The pressure gauge 44 is connected to the downstream passage 32.

And the downstream passage 32 is connected to the heating pipe 202 during the cleaning operation.

The compressed air supply unit 40 is an air supply pipe 41 connected to the wash water passing pipe 30 in the housing 10, an air compressor 42 connected to an air supply pipe 41, and an air supply pipe 41. And a residual compressed air discharge button (43) and a pressure gauge (44) provided in the housing (10).

The air supply pipe 41 is connected to the downstream passage pipe part 32.

Since the air compressor 42 is widely known in the art, detailed description thereof will be omitted.

The residual compressed air discharge unit 50 includes a residual compressed air discharge pipe 51 connected to the air supply pipe 41, a noise reduction unit 52 provided at the end of the residual compressed air discharge pipe 51, and a residual compressed air discharge pipe 51. ) Has a discharge pipe opening / closing valve (53) provided in the residual compressed air discharge pipe (51) so as to open and close.

Residual compressed air discharge button 43 can be implemented in a push operation method.

The compressed air supply unit 40 having such a configuration supplies the compressed air into the wash water passing pipe 30 through the air supply pipe 41.

The noise reduction unit 52 may be implemented using a conventionally known exhaust side silencer.

Discharge pipe opening and closing valve 53 may be implemented electronically, such as a solenoid valve.

The magnetization unit 60 is a magnet support tube 61 installed inside the intermediate passage tube portion 33, a magnet 62 installed in the magnet support tube 61, and a protective tube provided to surround the intermediate passage tube portion 33 ( 63).

The magnet support tube 61 is formed so that the magnet seating grooves 61a are arranged in two rows along the longitudinal direction on the outer surface. For convenience of description, the magnet seating grooves belonging to the column arranged on the upper side (see Fig. 5) of the magnet seating grooves of the two rows are referred to as the upper magnet seating grooves 61a and the magnet seating grooves belonging to the row arranged on the lower side (Fig. 5). This is called the lower magnet seating groove (61a).

And each magnet seating groove (61a) is formed with a magnet exposure hole (61b) on the bottom surface.

One magnet 62 is installed in each of the upper magnetic seating recesses 61a and the lower magnetic seating recesses 61a.

The polarity of the magnet 62 is selected so that attraction force is generated between the magnets provided in the opposing upper magnetic seating grooves 61a and the lower magnetic seating grooves 61a.

In this case, the strength of the magnetic force by the magnet 62 is preferably about 9,000 to 12,000 gauss.

Accordingly, the magnetization unit 60 may provide a magnetic force to the internal space of the upstream passage portion 31, and the wash water passing through the upstream passage portion 31 is magnetized to become magnetic.

The control unit 23 controls the air compressor 42 to discharge compressed air intermittently from the air compressor 42. Here, the interruption of the compressed air discharge is preferably made at intervals of about 0.25 to 0.5 seconds.

And the control unit 23 controls the opening and closing operation of the discharge pipe opening and closing valve 53 according to the control signal from the outside, that is, according to the pressing operation and the release operation of the residual compressed air discharge button 43.

That is, the air compressor 42 is controlled so that the compressed air is not discharged from the air compressor 42 when the residual compressed air discharge button 43 is pressed, and the discharge pipe is opened and closed while the compressed air is not discharged from the air compressor 42. The discharge pipe opening and closing valve 53 is controlled to open the valve 53.

And the control unit 23 controls the air compressor to discharge the compressed air from the air compressor when the release operation of the residual compressed air discharge button 43, the discharge pipe opening and closing valve 53 while the compressed air is discharged from the air compressor 42 ) To control the discharge pipe opening and closing valve 53 to be closed.

Referring to Figure 8 the operation of the heating pipe cleaning apparatus according to an embodiment of the present invention having such a configuration as follows. For convenience of explanation, it is assumed that the heating pipe 202 is separated from the heating device.

First, the water supply pipe 201 is connected to the upstream passage pipe part 31, and the heating pipe 202 is connected to the downstream passage pipe part 32 using the connection pipe 203.

Next, the pressurized washing water is supplied through the water supply pipe 201. Here, the washing water may be used as tap water.

The washing water supplied through the water supply pipe 201 is magnetized while passing through the intermediate passage pipe part 33 and then supplied into the heating pipe 202. The pressure of the wash water passing through the downstream passage 32 is indicated on the pressure gauge 44.

Next, the on-off switch 21 is operated in the on state.

When the on-off switch 21 is turned on, the controller 23 controls the air compressor 42 to discharge compressed air intermittently from the air compressor 42 (S1).

When compressed air is intermittently discharged from the air compressor 42, compressed air is intermittently supplied to the downstream passage 32 through the air supply pipe 41 (S2).

When compressed air is intermittently supplied to the downstream passage 32, the speed of the washing water passing through the inside of the heating pipe 202 is changed, and the decrease in the kinetic energy according to the speed difference of the washing water is converted into pressure energy to be heated. The shock wave is repeatedly generated inside the inside of 202, and foreign substances such as scales attached to the inner wall surface of the heating pipe 202 are physically peeled off by the impact force of the shock wave and the pressure of the washing water. In addition, since the washing water is magnetized, the magnetic force (generated by the magnetized washing water) is added to the impact force of the shock wave existing in the heating pipe 202 and the pressure of the washing water, which is attached to the inner wall surface of the heating pipe 202. More foreign matters such as scales can be peeled off.

Next, after supplying the washing water through the water supply pipe 201, the user operates the pressed compressed air discharge button 43.

When the residual compressed air discharge button 43 is operated in a pressed state, the control unit 23 controls the air compressor 42 so as not to discharge the compressed air from the air compressor 42, and discharges the compressed air from the air compressor 42. The discharge pipe opening and closing valve 53 is controlled so that the discharge pipe opening and closing valve 53 is opened while not being.

While the discharge pipe opening / closing valve 53 is opened, the compressed air existing in the wash water passing pipe 30 and the air supply pipe 41 is discharged to the outside through the residual compressed air discharge unit 50.

Next, the user operates the compressed air discharge button 43 in a released state.

Next, the user supplies the washing water again through the water supply pipe 201, and then operates the on / off switch 21 in the on state.

When the on-off switch 21 is operated in the on state, the steps S1 and S2 proceed.

The operation of stopping the supply of the washing water through the water supply pipe 201 and pressing the residual compressed air discharge button 43 may be repeated two or more times.

When the cleaning of the heating pipe 202 is completed, the user stops supply of the washing water through the water supply pipe 201 and operates the on / off switch 21 in the off state.

When the on-off switch 21 is turned off, the controller 23 controls the air compressor 42 to stop the compressed air discharge operation of the air compressor 42.

According to the embodiment of the present invention as described above, when supplying compressed air intermittently to the interior of the heating pipe 202, the heating pipe by the impact force of the shock wave generated inside the heating pipe and the pressure of the washing water. By removing the foreign matter in the inside, it is possible to efficiently remove the foreign matter in the heating pipe 202.

In addition, by adding the residual compressed air discharge unit 50, it is possible to stably maintain the magnitude of the shock wave generated in the wash water passage 30 (inside the pressure of the compressed air supplied from the air compressor and the inside of the wash water passage). The larger the difference in the pressure of the existing compressed air, the larger the shock wave is generated inside the wash water passage and the heating pipe).

In addition, by adding a magnetization unit 60 installed in the washing water passing pipe 30 to provide a magnetic force in the inner space of the washing water passing pipe 30, foreign matter in the heating pipe 202 can be removed more efficiently.

In addition, the magnetization unit 60 to include a magnet support tube 61 and a magnet 62 installed in each of the magnet seating groove (61a) formed on the outer surface so that the magnet seating groove (61a) is arranged in two rows along the longitudinal direction. ), The magnetization of the washing water can be increased and the magnet 62 can be easily installed.

10 housing 11 housing bottom portion
12: housing side portion 21: on-off switch
23: control unit 30: washing water through pipe
31: Upstream Passing Department 32: Downstream Passing Department
33: intermediate passage 40: compressed air supply
41: air supply pipe 42: air compressor
50: residual compressed air discharge 51: residual compressed air discharge pipe
52: noise reduction part 53: discharge pipe opening and closing valve
60: magnetization 61: magnet support tube
62: magnet 63: protective tube

Claims (4)

A housing having a housing bottom surface portion and a housing side surface portion bent from a circumferential edge of the housing bottom surface portion so as to form a concave shape in cooperation with the housing bottom surface portion;
A wash water passing pipe installed inside the housing such that both ends thereof are exposed through the housing side surface;
A compressed air supply unit for supplying compressed air to the inside of the wash water passage through the air supply pipe having an air compressor connected to the air supply pipe and an outlet port connected to the wash water passage inside the housing;
And a control unit for controlling the air compressor such that compressed air is intermittently discharged from the air compressor. The method of claim 1,
The compressed air supply unit includes a residual compressed air discharge pipe connected to the air supply pipe, a noise reduction unit installed at an end of the residual compressed air discharge pipe, and a discharge pipe open / close valve installed in the residual compressed air discharge pipe to open and close the residual compressed air discharge pipe. A residual compressed air discharge portion further;
The control unit controls the air compressor so that compressed air is not discharged from the air compressor according to a control signal from the outside, and controls the discharge pipe opening and closing valve so that the discharge pipe opening and closing valve is opened while the compressed air is not discharged from the air compressor. Heating piping cleaning device, characterized in that. 3. The method according to claim 1 or 2,
And a magnetization unit installed in the washing water passing pipe to provide a magnetic force to the inner space of the washing water passing pipe. The method of claim 3,
The magnetization unit is installed inside the wash water through tube and the outer surface is characterized in that it comprises a magnet support tube formed so that the magnet seating grooves are arranged in two rows along the longitudinal direction, and one magnet installed in each of the magnet seating grooves. Heating pipe cleaning equipment.

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