KR100875717B1 - Proportional control type's safety device for control expansion pressure of closed pipe with heat coil - Google Patents

Abstract

A proportional control types safety device for controlling expansion pressure of closed pipe with heat coil is provided to prevent leakage in pipe and protect a pipe from expansion pressure of thermal medium fluid such as water in a boiler, steeped in thermal medium fluid. A proportional control types safety device for controlling expansion pressure of closed pipe with heat coil comprises a case(100) where thermal medium fluid(900) is stored inside, in which top has an air outlet on its one side; a lower water level sensor(200) detecting the water level inside the case; a water level meter outer case in which a float installation space is formed; a float moving up and down according to buoyance force; a water level meter inner case of which lower part is fitted into the installation space of the float; an air circulation device which allowing air entered into an air circulation hole and a compressive ball storage space to be drained through an air drain channel; and a valve opening and shutting the air drain channel of the air circulation device.

Description

TECHNICAL CONTROL TYPE'S SAFETY DEVICE FOR CONTROL EXPANSION PRESSURE OF CLOSED PIPE WITH HEAT COIL}

The present invention is filled with a heat medium oil such as water in the inside of the tube, and protects the tube from the expansion pressure of the heat medium oil such as water in a boiler having a heating wire built-in, as well as prevent leakage, the heating wire is always submerged in the heat medium oil The state is maintained, so there is less risk of fire and explosion due to overheating of heating wire, less malfunction than conventional piston and tubular pressure receiving device, and small amount of slow discharge of hot air discharged by pressure expansion. In addition, the present invention relates to a pressure proportional control safety device for controlling the expansion pressure of a hermetic tube with a heating wire.

It is very important to relieve the pressure that is generated when the heating oil, such as the water filled in the tube, expands in the boiler with the heating wire inside the tube.

In this regard, early technologies have formed some sections of the entire length of the tube into empty spaces to accommodate the expansion pressure.

At this time, there was no problem when the heating wire inside the tube was immersed in a thermal oil such as water.

However, when the heating area becomes large, the height of the tube may not be positioned at a uniform position according to the position, and thus, in some sections, the heating wire may not be immersed in water or thermal oil.

In this state, when the heating wire is heated, the tube is heated, causing the tube to break or explode.

In order to solve this problem, various pressure receiving apparatuses as shown in FIG. 1 of the structure of a hot water pipe equipped with a safety device (Korean Patent Publication No. 10-0707965) have been devised.

The pressure receiving device designed to date has been provided with a piston or tube as shown in FIG. 1 of the publication to receive the pressure inside the tube as a tube.

However, there have been many cases in which the pressure receiving device as described above does not operate properly according to the supply of high temperature water or thermal oil, or the use period.

Typical examples are explosions and leaks caused by the explosion of the heating wire inside the tube due to an explosion caused by an excessive pressure due to the pressure receiving device failing to accept the pressure.

In order to solve the above problems, a safety device has been disclosed which can automatically cut off the power as shown in the above publication.

However, the above configuration was not able to prevent the malfunction itself only by shutting off the power when a malfunction occurs.

In particular, when leakage occurs due to external impact or degradation of durability in a portion of the pipe other than the pressure receiving device, there is a significant problem that cannot be confirmed whether or not the leakage.

In addition, when the length of the pipe is long, there is a case where the amount of water flowing into the pressure receiving device and the amount of water returned do not coincide, and there is a problem of explosion because the heating wire inside the pipe is exposed to the air.

Pressure proportional safety device for controlling the expansion pressure of the hermetic tube with a heating wire of the present invention to solve the problems caused in the prior art as described above, to accommodate the pressure by installing a low water level sensor in the case of the tank type In addition to the components, as well as to prevent leakage, such as the explosion of the tube by the leakage of fire if the leakage occurs inside the pipe.

In addition, by receiving the pressure using a case of the tank type rather than the conventional water repellent pressure receiving device is to ensure that even if the length of the tube is long, the entire state of the heat medium such as water is full.

In addition, it is to minimize the heat loss by blocking the discharge of air when reaching the desired temperature and the expansion pressure no longer occurs.

In addition, by minimizing the flow path by using the compressed ball, the moving device is raised due to the pressure pushed upwards rapidly due to the temperature rise of the heat medium oil inside the pipe to prevent the air outlet is blocked early.

Pressure proportional safety device for controlling the expansion pressure of the sealed tube with a heating wire of the present invention is to solve the above technical problem, the connection hose connected to the sealed tube is inserted into the heating tube is inserted into the lower both sides by the coupling It is connected, and the heat medium oil is stored in the inside, and the air outlet is formed on the upper side; One side is installed in the case is low water level sensor configured to detect the heat medium oil level inside the case; consists of.

In addition, an air passage is formed in the lower portion, a moving device installation space of a larger diameter than the air passage is formed in the continuous with the air passage therein, the water level outer case is fixed to the case; The outer circumferential surface penetrates the inside of the air passage while being spaced apart from the inner wall surface of the air passage, and a locking jaw is formed on the upper outer circumferential surface so as to be caught and settled at the boundary between the moving device installation space and the air passage. A mobile device configured to move up and down according to buoyancy due to a buoy connected to the lower part of the mobile device; The air circulation hole is formed in the lower portion, the compression ball storage space is formed in the upper inside of the air circulation hole with a built-in compression ball of the fiber, the circulation device installation space is continuously installed in the upper portion of the compression ball storage space, A water gauge inner case having a lower portion inserted into and fixed to a moving device installation space of the moving device; It is seated in the circulator installation space of the inner case of the water gauge, and the air discharge passage is formed to be bent from the bottom to the side so that the air introduced into the air circulation hole and the compressed ball storage space can be discharged through the air discharge passage. An air circulation device; Opening and closing valve which is installed on one side of the air circulation device to open and close the air discharge passage of the air circulation device; may be additionally installed.

In addition, one side of the case is characterized in that the auxiliary inlet for refilling the heat medium oil is installed.

In addition, the buckle to be installed in the moving device is characterized in that the installation height varies depending on the length of the heating wire.

In addition, the case is characterized in that the level display for displaying the supplemental water injection amount according to the length of the heating wire.

According to the present invention, by installing the low water level sensor in the case of the water tank form, as well as the components to receive the pressure, as well as to prevent the explosion and fire of the pipe due to leakage by shutting off the power when leakage occurs inside the pipe. have.

In addition, by receiving the pressure by using a case of the tank type rather than the conventional retractable pressure receiving device, even when the length of the tube is long, it is possible to always maintain a state full of heat medium oil such as water in the entire tube.

In addition, when the desired temperature is reached and no further expansion pressure is generated, heat loss is minimized by blocking the discharge of air.

In addition, by minimizing the flow path using the compression ball, it is possible to prevent the air outlet is blocked early by the rise of the moving device due to the pressure to push upward rapidly due to the temperature rise of the heat medium oil inside the pipe.

Hereinafter, the pressure proportional control safety device for controlling the expansion pressure of the hermetic pipe with a heating wire according to the present invention will be described in detail with reference to the accompanying drawings.

As shown in the case 100 of the present invention, the coupling hoses connected to the hermetic tube 800 into which the heating wire 820 is inserted by the coupling 810 are connected to both lower sides of the case 100, and the heat transfer oil therein. 900 is stored.

Here, it is preferable to use the heating wire 820 made of copper and nickel alloy wires or nickel wires, which is made of a Teflon material.

Two holes are formed at an upper portion of the case 100, and a screw thread is formed at one hole to be fastened to the low water level sensor 200 to be described later.

Another hole is an air outlet for circulating the internal air to the outside according to the rise in the water level of the heat medium oil (900) inside the case (100).

The case 100 is most preferably formed of a translucent material, and the outer surface of the case 100 is preferably marked with a level for displaying the amount of supplemental water injection according to the length of the heating line 820.

In addition, as shown in the case 100, the auxiliary inlet is installed to replenish the heat medium oil 900, such as water, so that it is configured to replenish the heat medium oil 900 in an open state of the auxiliary inlet good.

Here, the heat medium oil 900 may be applied to various fluids that are beneficial for power saving or health, such as water or a mixture of brine solution and water.

The low water level sensor 200, which is a component of the present invention, is configured so that one side is installed inside the case 100 to detect the level of the heat medium oil 900 inside the case 100.

The configuration example of the low water level sensor 200 may be configured in various forms.

For example, as shown, the screw is coupled to the hole formed in the upper part of the case 100, the lower part of the sensor insertion tube is installed inside, the inside of the sensor insertion tube, each of the contacts along the two wires 230 220 is formed and formed so as to have a state connected to each other, it is possible to install the buckle 210 on the outer peripheral surface of the sensor insertion tube.

Here, by installing a magnetic force member that can magnetically work with the contact 220 on the inner circumferential surface of the float 210, when the float 210 reaches the position of the contact 220, the contact 220 on one side of the float 220 ( The electrical connection is made while moving to the magnetic force member side of 210, and thus can be configured to cut off the main power.

That is, when the float 210 moving according to the water level reaches the position of the contact 220, the contact 220 which is separated is connected to the control device (not shown) and the electric signal is turned over to stop the operation.

The low water level sensor 200 recognizes when the water level of the heat medium oil 900 inside the case 100 is lowered to stop the operation, which recognizes when the water leak occurs in the entire boiler to recognize the operation of the entire apparatus. By stopping it, the conventional boiler has a large difference in comparison with that which cannot be replaced for the leakage occurring in the tube 800.

In addition, the low water level sensor 200 configured as described above is not limited to the illustrated one, and may be configured with various known low water level sensors 200.

The present invention, even if simply configured as a case 100 and the low water level sensor 200 as described above can be fully equipped with the role of the safety device and the pressure receiving device will be much superior to the configuration of the conventional safety device and pressure receiving device. .

On the other hand, if the temperature of the heat medium oil 900 inside the tube 800 according to the heating line 820 in the configuration as described above rises in pressure due to the rise in temperature, due to thermal expansion due to hot heat, the case 100 through the air outlet The high temperature heat inside can be easily lost to the outside.

To this end, as shown, the water gauge outer case 300, the moving device 400, the water gauge inner case 500, the air circulation device 600, the opening and closing valve 700 may be additionally installed.

Hereinafter, the added component and its operation will be described in more detail.

First, the water level outer case 300 has an air passage 310 formed in the lower portion, the moving device installation space 320 of a larger diameter than the air passage 310 is formed in the continuous with the air passage 310 inside The upper portion is configured to be fixed to the case 100 while blocking the air outlet of the case 100.

More specifically, to form a screw thread in the air outlet of the case 100 and to correspond to this to form a body threaded thread is formed on the upper outer peripheral surface, it is possible to install a nut 301 on top of the body 302.

The body 302 has a hole formed in the center penetrating from the top to the bottom, and serves as an air passage 310 through which the air moves, and is continuous with the air passage 310 at the lower portion of the air passage. Larger than the diameter (310) to form a mobile device installation space 320.

The moving device 400 has an upper portion inserted into the air passage 310 and the moving device installation space 320 of the water level outer case 300, and the lower portion 430 is installed at the lower portion of the floating portion 430. It is configured to move up and down according to buoyancy.

In particular, the outer circumferential surface has a structure spaced apart from the inner wall surface of the air passage 310 so as to be able to move through the spaces in which air is normally spaced.

On the other hand, the locking device 410 is formed on the upper outer peripheral surface in order to prevent the moving device 400 is separated from the lower through the air passage 310, the boundary surface between the moving device installation space 320 and the air passage 310 It is configured to hang on.

In addition, the upper end of the moving device 400 is characterized in that the rubber stopper 420 is installed.

The water gauge inner case 500 is fixed to the lower part of the moving device installation space 320 of the moving device 400.

To this end, a screw thread is formed on the inner circumferential surface of the water gauge outer case 300, and a screw thread is formed on the outer circumferential surface of the water gauge inner case 500 to be bolted to each other.

The water level inner case 500 also has a hole penetrating from the bottom to the top is formed in the center of the air circulation hole 530 in the lower portion, the compressed ball storage space 520 in the middle, the circulation in the upper portion It is divided into a device installation space (510).

The compressed ball storage space 520 is fibrous as shown, in particular, the compressed ball 540 is made of fibrous, such as Kashmiron waterproof.

At this time, the compressed ball 540 is prevented from falling to the bottom, and the rubber stopper 420 of the moving device 400 so that the lower air circulation hole 530 is formed in a small diameter, the upper The compressed ball storage space 520 preferably has a somewhat expanded inner diameter.

Air circulation device 600 is to be seated in the circulator installation space 510 of the water gauge inner case 500, the circulator installation space 510 has a somewhat larger inner diameter than the compressed ball storage space 520 in the middle desirable.

The air circulation device 600 has an air discharge passage 620, which is bent from the bottom side to the side as shown in the figure, it is preferable to have a structure having a through hole 610 also penetrated from the bottom to the top.

This structure is the air of the lower portion introduced to the compressed ball storage space 520 is discharged through the air discharge passage 620, the air of the lower by the compressed ball 540 installed in the compressed ball storage space 520 It is to prevent the movement smoothly and to be discharged slowly.

That is, even if the pressure to be discharged from the lower side is to be discharged slowly without resolving it.

This is simply to allow the air to be released as the volume expands, and to prevent the air from being discharged at high speed by the pressure caused by the temperature rise.

The open / close valve 700 is installed at one side of the air circulation device 600 to open and close the air discharge passage 620 of the air circulation device 600.

That is, the thread is formed on the upper portion of the air circulation device 600 and the thread is formed on the lower portion of the on / off valve 700 to block or open the air discharge passage 620 according to the amount of tightening the on / off valve 700. It is to block the flow of or to make it possible to move.

As described above, the air moves upward through the gap between the outer circumferential surface of the mobile device 400 and the air passage 310 under the water level outer case 300, and is installed in the water level inner case 500. After passing through the compressed ball 540 to the outside through the air discharge passage 620, the heat medium oil 900 is heated by the heating wire 820, when the volume expands the inside of the case 100 The discharge of the air is in a smooth state so that the water level of the heat medium oil 900 may rise.

At this time, when the temperature is sufficiently increased by the set temperature to increase the heat medium oil 900, the heat exchange should be minimized by preventing the discharge of any further heated air.

For this purpose, when the water level of the heat medium oil 900 is increased by the set height, it is good to block the flow of air.

As the water level rises, the buoy 430 installed in the moving device 400 rises, and the rubber stopper 420 installed on the top of the moving device 400 is a meat passage under the water level outer case 300. It is inserted into the to block the flow of air.

On the other hand, in the above configuration, the installation position of the floats 430 will be able to determine the appropriate blocking position by varying the height in accordance with the length of the entire tube (800).

In the example of the drawing, if the length of the pipe 800 is 70 ~ 95 m or less when the mouth 430 is installed on the upper side, it is suitable when the length of the pipe 800 is 50 ~ 75 m when installed in the middle point And, when installed in the lower portion is suitable when the length of the tube 800 is 50 m or less.

The safety device of the present invention configured as described above can stop the operation by checking this when a leak occurs in one side of the pipe 800 as well as the pressure receiving device, and can effectively control the air discharge accordingly to improve the thermal efficiency Will do.

The safety device of the present invention configured as described above is most preferably applied to the safety device of the boiler, but is not limited thereto. The safety device of the present invention may be applied to various facilities in which the heat medium oil is installed inside the pipe.

1 is a schematic view showing an example of a pressure proportional control safety device for controlling the expansion pressure of the hermetic tube with a heating wire of the present invention.

2 is a schematic view showing another example of the safety device of the present invention.

Figure 3 is a partially cut away exploded perspective view showing a part assembly state of the safety device of the present invention.

Figure 4 is a sectional view showing a state in which the flow of air is blocked in the present invention.

Figure 5 is a partially cut perspective view showing an example of the water level outer case in the present invention.

6 is a perspective view showing an example of a moving device in the present invention.

Figure 7 is a partially cut away exploded perspective view showing the installation of the level gauge inner case and the compressed ball in the present invention.

Figure 8 is a partially cut perspective view showing an example of the air circulation in the present invention.

Figure 9 is a perspective view showing an example of the on-off valve in the present invention.

Figure 10 is a partially cut perspective view showing a configuration example of a low water level sensor in the present invention.

11 is a schematic diagram showing a state in which the air inside the case is discharged to the outside in the configuration of FIG.

<Detailed Description of Major Symbols in Drawing>

100: case 200: low water level sensor

210: float 220: contact

230: wire 300: water gauge outer case

301: nut 302: body

310: air passage 320: mobile device installation space

400: moving device 410: locking jaw

420: rubber stopper 430: ball

500: water gauge inner case 510: circulator installation space

520: compressed ball storage space 530: air circulation hole

540: compression ball 600: air circulation

610: through hole 620: air discharge passage

700: on-off valve 800: pipe

810: coupling 820: heating wire

900: heat medium oil

Claims (5)

In the safety device for controlling the expansion pressure of the sealed tube with a heating wire, The connection hose connected to the hermetic tube 800 into which the heating wire 820 is inserted by the coupling 810 is connected to both lower sides, the heat medium oil 900 is stored therein, and an air outlet is formed at one upper side thereof. A case 100; A low water level sensor 200 having one side installed inside the case 100 and configured to detect a water level of the heat medium oil 900 inside the case 100; An air passage 310 is formed at a lower portion thereof, and a moving device installation space 320 having a diameter larger than that of the air passage 310 is formed continuously in the air passage 310, and an upper portion of the case 100 is formed. A water gauge outer case 300 which is in close contact with the air outlet of the fixed to the case 100; An outer circumferential surface penetrates the inside of the air passage 310 while being spaced apart from the inner wall surface of the air passage 310, and a locking jaw 410 is formed on an upper outer circumferential surface of the mobile device installation space 320 and the air passage 310. It is configured to be seated on the boundary surface of the rubber stopper 420 is installed on the top, the lower portion 430 is connected to the mobile device 400 configured to move up and down in accordance with buoyancy; An air circulation hole 530 is formed at a lower portion, and a compression ball storage space 520 in which a fiber compression ball 540 is formed is formed at an upper inside of the air circulation hole 530, and a compression ball storage space ( A water level gauge inner case 500 in which a circulation device installation space 510 is continuously installed at an upper portion of the 520 and a lower portion is fitted into and fixed to the movement device installation space 320 of the mobile device 400; It is seated in the circulation device installation space 510 of the water gauge inner case 500, and the air discharge passage 620 is formed to be bent from the lower side to the air circulation hole 530, the compressed ball storage space 520 An air circulation device 600 configured to discharge air introduced into the air through the air discharge passage 620; And an on / off valve 700 installed at one side of the air circulation device 600 to open and close the air discharge passage 620 of the air circulation device 600. Pressure proportional control device to control the expansion pressure of a sealed tube with heating wire. delete The method of claim 1, On one side of the case 100, characterized in that the auxiliary inlet for refilling the heat medium oil 900 is installed, Pressure proportional control device to control the expansion pressure of a sealed tube with heating wire. The method of claim 1, The buoy 430 installed in the mobile device 400 is characterized in that the installation height is changed according to the length of the heating wire 820, Pressure proportional control device to control the expansion pressure of a sealed tube with heating wire. The method of claim 1, The case 100 is characterized in that the level display for displaying the supplemental water injection amount according to the length of the heating wire 820, Pressure proportional control device to control the expansion pressure of a sealed tube with heating wire.

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