KR100756219B1 - Heat transfer oil boiler with safety valve - Google Patents

Abstract

A heat medium boiler is provided to prevent fault or failure and lengthen the lifespan of the boiler by protecting a cable connection portion from disconnection or breakage. A heat medium boiler includes a heat medium pipe(10) containing heat medium; a heating wire(20) arranged inside the heat medium pipe; and a safety sealing unit(40) arranged at an end of the heat medium pipe. The safety sealing unit has a main body divided into a horizontal portion and a vertical portion. The horizontal portion has one end connected to the heat medium pipe, and the vertical portion has an inlet/outlet port for inlet or outlet of the heat medium. The safety sealing unit includes a first sealing member fastened to the other end of the horizontal portion; a second sealing member which contacts the first sealing member and has a groove for accommodating the other side of a connection jack and a bi-metal; a socket member in which the second sealing member is fastened; and a nut in which the socket member is fastened. The nut is bolt-jointed to the other side of the horizontal portion of the main body. The safety sealing unit seals the heat medium pipe, and automatically releases sealing when the internal pressure of the heat medium pipe exceeds a predetermined pressure level.

Description

Heat Transfer Oil Boiler with Safety Valve

1 is a plan view showing an embodiment of a heat medium boiler according to the present invention.

Figure 2 is an exploded perspective view showing an embodiment of the heat medium boiler according to the present invention.

3 is an assembled sectional view showing an embodiment of the heat medium boiler according to the present invention.

Figure 4 is a cross-sectional view showing a state in which the sealing is released in one embodiment of the heat medium boiler according to the present invention.

5 is a cross-sectional view showing a state in which the sealing is released and the heat medium is injected in one embodiment of the heat medium boiler according to the present invention.

Figure 6 is a cross-sectional view showing a state in which the heat medium tube and the safety seal directly connected in one embodiment of the heat medium boiler according to the present invention.

Figure 7 is a cross-sectional view showing a state in which the heat medium tube and the safety sealing device is connected by using the connector in one embodiment of the heat medium boiler according to the present invention.

8 is a cross-sectional view showing another embodiment of the body in one embodiment of the heat medium boiler according to the present invention.

Figure 9 is a cross-sectional view showing another embodiment of the body in one embodiment of the heat medium boiler according to the present invention.

10 is a separated cross-sectional view showing another embodiment of the heat medium boiler according to the present invention.

11 is an assembled sectional view showing another embodiment of the heat medium boiler according to the present invention.

The present invention relates to a pressure-safe heat transfer oil boiler, and more particularly, the heating wire is connected to the heating wire in a state in which the pressure is naturally lowered and the seal is well maintained when the pressure rises inside the heat medium tube. It relates to a pressure safe thermal medium boiler.

In general, a boiler mainly used for heating in a house, a company, a factory, etc. takes a structure in which water is heated and the heated water is circulated into a hot water pipe embedded in a floor to perform heating.

The above boiler mainly burns fuel such as coal, petroleum, gas, etc., and transmits the heat of combustion to water to generate hot water. In this case, the price of the fuel used is continuously rising, which not only burdens the user. There are many problems such as a large amount of space occupied by a fuel tank and a combustion mechanism, a price, and a complicated structure.

Therefore, conventionally, many boilers having a structure of heating water by using electricity to be relatively inexpensive than the fuel are attracting great popularity.

In particular, since the heating wire is inserted into the hot water pipe in which the heat medium is accommodated, and the electricity is supplied to the heating wire, the heat medium boiler which heats the heating of the heat medium received inside the hot water pipe is heated because of its simple structure and low power consumption. useful.

However, the conventional heat medium boilers configured as described above are supplied with electricity to the heating wire through one end of the heat medium pipe, and the heat medium is injected if necessary, so there is a possibility of short circuit of the wire due to frequent use, and the sealing becomes weak. easy.

In the conventional heat medium boiler, the heat medium pipe bursts when the pressure inside the heat medium pipe rises, so a separate pressure accommodating device is used. However, when the fluid inside the pipe is not water and the heat medium, the heat medium has a relatively high degree of expansion. Although the pressure vessel was less than water, the pressure vessel was insignificant, but the pressure vessel was used to attach a complex structure to the heat medium boiler, resulting in complicated workability and maintenance due to the overall assembly and disassembly, and increased manufacturing costs.

The present invention has been made in view of the above points, by installing a safety seal at the end of the heat medium tube to seal, the pressure naturally decreases when the pressure rises inside the heat medium tube, the heating wire and the wire is naturally connected and disconnected It is an object of the present invention to provide a pressure-safe thermal medium boiler in which a short circuit or breakage is prevented.

The pressure safe thermal medium boiler proposed by the present invention includes a heat medium tube in which a heat medium is accommodated, a heating wire provided inside the heat medium tube, and a heat medium tube installed at an end of the heat medium tube to seal the heat medium tube. If the internal pressure of the pressure exceeds a predetermined pressure is made to include a safety sealing device to automatically release the seal.

Here, the release of the seal does not mean a function of the conventional pressure-retaining pipe, that is, a function of accommodating some heat medium over pressure through the contracted expansion of the pipe and returning it again when the pressure decreases. This means that the hot water pipe boiler is prevented from being damaged and the overall pressure is maintained at an appropriate level.

Preferred embodiment of the safety sealing device is a body consisting of a "ㅗ" shaped pipe, one end of the horizontal portion is connected to the heat medium tube, the vertical portion is formed in the inlet and outlet for the injection or discharge of the heat medium, the vertical of the body A guide shaft which is installed in the movable part in a movable manner, a packing installed at a lower end of the guide shaft and opening and closing a passage between a horizontal part and an entrance and exit of a vertical part, and installed inside the vertical part of the body, and the packing being installed in the vertical part. A spring that exerts a force in a direction of always closing the passage between the horizontal portion and the entrance and exit, and the other end of the guide shaft rotatably coupled with a hinge shaft, and the spring expands or expands as the guide shaft rotates at a predetermined angle. And a lever for moving in the direction of compression.

The body may be integrally formed with the horizontal portion and the vertical portion, or may be detachably formed and screwed together.

The safety sealing device may further include a sealing member installed at the other end of the horizontal portion of the body and the heating wire is embedded therein, and a nut assembled to the other end of the horizontal portion of the body. .

And the present invention is the first sealing is assembled to the other end of the horizontal portion of the body and the one side of the connection jack electrically connected to the end of the heating wire instead of the safety sealing device further comprises a sealing member and a nut A second sealing member provided in contact with the member, the first sealing member and having a groove for accommodating the other side of the connection jack and a bimetal connected thereto, and a socket member into which the second sealing member is inserted and assembled. It is also possible that the socket member further comprises a nut assembled therein and screwed with the other side of the horizontal portion of the body . In other words, the bimetal is installed inside the safety sealing device, which prevents wires from falling off or disconnection due to problems caused by the installation of the bimetal outside. There is an advantage in improving this .

Next, a preferred embodiment of a pressure safe thermal medium boiler according to the present invention will be described in detail with reference to the drawings.

First, an embodiment of the pressure-safe heating medium boiler according to the present invention is shown in Figures 1 to 3, the heating medium tube 10, the heating wire 20 is installed inside the heating medium tube 10, and It consists of a pair of safety sealing device 40 is installed at both ends of the heat medium tube (10).

Although the safety sealing device 40 has been described as being installed at both ends of the heat medium tube 10, it is also possible to install only at one end.

When the safety sealing device 40 is installed only at one end as described above, the other end generally uses a sealing device widely used to seal the heat medium tube of the heat medium boiler.

The heat medium tube 10 is made of metal or synthetic resin and the heat medium 11 is accommodated therein.

In the above, the heat medium tube 10 is installed in various shapes such as a zigzag shape so as to be evenly disposed in the installation place.

The heating wire 20 is installed in the heat medium tube 10 and is supplied with power through a pair of wires 32 connected to both ends.

The electric wire 32 may be electrically connected to a temperature controller 30 for controlling the temperature of the heating wire 20 and the like.

Since the temperature controller 30 can be generally implemented in the same configuration as the temperature controller widely used in the heat medium boiler, detailed description thereof will be omitted.

The safety sealing device 40 is installed in the pipe-shaped body 41, the guide shaft 50 is installed on the vertical portion 46 of the body 41, and the lower end of the guide shaft 50 A packing 52, a spring 54 for applying a downward force to the packing 52, and a lever rotatably coupled to the upper end of the guide shaft 50 using a hinge shaft 57. And a sealing member 60 for sealing the body 41 and having the heating wire 20 embedded therein.

The body 41 is made of a "ㅗ" shaped pipe and one end of the horizontal portion 42 is connected to the heat medium tube (10).

At the other end of the horizontal portion 42, a male screw 45 is formed and a nut 62 is coupled.

The guide shaft 50 is installed in the vertical portion 46 of the body 41 to be movable.

In one side of the vertical portion 46 of the body 41 is formed inlet and outlet 48 so that the inside is in communication with the outside.

The packing 52 is made of rubber, and is formed to open and close the lower end passage of the vertical portion 46 of the body 41.

The spring 54 is installed in the vertical portion 46 of the body 41 and is formed so that the packing 52 always exerts a force in a direction in which the lower end passage of the vertical portion 46 is always closed. Is installed.

The spring 54 is made, for example, using a compression coil spring.

The lever 56 moves the guide shaft 50 in the direction in which the spring 54 is extended or compressed as it rotates at a predetermined angle (eg, 90 degrees).

For example, as shown in FIG. 5, as the lever 56 is rotated 90 degrees, the guide shaft 50 moves upwardly, and the packing 52 moves upward, and the vertical portion of the body 41 moves upward. (46) The lower passage is opened and the spring 54 is compressed.

In the above state, the heating medium 11 may be injected through the injector 11a or the like through the inlet and outlet 48 formed in the vertical portion 46.

The sealing member 60 is made of rubber and is installed inside the other end of the body 41 (opposite to the heat medium tube 10) to seal.

An end portion of the heating wire 20 is embedded in the sealing member 60 as described above.

An end of the heating wire 20 is connected to the wire 32 inside the sealing member 60.

In the above, the heating wire 20 and the electric wire 32 may be connected through the connection jack 22.

As shown in FIG. 3, the safety sealing device 40 as described above normally closes the lower passage of the vertical part 46 of the body 41 to seal the heat medium tube 10 by closing the packing 52. When the internal pressure of the heat medium tube 10 exceeds a predetermined pressure, as shown in FIG. 4, the packing 52 rises while compressing the elastic member 54 to open and seal the lower passage of the vertical part 46. It is configured to release.

When the sealing is released in the discharge or through the outlet 48, the heat medium 11 is discharged or made.

Both ends of the heat medium tube 20 are provided with a pair of nuts 12 screwed to one end of the body 41, respectively.

One end of the body 41 is formed with a male screw 43 which is screwed with the nut 12.

It is also possible that the packing 18 is installed between one end of the body 41 and the heat medium tube 20, respectively.

Instead of installing the nut 12 at the end of the heat medium tube 10, as shown in FIG. 6, the male screw 13 is formed on the inner circumferential surface of the end of the heat medium tube 10, and the A female screw 43a may be formed at one end of the horizontal portion 42.

Although not shown in the drawings, the female screw is formed at the end of the heat medium tube 10, and the male screw 43 may be formed at one end of the horizontal portion 42 of the body 41 to be coupled with the female screw. Do.

And instead of installing the nut 12 at the end of the heat medium tube 10 as shown in Figure 7, one end is inserted into the heat medium tube 10 and the other end of the female thread (15) is formed (15) 14) It is also possible to form the male screw 43 is coupled to the female screw 15 at one end of the horizontal portion 42 of the body 41.

Although not shown in the drawing, the other side of the connector 14 may be formed with a male screw instead of a female screw 15, and a female screw coupled with the male screw may be formed at one end of the horizontal portion 42 of the body 41. Do.

In addition, instead of installing the nut 12 at the end of the heat medium tube 10 as shown in FIG. 8, the ring member 16 and the fastening nut 17 are inserted into the end of the heat medium tube 10. And an insertion portion 43b inserted into the heat medium tube 10 at one end of the horizontal portion 42 of the body 41, and horizontally of the tightening nut 17 and the body 41. It is also possible to screw one end of the part 42.

The ring member 16 is installed between one end edge of the horizontal portion 42 of the body 41 and the tightening nut 17.

In one embodiment of the pressure-safe thermal medium boiler according to the present invention made as described above the body 41 is a horizontal portion 42 and the vertical portion 46 is manufactured integrally by injection molding or casting.

And in one embodiment of the pressure-safe thermal medium boiler according to the present invention made as described above, the body 41, as shown in Figure 9, the horizontal portion 42 and the vertical portion 46 are each separately manufactured and mutually It is also possible to screw in.

For example, an assembly hole 44 is formed in the center of the horizontal portion 42 of the body 41 to form a female screw 44a on an inner circumferential surface thereof, and an assembly hole on an outer circumferential surface of the lower end of the vertical portion 46. It is also possible to form the male screw 47 which is screwed with the female screw 44a of the member 44. This is an advantage that when the vertical configuration of the safety sealing device is broken, only the vertical configuration needs to be replaced without replacing the entire sealing device, thereby increasing maintenance efficiency and lowering the required cost.

And another embodiment of the heat medium boiler having a safety structure according to the present invention, as shown in Figures 9 and 10, the safety sealing device 70 is installed in the pipe-shaped body 71, the body 71 A guide shaft 80, a packing 82 installed at a lower end of the guide shaft 80, a spring 84 for applying a force pushing downward to the packing 82, and the guide shaft 80. Lever 86 is rotatably coupled to the upper end of the using a hinge shaft 87, and the other end of the horizontal portion 72 of the body 71 and the end of the heating wire 20 A first sealing member 90 having a connection jack 92 electrically connected thereto and a second sealing member 94 installed in contact with the first sealing member 90, and the second sealing member 94. ) Is assembled into the socket member 95 and the bimetal 96 is installed, the socket member 95 is assembled therein and the horizontal portion 72 of the body 71 It is also possible to further comprise a nut 98 screwed with the other.

The body 71 is made of a "ㅗ" shaped pipe and one end of the horizontal portion 72 is connected to the heat medium tube (10).

The guide shaft 80 is installed at the vertical portion 76 of the body 71, and an inlet and outlet 78 is formed at one side.

The first sealing member 90 can be implemented in the same configuration as the sealing member of the above embodiment.

The bimetal 96 is positioned at one side of the second sealing member 94.

The bimetal 96 is electrically connected to the plug 97 and the temperature controller 30 through a pair of wires.

Also in the above-described other embodiments, the present invention can be implemented in the same configuration as the above-described embodiment except for the above-described configuration, and thus detailed description thereof will be omitted.

In the above, a preferred embodiment of a pressure-safe thermal medium boiler according to the present invention has been described. However, the present invention is not limited thereto, and various modifications can be made within the scope of the claims and the detailed description of the invention and the accompanying drawings. It is possible and this also falls within the scope of the present invention.

According to the pressure-safe heat medium boiler according to the present invention made as described above, the heat medium is ruptured through the inlet and outlet formed in the body of the safety sealing device when the pressure inside the heat medium pipe rises, so the heat medium tube bursts. I never do that.

And since it is possible to simply inject the heat medium through the inlet and outlet, the convenience when receiving or replenishing the heat medium is improved.

According to the pressure-safe boiler according to the present invention made as described above, since the part which is connected to the electric wire of the heating wire is configured safely from short circuit or damage, the product life is extended without failure or malfunction.

In addition, since the bimetal is integrated in the safety sealing device, there is no possibility of short circuit or breakdown, so the product is strengthened and its life is extended.

Furthermore, there is no need to attach a separate device for accommodating the conventional pressure, thereby simplifying the structure and lowering the cost of the product.

Claims (6)

The heat medium tube in which the heat medium is received, A heating wire installed inside the heat medium pipe, A safety sealing device installed at an end of the heat medium pipe, The safety sealing device is composed of a horizontal portion and a vertical portion of the "ㅗ" shape, one end of the horizontal portion is connected to the heat medium tube, and the vertical portion has a body in which the inlet and outlet is formed to inject or discharge the heat medium, The first sealing member is assembled to the other end of the horizontal portion and the one side of the connection jack is electrically connected to the end of the heating wire, and is installed in contact with the first sealing member, the other side of the connection jack is installed A second sealing member having a groove for accommodating a bimetal, a socket member in which the second sealing member is inserted and assembled, and a nut in which the socket member is assembled and screwed with the other side of the horizontal part of the body. With A heating medium boiler having a safety structure including a sealing device for sealing the heating medium and automatically releasing the sealing when the internal pressure of the heating medium exceeds a predetermined pressure. The method of claim 1, The safety sealing device is a body consisting of the horizontal portion and the vertical portion, the guide shaft is installed so as to be movable in the vertical portion of the body, the packing is installed at the lower end of the guide shaft and opening and closing the lower passage of the vertical portion, A spring installed inside the vertical portion of the body and the packing exerting a force in a direction of always closing the lower passage of the vertical portion, and rotatably coupled to the other end of the guide shaft using a hinge shaft and at a predetermined angle. A heating medium boiler having a safety structure including a lever for moving the guide shaft in a direction in which the spring is expanded or compressed as it rotates. delete delete delete (newly open) According to claim 1, wherein the center of the horizontal portion of the safety sealing device is an assembly hole is formed in the inner circumferential surface is formed, and the outer end surface of the lower end of the vertical portion is formed with a male screw screwed with the female screw of the assembly hole. Heating medium boiler with safety structure.

Images