KR200442257Y1 - Heating apparatus using heat medium and electric heat wire - Google Patents

Abstract

The present invention relates to a heating device using a heat medium and a heating wire, and more specifically, a heating medium (hereinafter referred to as a heat medium) in which propylene glycol and water are diluted is filled in the entire heating tube, and the heating wire is installed twice over the entire heating tube. The heating medium is heated by the current resistance of the heating wire, and the elastic material tube is placed between the heating tubes to absorb the expansion pressure generated inside the heating tube due to the temperature rise of the heating medium. While the heat medium is circulated by the tube and the valve, power consumption is not required externally to noise or heating, and the installation system is simplified by eliminating the installation of a separate circulation device and an expansion tank to solve the expansion pressure. Heating device, characterized in that it is not necessary to secure additional building space, such as a room The.

Description

Heating apparatus using heat medium and electric wire {Heating apparatus using heat medium and electric heat wire}

1 is a schematic diagram and an exemplary embodiment of the present invention.

2 is an assembly view of the entire apparatus.

3 is a cross sectional view of the end closure device " 5 "

4 is an assembly view of the end closure device " 5 ".

* Explanation of symbols for main parts of the drawings

In Figure 1,

1, power supply device 2, power supply device 3, heating tube 4, heating wire

5, end closing device 6, end sealing device 7, check valve 8, valve valve 9, thermal fluid injection valve 10, air exhaust valve 11, pressure absorption tube protection tube 12, pressure absorption tube 13, arrow 14, pressure transfer tube 15, end connection 16 , Connector 17, band 18, band 19, thermal medium 20, vent 21, leak detection sensor 22, control box 23, bubble storage tube 24, temperature detection sensor

In Figure 3,

51, 켑 nut 52, washer 53, O-ring 54, B 켑 55, O-ring 56, washer 57, power line connection part 58 heating wire connection part 59, copper rod (included) 60, copper rod (included) 61, teflon coating 62, shrink tube 63, heating wire 64, power line 65, locking jaw 66, locking jaw

The present invention is a method of heating by heating the heating medium in the duct by direct heat heating wire and heating the heating medium by circulating the heating medium in one direction while repeating the absorption and radiation of the shrinkage tube.

The conventional heating method is to heat the fruit by the combustion energy of fossil fuel by the boiler, etc., and to secure or drain the supplementary water source for the safety facilities such as the expansion tank and many facilities for the transfer of heat from the boiler room to the heating place. In addition to the cost of the facility, the installation of the boiler room is mandatory under the Building Act, which requires the construction space to be secured, as well as the economic burden of heat loss lost from the chimney or equipment during combustion of fossil fuels, or secondary costs including air pollution and noise. There were also many problems.

Recently, electric boiler products that heat heating with built-in heating coil are being made little by little, but all are large in size and are not commercially available due to complex facility system and excessive power consumption.

Most of the same type of method is to heat the heating medium by installing heating coil in the expansion tank attached or sealed housing, but all of them are large in size, and the expansion pressure relief device depends on the expansion tank or attaches a pressure relief valve to increase the internal pressure. Erupting to the outside. However, because of this, the heating water is lost. Therefore, it is necessary to secure a water source to supplement the water supply and a separate water supply facility as well as a drainage facility.

In addition, since the circulation system of the fruit in the heating system is a forced circulation method using a pump, the consumption force is increased accordingly, and thus the size and noise of the increased device can not be ignored, and it is unnecessary outside the heating place such as a boiler room or a pit. Heat loss in the space also remained a very unfortunate problem.

Another type of heating apparatus includes a hot water tube heating apparatus in which heating elements are inserted into a tube filled with heating water to heat the heating water by heating of the heating element due to electrical resistance.

The hot water pipe heating device can not be denied that it is a breakthrough heating device that has a number of advantages, such as the installation of the facility is very simple, low cost of maintenance and does not require a separate installation space, but there is also a very serious problem.

First, the sealing device at the end of the heating tube is frequently deformed due to the heat or internal pressure of the heating water. For this reason, water leakage occurs and the shortage of heating water in the heating tube occurs. In this case, the wire is melted due to abnormal heating of the heating wire. Forcibly inserting a heating wire into a heating tube buried in the floor of an existing building takes enormous manpower and time, and requires a lot of equipment for the insertion work. Twisting or bending the wire in the process of forcibly inserting the heating wire However, this problem cannot be clearly confirmed, and it is left in the hope of unavoidable misunderstanding. Afterwards, excessive local resistance and abnormal heat generated in this area cause melting or cutting of the heating wire and even the existing heating tube. Burns or melts to break up the floor Let jaesigong to spend a cost that will occur frequently.

It is the biggest problem of this device that this defect occurs in most of the installed equipment.

As the temperature of the heating water rises inside the heating tube, internal pressure is generated due to the expansion of the heating water.At this time, a leak occurs as the heating tube ruptures or the sealing device at the end of the tube is deformed due to the internal pressure. And the defect that leads to the melting of heating wire or heating tube occurs, but even if the absorbing device of internal pressure to solve this is fundamentally omitted or the absorbing device is attached, the fruit inside the heating tube does not move and stops locally. Another problem is that it is impossible to move the pressure point when one pressure occurs.

In addition, because the pressure point is not moved, fine air that floats inside the heating pipe gradually gathers to the highest place inside the heating pipe, pushing out the heating water, and air gaps are generated. When the heating wire is exposed to this space, the heating wire is rapidly overheated. Frequently defects that lead to melting of the heating tube or burning of the heating wire are frequently used, but there is no countermeasure against this problem.

In addition, due to the expansion of the water caused by the heating of the heating water, the upper gathering phenomenon of the micro-bubbles and the pressure inside the pipe rises frequently causing breakage of the heating pipe or the sealing device, but it is not surely solved.

In some cases, a pressure receiving device is attached, but this does not completely prevent leakage due to deformation of the piston and cylinder or pressure of the heating water.

There are many defects such as heating wire burning or melting of heating tube in the installed equipment, which are mostly caused by the damage of the heating tube due to the expansion pressure inside the heating tube, the leakage of the sealing part and the upper gathering of the micro bubbles. to be.

Among them, the leakage is more serious than the leakage phenomenon occurring at the screw connection part such as heating tube and connecting bracket, and it is leaking through sealing plug of silicone or other elastic material.

The cause of such leakage phenomenon is to insert a heating wire through the single or plural holes in the stopper (packing) made of an elastic material, and connect the power wires. The pressure does not exist or it is somewhat stable at room temperature.

However, as the heating water in the heating tube is heated by the heating wire, the temperature rises and expands at the same time. In this case, strong pressure is generated inside the tube.

Over time, the expanded water is mostly leaked through the weak part of the perforated part to insert heating wires or wires.

This is a fundamental cause of the expansion pressure and heating holes in the heating tube to insert the heating wires, but also indirectly in the plugs and heating wires whose properties change due to the heating of the heating wires penetrating the perforations. will be.

If the end is completely sealed to prevent leakage, the expansion pressure will be increased to bring about a rupture of the heating tube. If the pressure outlet is provided to solve the expansion pressure, water leakage or lack of heating water will eventually occur. The heating tube will burn out.

In this problem, there is no fundamental solution in the current construction method through the sealing silicone stopper at both ends of the hot water pipe and inserting the heating wire through the hole.

If you don't drill the silicone plug that seals the end, the leak problem is solved once, but you can't connect the power.

Another assumption is that if you use a material that does not expand even when the heating medium in the heating tube is heated, you will not have to worry about blocking the expansion pressure inside the tube or sealing the end completely to solve the leak.

On the other hand, even if the heat medium expands inside the heating tube and the sealing portion is incomplete, this problem can be easily solved if there are measures to absorb the pressure inside.

In addition, the heating wire overheating, in which the heating wire is partially exposed to the air inside the heating tube, means that the heating water cannot be completely filled inside the heating tube, the air bubbles cannot be removed completely, and the air bubbles and heating during the heating process of the heating water. As time goes by, the separation of water causes these microbubbles to collect in the upper part of the heating tube and gradually form large voids, which are caused by the heating wire exposed to this space.

In the reality that the heating tube is forcibly inserted, the heating water is filled, and the end is sealed with a silicone stopper without the air vent or injection device located above the heating tube, and the heating tube is cut at right angles to the floor. Since the heating water must flow out during operation, the voids inside the heating pipe are inevitable. The problem is that once the work is done, the water cannot be replenished or the air can be drained.

therefore

The solution to the above problems can be presented as follows.

* In order to prevent leakage, there should be no perforated holes for inserting electric wires or heating wires at both ends of heating pipes.

* If the internal pressure generated inside the heating pipe is smoothly discharged to protect the heating pipe and the sealing part from the expansion pressure, leakage or damage of the heating pipe will be prevented.

* If the expansion rate of the heating medium filled inside the heating pipe is as low as possible, the expansion pressure inside the pipe will be less if the material is used.

* Separate collecting place of bubbles generated inside the heating pipe should be easily separated by the specific gravity so that the heating wire is not exposed from the heating medium to the furnace air. In order to solve this problem, it is necessary to move the heat medium inside the heating tube to continuously draw bubbles to the bubble storage place.

* The valve device should be attached to make it easy to discharge the air inside the heating tube when filling the heating medium, and to prevent the heat medium filled inside the heating tube during the operation of the heating system, such as inserting the heating wire or sealing the end of the heating tube. something to do.

Therefore, the present invention was devised in view of the above-mentioned problems, and by eliminating the forced circulation pump and the separate supply, drainage, and expansion tank, which require continuous consumption of power, no special installation space is required by the device. The purpose is to bury or attach to the same place as the heating place, connect the heating pipe directly to cut off the source of heat loss, and use the whole amount of heat for the operation of the device without any external loss. The purpose of the present invention is to provide a super-economic heating device that does not generate noise, soot, separate water supply facilities or electromagnetic waves, and does not require a space for installing a heating device such as a boiler room to satisfy such conditions.

The heat medium used in the present invention is a mixture of propylene glycol and water in a proper amount (hereinafter referred to as heat medium). Propylene glycol is used as a cooling water of an internal combustion engine due to its high thermal conductivity, and has a freezing point of -32 degrees Celsius. Most commonly used as antifreeze for bar cars. The boiling point is 161 degrees Celsius, which is less than water, and the specific gravity is 1.052, which is denser than water and has a high thermal conductivity.

This method is to fill the propylene glycol in the heating tube and directly heat it with the heating wire, and to reduce the loss of heat as much as possible and to increase the heating efficiency is the pursuit of the present invention.

In addition, the heating medium is moved by the pressure generated by the heating device, and at the same time, it is attached with a tube device with good elastic force that can easily shrink and expand with respect to the pressure in the heating pipe, thereby preventing the heating pipe from being ruptured or leaking and preventing the leakage of the heating medium. Another object of this paper is to provide a heating medium heating system in an enclosed heating tube that can be blocked in principle.

In addition, by omitting the perforation of the sealing device located at the end of the heating tube for the insertion of the heating wire, it provides a heating device that is essentially a hole does not exist, which is the cause of the leakage caused by the deformation caused by the combined closure plug or heating wire. This is also a great object of the present invention.

In addition, another object of the present invention is to provide a heating device that can prevent a defect in the heating tube and the heating wire, which appears due to partial heating of the heating wire due to the collection of microbubbles inside the heating tube.

In addition, in the present invention without heating the two ends of the heating wire through each end of the heating tube, the heating wire starting from one end of the heating tube is presented in the form of a U-turn back inside the tube of the other end. This means that if the size of the cross-section is the same, dividing the heating wire into several strands increases the circumferential ratio, thereby widening the contact area between the heating medium and the heating wire. In order to take advantage of this, by extending the length of the heating wire multiplied, the heating area is increased more than twice as long as the heating wire is one strand, so that the heating speed of the heating medium is increased with the same power.

In order to achieve the above object, the present invention is filled with a heating medium inside the heating tube, and one end of both ends of the heating tube is screwed with a T-shaped connector to insulate the heating wire, and the other end is screwed with the nut to seal. In addition, small hot water supply valves and check valves are continuously screwed on both ends of the heating tube, and both ends of the tube protection tube with a pressure absorbing tube are connected to each other. Then, the heating medium is placed in a complete occlusion space. When applied, the heating medium is warmed to achieve the purpose of heating using the heat.The heating medium expands and the pressure-absorbing tube expands at that pressure, and the fruit moves to the space. When the contracting force of the expanded pressure absorbing tube pushes the heat medium into the heating tube, the fruit is reheated and It is characterized by the light.

Both ends of the pressure absorbing tube in the heating device is attached to the check valve is open in one direction is characterized in that the heat medium is constantly moving in one direction.

In the heating device, a heating medium injection valve is attached to one end of the heating tube, and an air valve is attached to one end.

The upper part of the pressure absorbing tube protection tube is installed in the vent so that the expansion and contraction action of the pressure absorbing tube is not hindered, characterized in that the lower part is attached to the leak detection device.

The heating device is characterized in that the control is controlled by a separate control unit that receives a signal in the detection of the set temperature and abnormal overheating of the heating fruit and the detection of water level or the detection of water leakage.

The pressure absorbing device which serves as a circulation device in the heating device is characterized by using a rubber-like elastic tube.

Bubble storage tube which is a storage space of the micro-air bubbles in the heating device is characterized in that using a rubber-like elastic tube.

In the heating device, while supplying power through the sealing portion of the end of the heating tube, it is characterized in that the power is applied using a metal plate without forcing a micro hole by inserting a fine hole or the like with an elastic force.

In the heating device, but the heating wire to the inside of the heating pipe, it is characterized in that the installation by the U-turn method.

In the heating device, the heat medium filling the inside of the heating tube is filled with a mixture of water and propylene glycol.

Example

By the system and embodiment of the present invention of Figure 1

1, the heating device of the present invention, the heating wire (4) into the inside of the heating tube (3) in the U-turn type, as in the "multi" portion, the inside of the heating tube (3) is doubled in the interior of the heating tube (3) At the end "A", a T-shaped end closure device 5 with built-in power supply devices 1 and 2 is attached, and at the other end "I" of the heating tube 3, an end closure device 6 is screwed in. Then, the end sealing device 6 is connected to the heat medium injection valve 9 and the check valve 8 in sequence, and the connector 15 and 16 are inserted into the pressure absorbing tube 12 to communicate with each other. 17 and 18), wherein the pressure absorbing tube protective tube 11 is mounted, the vent hole 20 is perforated in the upper part and the leak detection sense 21 is mounted in the lower part. Subsequently, an air storage tube 23 is attached to the middle of the pressure moving tube 14 located at the highest point of the apparatus, and the air discharge valve 10 and the check valve 7 are sequentially communicated to each other. By screwing at the end “ga”, the heating tube 3 and the pressure transfer tube 14 are in communication with each other, and the outside of the heating device is completely closed.

2, in the heating device of the above 1 to open the air discharge valve 10 while gradually injecting the heat medium through the heat medium inlet valve 9 so that the air inside the heating tube 3 is discharged to the inside of the heating tube (3) It is preferable that the heat medium 19 is tightly filled and bubbles are not introduced at this time.

3, the heating wire (4) is connected to the heating wire entry device (1 and 2) built in the end closure device (5) attached to the "ga" end of the heating tube (3) in the heating device (1) described above. It is built on the whole length of 3) and double-casted on U-turn as in the "C" part of heating and (3).

4, in the heating device of the above 1 is installed in the upper portion of the pressure absorbing tube protective tube 11 so that the expansion and contraction action of the pressure absorbing tube 12 is not disturbed, and attaching the leak detection sense 21 In case of leakage, the power is cut off from the control box 22 to protect the heating tube 3 and the heating wire.

5, when the heating medium (19) inside the heating tube (3) is heated by the heating wire (4) in the heating device of the above 1, the pressure increases as the volume increases due to the physical properties of the heating medium (19). The inflation pressure moves in the direction of the arrow 13 by the check valve (7) in the direction of the arrow (13) to reach the pressure absorbing tube 12, while the rubber-like pressure absorbing tube (12) with elastic force continues to expand. By absorbing the internal pressure of the heating tube (3), the heating wire (4) is not in the interior of the pressure absorbing tube 12, so as the time passes, the heating medium (19) is cooled to reduce the volume of the main heating The internal pressure of the whole device will drop. In addition, the cooled heat medium 19 is recovered through the check valve (8) again to the heating tube (3) while re-heating while the elastic force of the pressure absorbing tube 12 and the pressure of the heating tube (3) acts organically. The cycle is repeated continuously.

6, in the above 5, the pressure generated in the inside of the heating tube 3 is temporarily stored in the pressure absorbing tube 12 by the expansion volume of the pressure absorbing tube 12 and according to the direction in which the check valves 7 and 8 open. Slowly flowing in the same direction as the arrow (13) and at the same time also moves the bubble together is collected in the bubble storage tube (23) located at the top of the entire device, where the heat medium is moved as it is from the bottom, but the bubble is a bubble storage tube (23) located at the top As it rises up and collects little by little, it becomes possible to prevent overheating of the heating wire (4) generated by exposure to the air by filling the complete heating medium (19) without bubbles in the heating tube (3).

7, 3: by the cross section of the end closure device " 5 "

Portions "A" and "B" of the end closure device 5 have power supply devices 1 and 2 built in, and the "C" part is connected to the heating tube 3.

Inside the end closure device 5, copper rods 59 and 60, each about 2 millimeters thick, are placed on both sides of B 켑 53 where the center of the edge protrudes. After making it into a top shape, it is insulated by B t (54) and copper rods (59 and 60) with Teflon coating (61) except for the power line connection part (57) and the heating wire connection part (58). The heating wire 63 is bonded to the heating wire connecting portion 58 to cover the shrink tube 62 and heat-compressed, and the washers 52 and the O-ring 53 and the O-ring 55 are formed on both sides of the B 54. Insert the washers 56 in tight order, touch the locking jaws 66, and screw the nut 51 together. Then, the locking jaws 65 inside the nut nut 51 are provided with the washers 52 and the O-rings 53. ), B 켑 (54) and O-ring (55), and washer (56) can be pressed in order to create a complete sealing structure. O-rings (53 and 55) are fitted on both sides of B 켑 (54). If B Kep 53 even when pushed in any direction is further pressed by the other side of the O-ring. As a result, it is possible to apply a power supply without inserting a hole through the micro plug through the telescopic plug to insert the heating wire, and to achieve a completely sealed structure.

8, the heating pipe (3) attached to the temperature sensing sense (24) outside the end of "b" to detect the set temperature and overheating control in the control box (22).

9, the end sealing device 6 of the heating tube 3 end "b" is simply sealed by a nut nut interposed with a ring.

This design enables the construction or fabrication of energy-saving heating devices in any type of heating, including floors and walls, and uses all the losses of heat caused by accessories or piping directly to the heating system. Very economical as no space is required.

In addition, in the existing technology that did not omit the micro-holes in the flexible sealing plug when inserting or inserting the heating wires at both ends of the heating tube, the inherent leak phenomenon occurring at the site is not only the micro-holes but also the expansion plug itself. By omitting it at all, it is possible to eliminate the hole that is the source of leakage.

In addition, it is designed to absorb and expand the expansion pressure of the heating medium due to the temperature rise inside the heating tube to prevent leakage and rupture of the end of the heating tube due to the pressure.The air bubble contained in the heating medium in the heating tube By slowly gathering in the place, the heating wire is exposed to the air gap formed by the air bubbles inside the heating tube, thereby preventing overheating and the defect of melting the heating wire and the heating tube.

In addition, the thicker wire and the longer length are designed to increase the heat efficiency by increasing the heat generation area due to the outer surface of the heating wire instead of flowing a small amount of current, and occur due to breakage and breakage of wires that appear easily in thin lines during construction and use. It is possible to prevent overheating of heating wire and melting of heating tube by local resistance.

In addition, by using propylene glycol and water with a very low freezing point, high boiling point, and high thermal conductivity, it is used as a heat medium to prevent freezing and quick heating by rapid heat conduction.

In addition, by devising a method in which the heating medium is circulated with the elimination of forced circulation pump or other water supply and drainage equipment, the pressure inside the heating pipe is moved to the absorber and at the same time, the air bubbles are discharged to maintain the high density and low internal pressure heating medium in the heating pipe. To permanently extend the service life of heating wires or heating pipes, and attach a temperature sensing sense to the heating pipes to detect abnormal overheating and set temperature, and to install leak detectors on the pressure-absorbing tube protection tube to detect leakage immediately. Regardless of the quantity, the heating management can be easily adjusted arbitrarily by the user, which is a very useful design that can be expected to effect convenient and safe heating simply and economically.

Claims (10)

delete Filling the heating medium (19) mixed with propylene glycol and water in the inside of the heating tube (3) and heating the electric wire (4) with high heat resistance and insulation to the electric field inside the heating tube (3) power supply device (1 and 2) End closing device (5) and end closure device (6) with built-in screws are attached to the heating pipe (3), and the check valves (7 and 8), the air discharge valve (10) and the heat medium injection valve (9) are connected. Then, the pressure absorbing tube 12, the pressure moving tube (14) and the bubble storage tube (23) by screwing the inside of the device is in communication with each other and the heating device using a heating medium and heating wire closed with the outside. The heating apparatus using a heat medium and a heating wire according to claim 2, wherein the heating wire (4) is installed inside the heating pipe (3) in a U-turn manner. delete 3. The heat medium according to claim 2, characterized in that the end seal of the heating tube (3) and the B 켑 (54) made of metal are used in forming the power supply device, and the electric power is supplied without supplying micropores to the expansion and closure plug. Heating device using heating wire. 3. The heating tube (3) according to claim 2, characterized in that the pressure pipe (14) and the shank valves (7 and 8) communicate with each other so that the expansion pressure in the heating tube (3) moves in one direction. Heating system using heat medium and heating wire. The heating device using a heat medium and a heating wire according to claim 2 or 5, characterized in that a bubble storage tube (23) for storing air bubbles contained in the heat medium (19) in the heating tube (3) is provided. The heating device using a heat medium and a heating wire according to claim 2 or 5, characterized in that the material of the bubble storage tube (23) is made of an elastic rubber material. The pressure absorbing tube (12) in both directions at the end of the heating tube (3) according to claim 2, in order to absorb the expansion pressure of the heat medium (19) generated inside the heating tube (3). Heating device using a heating medium and a heating wire, characterized in that attached. 10. The heating apparatus according to claim 2 or 9, wherein the material of the pressure absorbing tube (12) is made of an elastic rubber material.

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