KR100753680B1 - Heating apparatus - Google Patents

Abstract

A heating apparatus is provided to rapidly increase the temperature of a thermal media accommodated in a heating pipe and prevent decrease in temperature of the thermal media circulated through the heating pipe. A heating apparatus includes a boiler part(300), a heating pipe(100), and a controller(200). The boiler part heats and supplies a thermal media. The heating pipe has a radiating pipe through which the thermal media is circulated by the boiler part. The controller adjusts the temperature of the heating pipe. The boiler part includes a housing, a heater(320), a connection pipe, a temperature sensor(340), and a circulation motor(350). The housing accommodates the thermal media. The heater heats the thermal media in the housing. The connection pipe connects the housing to the radiating pipe. The temperature sensor detects a temperature of the thermal media in the housing. The circulation motor pumps the thermal media in the housing.

Description

HEATING APPARATUS

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a configuration diagram showing a heating apparatus according to a related art; FIG.

2 is a configuration diagram showing a heating apparatus according to the present invention.

FIG. 3 is an enlarged view of the boiler portion of FIG. 2. FIG.

Fig. 4 is an enlarged cross-sectional view of the cap unit of Fig. 2; Fig.

Fig. 5 is an enlarged cross-sectional view of the expansion device of Fig. 2; Fig.

6 is a configuration diagram showing a heating apparatus according to a modification of the present invention;

Description of the Related Art [0002]

100: Heating pipe 110: Heat pipe

120: heating line 200: control unit

300: boiler part 310: housing

320: heater 330: connector

340: temperature sensor 350: circulation motor

360: New Soccer

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a heating device, which is capable of preventing a temperature of a heating medium circulating through a heating pipe from being lowered and allowing a heating medium to thaw rapidly when the heating medium is solidified, Heating device.

Generally, a heating device circulates heated hot water using oil or gas as a heat source so that heating is performed. However, in the case of a heating apparatus using oil as a heat source, since an oil tank for storing oil occupies a lot of space, it is difficult to use an effective space, and in the case of a heating apparatus using a gas as a heat source, there is a risk of gas explosion.

In order to solve such a problem, a heating device composed of a heating pipe (Registration Practical Utility Model Registration No. 20-0395396) has been proposed in the past.

Hereinafter, a conventional "heating device composed of a heating pipe" will be described with reference to the accompanying drawings. Fig. 1 shows a configuration of a conventional "heating device composed of a heating pipe ".

1, a conventional heating apparatus 30 includes a heating pipe 30 having a heat pipe 11 and a control unit 20 for controlling the temperature of the heating pipe 30 . For example, the heat-radiating pipe 11 is provided with a heating medium, a heating wire 12 for heating the heating medium, and a temperature sensor (not shown) for sensing the temperature of the heating medium. A cap unit 13 for sealing the inside of the cap unit 13 is provided.

However, in the conventional heating apparatus having such a configuration, there is a limit in heating the heating medium through the heating wire 12, and when the heating wire 12 built in the heating pipe 11 is abnormal, it is difficult to replace the heating medium, There is a concern that the overall temperature of the heat exchanger may be lowered. Particularly, there is a problem that the heat dissipating tube 11 is damaged due to the solidification of the heat medium in the heat dissipating tube 11 under conditions of low temperature such as in winter.

It is an object of the present invention to solve the above-mentioned problems of the prior art, and it is an object of the present invention to provide a heat pipe which can rapidly increase the temperature of a heating medium accommodated in a heating pipe, prevent a temperature of a heating medium from circulating through the heating pipe from lowering, And to provide a heating device capable of thawing it quickly.

According to an aspect of the present invention, there is provided a boiler comprising a boiler portion for heating a heating medium, a heating pipe through which the heating medium is circulated by the boiler portion, and a control portion for controlling the temperature of the heating pipe, A heater connected to the control unit and heating the heating medium in the housing, a connection pipe installed at both sides of the housing and connected to both ends of the heating pipe, And a circulation motor installed at one side of the connection pipe for circulating the heating medium in the housing by the heating pipe.

In this case, the heating pipe may include a heat radiating pipe connected to the boiler part to circulate the heat medium, and a heating line embedded along the inner longitudinal direction of the heat radiating pipe.

In addition, a new football having a wrinkle portion formed on the outer side of the housing and having a predetermined space formed on the inside thereof may be installed.

In addition, the connection pipe is connected to the heat dissipation pipe through a fastener, and the fastener has a fastening protrusion at one end and a fastener corresponding to the fastening protrusion at an end of the fastening pipe.

Embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a view showing the construction of a heating apparatus according to the present invention, and FIG. 3 is an enlarged view of the boiler portion of FIG.

2 and 3, the present invention includes a boiler unit 300 for heating and supplying a heating medium, a heating pipe (not shown) having a heat pipe 110 through which the heating medium is circulated by the boiler unit 300 100 and a controller 200 for controlling the temperature of the heating pipe 100.

More specifically, the boiler unit 300 is provided at both ends of the heat pipe 110 to circulate the heat medium in the heat pipe 110. The boiler unit 300 includes a housing 310 in which the heating medium is accommodated, A connection pipe 330 connecting the housing 310 and the heat radiating pipe 110 to each other; a temperature sensor 340 for sensing a temperature of the heating medium in the housing 310; And a circulation motor 350 for pumping the heating medium in the heating chamber 310.

For example, the housing 310 is provided with a housing space 370 in which a heating medium is accommodated, a heater 320 in which at least a part of the heating medium is accommodated in the accommodating space 370, and a temperature sensor (340). A new football (360) having a predetermined space is installed on the upper portion of the housing (310). The new football (360) is formed on the outer side of the housing (310) So that the expanded heating medium is introduced. As a result, damage to the housing 310 due to the sudden expansion of the heat medium can be prevented.

A connection pipe 330 is formed on both sides of the housing 310 so as to be connected to the connection hole 111 of the adjacent heat dissipation pipe 110. The coupling pipe 330 is connected to the coupling hole 111 through a coupling hole 380. The coupling hole 380 is formed at one end of the coupling hole 380, And a thread is formed at the other end. A coupling protrusion 331 corresponding to the coupling protrusion 381 is formed at the end of the coupling pipe 330 to restrict the coupling protrusion 380. The coupling protrusion 380, A screw thread capable of screwing with the fastener 380 is formed at an end of the fastener 111.

The connection pipe 330 is provided with a circulation motor 350. The circulation motor 350 pumps the heat medium in the housing 310 to move to the adjacent heat pipe 110, The heat medium flowing into the heat dissipating tube 110 flows into the heat dissipating tube 110 and is circulated.

The heating pipe 100 includes a heat pipe 110 filled with a heating medium and embedded in the floor for heating, a heating line 120 extending along the inner longitudinal direction of the heat pipe 110 to heat the heating medium, ). At this time, the heating line 120 is electrically connected to the control unit 200 to receive power required for heat generation, and a plurality of the heating lines 120 are configured to control the temperature of the heating medium by selectively supplying electricity to the control unit 200. For example, in the case where the three heating lines 120 are formed as in the present embodiment, the electric power supply in the control unit 200 is interrupted or supplied to each heating line 120 according to the temperature set in the control unit 200, The temperature of the heating medium is controlled according to the number of the heating wires 120 to which power is supplied.

Hereinafter, the detailed structure of the heating pipe 100 is the same as that of the heating pipe used in the conventional heating apparatus, and thus a detailed description thereof will be omitted.

The heater 320 of the boiler part 300 is used as a main heating source for heating the heating medium in the heat dissipating tube 110 buried in the floor for heating and the heating wire of the heat dissipating tube 110 120 are used as an auxiliary heating source for supplementing the insufficient heat only by the heater 320 of the boiler part 300. However, the present invention is not limited thereto and the heating source for heating the heat radiation pipe 110 may be variously changed . That is, the heating line 120 of the heat radiation pipe 110 may be used as a main heating source, and the heater 320 of the boiler unit 300 may be used as an auxiliary heating source.

Fig. 4 is an enlarged view of a section of the cap unit of Fig. 2, and Fig. 5 is an enlarged view of a section of the rupture barrier of Fig.

As shown in FIG. 4, a cap unit 130 is provided at an end of the heat dissipating tube 110 to seal the heat dissipating tube 110. That is, the cap unit 130 is coupled to the end of the heat dissipating tube 110, and a through hole 131 through which the heating wire 120 is inserted is formed in the inside of the cap unit 130. At this time, Is determined according to the number of heating lines 120 inserted into the heat-radiating pipe 110. A sensing line 133 for supporting the sensing sensor 132 is fixed to the cap unit 130. The temperature of the heating medium measured by the sensing sensor 132 is controlled through the sensing line 133, (200).

As shown in FIG. 5, the heat dissipation pipe 110 is provided with a rupture barrier 140 for preventing damage to the heat dissipation pipe 110 due to thermal expansion of the heat medium. For example, the rupture prevention unit 140 is provided with a joint pipe 141 for connecting a heat pipe 110 on one side and a heat pipe 110 on the other side. A packing member 142 is disposed on the joint pipe 141, A tubular support 143, a presser 144 which is fitted in the support 143 and an elastic expander 145 which is fixed by the presser 144 are sequentially assembled, And is fixed to the upper portion of the coupling pipe 141 by a fixing nut 146.

Particularly, the elastic expandable body 145 is assembled to the joint pipe 141 so as to communicate with the inner space of the joint pipe 141 by the cover 148 contacting the spring 147, When the heating medium accommodated in the heat dissipating tube 110 is expanded due to the temperature rise, the expanded heating medium flows into the elastic expanding body 145, thereby preventing the heat dissipating tube 110 from being damaged due to the sudden expansion of the heating medium.

In the present embodiment, the boiler part 300 is connected to both ends of the heat-radiating pipe 110, which is embedded in the floor for heating and forms a loop. However, the present invention is not limited to this, Respectively. For example, as shown in FIG. 6 showing a heating apparatus according to a modification of the present invention, the boiler unit 300 is connected to both ends of the two heat-dissipating tubes 110, So that the temperature can be prevented from lowering due to the heat medium circulation.

Hereinafter, the operation of the present invention will be described.

In the boiler unit 300, the heating medium in the housing 310 is heated by the operation of the heater 320 by the control unit 200. In particular, when the heating medium is heated to a predetermined temperature, the temperature sensor 340 senses the heating medium, (350) is operated. When the circulation motor 350 is operated, the heat medium contained in the housing 310 is transferred to the adjacent heat pipe 110 through the connection pipe 330, thereby circulating the heat medium through the heat pipe 110.

In the heat dissipating tube 110, the heating medium in the heat dissipating tube 110 is heated by the operation of the heating wire 120 by the control unit 200. At this time, the detection sensor 132 installed in the plug unit 130 And senses the temperature of the heating medium in the heat dissipating tube (110). If the temperature sensed by the sensing sensor 132 is lower than the set temperature, the controller 200 supplies power to all the plurality of heating lines 120 inserted in the heat dissipating tube 110, When the temperature sensed by the sensing sensor 132 is higher than the set temperature, the controller 200 cuts off the power supplied to the heating line 120 to lower the temperature of the heating medium. Accordingly, the heating medium temperature of the heat dissipating tube 110 is kept constant according to the temperature set in the controller 200. Here, when the heating medium in the heat-dissipating tube 110 is expanded due to the temperature rise caused by the heating line 120, the expanded heating medium flows into the space inside the elastic expanding body 145. As a result, 110 are prevented from being damaged.

The heater 320 of the boiler unit 300 and the heating line 120 of the heat dissipating tube 110 may operate independently of each other. In the present invention, The heater 320 of the boiler unit 300 is used as a heating source and the heating wire of the heat radiating pipe 110 is used as an auxiliary heating source for supplementing the insufficient heat by the heater 320 alone.

While the present invention has been particularly shown and described with reference to specific embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the following claims It will be apparent to those of ordinary skill in the art.

As described above, according to the present invention, since a heating pipe having one or a plurality of heating wires is connected to a boiler unit having a heater, the temperature of the heating medium can be raised rapidly, and the temperature of the heating medium circulating in the heating pipe There is an advantage that degradation can be prevented.

Further, according to the present invention, it is possible to prevent the heating medium from being coagulated due to the low temperature of the winter as the heating medium in the heating pipe is circulated after heating according to the operation of the boiler, and in particular, .

Claims (3)

A boiler section for heating and supplying the heating medium, A heating pipe through which the heating medium is circulated by the boiler section, And a control unit for controlling the temperature of the heating pipe, The boiler section A housing connected to the heating pipe and having a heating medium accommodated therein; A heater connected to the control unit to heat the heating medium in the housing, A connection pipe installed at both sides of the housing and connected to both ends of the heating pipe, A temperature sensor installed inside the housing to sense the temperature of the heating medium, And a circulation motor installed at one side of the connection pipe and circulating the heating medium in the housing by the heating pipe. The method according to claim 1, The heating pipe A heat radiating pipe connected to the boiler part to circulate the heat medium, And a heating line embedded along an inner longitudinal direction of the heat dissipation pipe. The method according to claim 1 or 2, On the upper portion of the housing, Wherein a new soccer is formed in which a wrinkle portion is formed on the outside and a predetermined space is formed on the inside.

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