KR20140088442A - Antifreezing solution boiler for heating with independent electric power plant mode, structure of construction piping line thereof - Google Patents

Abstract

The present invention relates to an antifreeze boiler for self-heating heating, and a piping line heating construction structure thereof. The first and second sub gears 110 and 120 and the first and second sub power generators 100 and 200 positioned on both sides of the center portion where the bicycle pedal 130 is formed, An indoor bicycle generator (1) comprising; A control regulator (200) for managing the amount of electricity generated by the indoor bicycle generator (1) and the amount of charge; And a two-hand support (210) for supporting both hands when the user sits and rides on a chair constructed on the indoor bicycle generator (1); .

Description

BACKGROUND OF THE INVENTION Field of the Invention The present invention relates to an antifreeze boiler for self-heating heating and a piping line heating structure for self-

More particularly, the present invention relates to an antifreeze boiler for self-heating, and more particularly, to a self-heating antifreeze boiler for heating a piping line, Construction structure.

We live in a half-life on the earth with four distinct seasons. These countries do not have a lot of heating costs until spring, summer and fall. In the winter season, all the people of the whole country use the fuel to heat the house, which costs a lot of heating costs. It is difficult to heat the whole room, and there are many households that use heating only for sleeping nights and other vacant rooms with closed heating.

Nowadays, heating costs are a burden on the average of 350,000,000 won per household on average per month. In addition, the electric stove heating method also costs a considerable amount of heating costs. However, heating costs are becoming more and more expensive as the day goes on. The increasingly depleted hereditary labor costs are also rising, and the cost of heating also increases.

Accordingly, in the related technology field, there is a desperate need to develop a technology for reducing heating costs by making a boiler capable of heating in a different manner and supplying it to a general household.

[Related Technical Literature]

1. A CONSTRUCTION PROCESS OF HEATING PIPE FOR THE KOREAN UNDER-FLOOR HEATING SYSTEM BED (Patent Application No. 10-1999-0013187)

2. A heating panel (Patent Application No. 10-2000-0018439)

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide an anti-freeze boiler for self-heating heating and a pipe line heating construction for reducing heating costs.

However, the objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

In order to accomplish the above object, the self-generating-heating-use antifreeze boiler according to an embodiment of the present invention includes a first sub gear 110, a second sub gear 120, and a center portion formed with the bicycle pedal 130, An indoor bicycle generator (1) including a first-person generator (100) and a second-person generator (140) A control regulator (200) for managing the amount of electricity generated by the indoor bicycle generator (1) and the amount of charge; And a two-hand support (210) for supporting both hands when the user sits and rides on a chair constructed on the indoor bicycle generator (1); .

At this time, a temperature controller 300 located at an upper part of the antifreeze heating and storing tank 330 and checking that the temperature of the antifreeze recovered on the boiler piping line is lowered; A plurality of hot wire heating equipment located in the anti-freeze heat storage tank 330, the hot wire heating equipment 310 used for increasing the temperature of the anti-freezing solution; A recovery pipe (320) for allowing the heating antifreeze to circulate through the interior of the room and to recover the antifreeze recovered to the upper side of the antifreeze heat storage tank (330); A delivery line 340 corresponding to a passage for sending the heated antifreeze to a room or a living room to be heated; A temperature sensing sensor 350 for checking a temperature inside the antifreeze heat storage tank 330; A gauge 360 for checking the capacity of the general oil tank by checking an antifreeze capacity in the antifreeze heating and storing tank 330 and checking the capacity of the antifreeze in the tank by the automatic capacity check gauge; And an antifreeze inlet (370) corresponding to a passage through which the antifreeze can be introduced into the antifreeze heating and storing tank (330); The temperature control unit 300 checks the temperature of the upper end portion of the antifreeze heating and storing tank 330 to determine whether to heat the antifreeze in the entire antifreeze heating storage tank and the heating temperature of the room It is preferable to automatically select whether or not to perform the operation.

Further, a heat insulating material (10) for increasing a heat insulating property to maintain a temperature at which the heated antifreeze liquid in the antifreeze heat storage tank (330) is protected; A hot-wire heater 11 for heating the antifreeze inside the antifreeze heating and storing tank 330; An upper and lower temperature sensing sensor 12 for sensing the temperature of the anti-freeze liquid in the anti-freeze heat storage tank 330 with the equipment configured one by one above and below; A power line (13) providing power for use as a power source; An inlet circulation motor 14 and a collection circulation motor 15 corresponding to a circulation pump for sending the heated antifreeze to the inside of the room; A boiler hot water distributor (16) which is a distributor which allows the user to know which room is used for heating in which room is sent or received in each room; The electric power generated when the indoor bicycle generator 1 is driven is stored under the control of the control unit 18 and the wind power or the Korean electric power solar is automatically controlled by the control unit 18 automatically at low voltage A battery 21 for storing the converted electric power; Depending on whether the user is able to operate more efficiently according to the use of the antifreeze boiler in a certain area, it is possible to use the above-mentioned indoor bicycle generator (1) A wind power generator 22 as a constituent equipment required for the wind power generation; A solar generator (23) that is commercially available when a low-voltage warning is received by the solar thermal equipment, or stores electric power in the battery (21) through normal solar power generation; And a configuration of a process of generating power by the power line (13), the wind power generator (22), the solar generator (23) and the indoor bicycle generator (1) A control unit (18) for charging the battery (21) or receiving power from the battery (21) and controlling the battery (21) to operate; .

Also, boiler control equipment (2) that controls the entire operation; Wherein the boiler control device 20 manages the electric power obtained from the indoor bicycle generator 1 or manages the electric power supplied from the outside and receives the basic electric power to select the electric power, It is preferable to adjust it.

When the battery 21 is at a low voltage, the boiler control device 2 sends a signal to the monitor and the speaker to discharge the charging signal to charge the indoor bicycle generator 1, It is preferable to automatically charge the battery 21 to the power line 13 to automatically charge the battery 21 when the indoor bicycle generator 1 is not charged.

In order to achieve the above object, the pipe line heating construction of the antifreeze boiler for self-heating heating according to the embodiment of the present invention includes a top cover structure 810 and a bottom plate cover 810 for use in piping line heating of the self- Structure 840. The top cover structure 810 includes a bolt fixing hole 800 used to fix a piping line of the antifreeze boiler during installation. And a first antifreeze boiler pipeline line 820 formed in a shape in which two pieces are formed in a lengthwise direction on the lower surface where the lower plate cover structure 840 meets and are bent and meet with each other; And the lower plate lid structure 840 is formed in a vertically symmetrical shape so as to be superimposed on the upper plate lid structure 810. The upper plate lid structure 840 has two A second antifreeze boiler pipeline passage 830 formed in a shape that is formed by bending and meeting; And a control unit.

At this time, a silicon layer 920 as a compressed silicon material formed between the top cover structure 810 and the bottom cover structure 840; An antifreeze boiler piping line 930 formed by the combination of the first antifreeze boiler pipeline line 820 and the second antifreeze boiler pipeline line 830; A compressed silicon pad 940 installed over the construction of the compression insulation board 950 to install the entirety when installing the antifreeze boiler on the floor or floor; And a compression insulation board 950 which is the component to be positioned at the bottom before installing the antifreeze boiler; .

The antifreeze boiler for self-heating heating according to the embodiment of the present invention and its piping line heating construction structure provide the effect of reducing the heating cost by being supplied to general households.

FIG. 1 and FIG. 2 are views showing an indoor bicycle generator 1 used in an antifreeze boiler for self-power generation heating according to an embodiment of the present invention.
3 is a view showing an antifreeze heat storage tank 330 used in the antifreeze boiler according to the embodiment of the present invention.
4 is a view showing a peripheral device for the antifreeze heat storage tank 330 of FIG.
FIG. 5 is a view showing a boiler control equipment 2 used in an antifreeze boiler for self-power generation heating according to an embodiment of the present invention.
6 is a view showing a gauge 360 used in the antifreeze heat storage tank 330 in FIG.
7 is a view for explaining a compressive insulating material 700 used for piping line heating of an antifreeze boiler for self-heating heating.
8 to 10 are views for explaining a top cover structure 810 and a bottom cover structure 840 used for piping line heating of the antifreeze boiler for self-heating heating.
Figs. 11 and 12 are views showing the floor construction using the structure 1100 formed by the top cover structure 810 and the bottom cover structure 840 in Fig.
FIG. 13 is a view for explaining a construction structure for a wall in a piping line heating construction of a self-generated heating antifreeze boiler.
FIG. 14 is a schematic view showing an entire virtual diagram including an entire system including an antifreeze boiler for self-generated heating according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a detailed description of preferred embodiments of the present invention will be given with reference to the accompanying drawings. In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

FIG. 1 and FIG. 2 are views showing an indoor bicycle generator 1 used in an antifreeze boiler for self-power generation heating according to an embodiment of the present invention (hereinafter, referred to as a antifreeze boiler). Referring to FIG. 1, the first and second generator 100 and second generator 140 have the same purpose. The first and second sub gears 110 and 120 and the bicycle pedal 130 are formed on both sides of the center portion. Here, the first sub gear 110 and the second sub gear 120 represent large and small sub gears. When the user operates the bicycle pedal 130 sitting on a chair, the kinetic energy can be converted into electric energy The first generator provides a structure in which electric energy is generated and stored in the generator 100 and the second generator 140.

Next, referring to FIG. 2, the control regulator 200 of FIG. 2 is a constituent device for total management of the power operation and the anti-freeze boiler, so as to manage the generation amount and charge amount electric input selection and everything.

The two-handed pedestal 210 is a component auxiliary device for supporting the first gravel generator 100 and the second generator 140 when the user sits on a chair and moves with a bicycle. The configuration of the second sub gear 120 is a side view of the second sub gear 120 shown in FIG. The first generator-generator 100 is a side view of the generator 100, and the first generator-generator 100 and the second generator-generator 140 operate in the same manner Two generators operate at once, providing the advantage of achieving twice the efficiency of electricity at a time.

3 is a view showing an antifreeze heat storage tank 330 used in the antifreeze boiler according to the embodiment of the present invention. Referring to FIG. 3, the temperature controller 300 is located at an upper portion of the antifreeze heat storage tank 330, and checks whether the temperature of the antifreeze recovered on the boiler piping line is lowered.

The temperature controller 300 checks the temperature of the upper end of the antifreeze heat storage tank 330 and automatically determines whether to heat the antifreeze liquid in the entire antifreeze liquid storage tank and increase the heating temperature of the room . That is, the temperature control unit 300 is a component for use in determining the heating speed and temperature by sensing the temperature of the antifreeze heating and storing tank 330.

Here, the hot-wire heating equipment 310 is a component used to increase the temperature of the antifreeze by several hot-wire heating equipment located in the antifreeze heat storage tank 330.

The recovery pipe 320 is a component in which the heating antifreeze circulates in various places in the room and recovers the heated antifreeze to the upper side through the line where the heat-free antifreeze is recovered.

The outlet line 340 indicates the passage through which the heated antifreeze is sent to a room or a living room to be heated.

The temperature sensing sensor 350 is a component for checking the temperature of a portion under the antifreeze heat storage tank 330.

The gauge 360 is an automatic capacity check gauge that checks the capacity of the antifreeze in the antifreeze heating storage tank 330 and allows the control monitor to know the capacity of the antifreeze contained in the tank. It is also possible to check the capacity of the general oil tank to be.

The antifreeze solution inlet 370 represents a passage through which the antifreeze can be injected into the antifreeze heat storage tank 330.

4 is a view showing a peripheral device for the antifreeze heat storage tank 330 of FIG. Referring to FIGS. 3 and 4, the heat insulating material 10 is constituted by a constituent device that increases the thermal insulation to maintain the temperature of the tank protecting the heated antifreeze in the antifreeze heat storage tank 330, Insulation material is used.

The hot wire heater 11 is a device for heating the antifreeze in the antifreeze heat storage tank 330. The upper and lower temperature sensing sensors 12 sense the temperature of the antifreeze in the antifreeze heating storage tank 330 by means of a device configured one above and below.

The power line 13 generally represents power for use as a power source, and the control unit 18 determines and uses a power input method according to the situation.

The circulation pump 15 for circulating the heated antifreeze liquid to the inside of the room and the circulation pump 15 for returning the air to the inside of the room are cooled again when the temperature of the antifreeze in the on- Circulating pump used to recover the refrigerant to the antifreeze heat storage tank 330. [

The boiler hot water distributor (16) represents a distributor which enables to know which room or heating room is used for the antifreeze which is sent or collected in each room.

The ondol line 17 represents each corner. The control unit 18 is used to control the components of the antifreeze boiler as a whole.

The indoor generator 19 refers to a generator necessary for driving the bicycle generator 1 in the room. The indoor control regulator 20 shows a regulator which can select and regulate the generation amount and the electricity to be selected by the generator to drive the anti-freeze boiler while driving the indoor bicycle generator 1.

The battery 21 stores electric power generated by driving the indoor bicycle generator 1 under the control of the controller 18 and automatically controls the electric power generated by the wind power or the Korean electric power solar heat And the like automatically store the converted power.

Wind turbine generator (22) uses wind turbine generator (1) while wind turbine generator (1) is used in windy areas, depending on whether the user can operate more efficiently according to the use of antifreeze boiler It is the necessary equipment to make changes and use.

The solar generator 23 is a solar-powered device that is used as a battery 21 when a low-voltage warning is received, or it stores power in the battery 21 through solar power generation in the normal course.

The control unit 18 is configured to control the operation of the battery 21 (power supply unit) by concurrently providing the configuration of the process of making electric power by the power line 13, the wind power generator 22, the solar generator 23, Or receives power from the battery 21 to operate the antifreeze boiler so as to operate with minimum power.

FIG. 5 is a view showing a boiler control equipment 2 used in an antifreeze boiler for self-power generation heating according to an embodiment of the present invention. Referring to FIG. 5, the boiler control device 2 that controls the overall operation of the antifreeze boiler manages the electric power obtained from the indoor bicycle generator 1 or supports the electric power supplied from the outside, receives the basic electric power, selects electric power It represents the necessary equipment for viewing and adjusting the internal temperature and conditions at a glance.

A boiler control device (2) is a control and control unit having a function to control all of the antifreeze boilers. When the battery (21) is at a low voltage, it emits a charging signal and sends a signal to the indoor bicycle generator Send to speaker.

If the manager does not charge the indoor bicycle generator 1 for a predetermined period of time, the system automatically goes to a method of automatically charging the battery 21 to the power line 13 of KEPCO to automatically charge the battery 21 Function.

The selection button unit 500 is a dial push button to be used when a menu on the boiler control device 2 is selected and is a constituent device in which the menu is operated by pressing a dial on a desired menu while rotating in an irregular manner.

The speaker 510 outputs all sounds from the boiler control equipment 2.

The power supply connection jack (520) supplies power to the boiler control equipment (2) to indicate the power supply jack required for proper operation. .

6 is a view showing a gauge 360 used in the antifreeze heat storage tank 330 in FIG. Referring to FIGS. 3 and 6, the power supply line 361 supplies operating power required to sense the capacity of contents contained in the antifreeze heat storage tank 330 up and down the check line 363, It is equiped that the installed height sensor is also included.

The check line 363 allows the user to see how much content in the antifreeze heating and storage tank 330 is contacted with the moving line 362 moving up and down. It is a technology that can check the oil storage amount of the oil tank outside and adjust the amount of oil without going out from the regulator of the general household oil boiler using the main control.

The buoyant body 364 is a component that makes it easier to understand the quantity by lowering the contents according to the amount of contents in the antifreeze heating and storing tank 330 and allowing the contents to ascend as the contents increase.

The above-mentioned antifreeze boiler takes a structure according to a room heating method in which far-infrared rays are emitted. Before describing the construction of room heating for far-infrared radiation, we will explain how far infrared rays, which are very useful natural materials for human body, can be used to maintain health or restore bad health to people. It is a very useful constituent material and several methods to install and use in the home or workplace. If you try to feel such a useful far infrared ray, you have to go to a collective facility area such as a jjimjilbang where the far infrared ray comes out.

Another advantage of Far Infrared rays is that when you eat heat, it radiates heat higher than the heat applied to the material that emits far infrared ray. There are many commodities that have a composition of such a far infrared ray material, such as a bed-like product, or a framed form on the ceiling of a home or business.

However, in the present invention, it is desired to install a configuration in which the far infrared ray emitted from each room is emitted to the house rather than the above-mentioned type so that the user can feel the heating and the usual feeling. In addition, in the present invention, the boiler-related construction step can be performed faster than the conventional construction method, and when the construction is finished, it is finished with the cement which is a harmful material that is not suitable for the people in the existing construction method. People who are sensitive to harmful substances may suffer from atopy or dizziness. However, this construction method and the composition used for construction do not emit these harmful substances so as not to cause such sick house syndrome.

This type of anti-freeze boiler construction method can finish the construction air within a short time and does not emit harmful substances. It is a very useful natural material called 'far-infrared ray' through the production process like the ceramics. Far infrared rays are very useful material for people, When it is frequently connected to the body, it is a method using a composition that helps a lot of health if the waste is sent out as a material that greatly helps to exhaust the waste in the body.

In summary, construction of the anti-freeze boiler in the same manner as this construction can shorten the construction time, and the structure for reducing the interlayer noise by reducing the interlayer noise to some extent even in the apartment-related places, By constructing, it does not emit various bad substances coming out from cement, which can be a great help to health.

In addition, it has excellent insulation effect and no harmful substance. It uses the following molding components, insulation block board in the form of piping line, and the top plate components are ceramic components in the form of pottery If the hot water circulates in the hot water piping line, the heat is transmitted to the top plate of this component and the far infrared rays come out naturally. A combination of materials that can naturally feel in a room where the user can feel health and can be helpful in health will be described in detail with reference to FIG. 7 to FIG.

7 is a view for explaining a compressive insulating material 700 used for piping line heating of an antifreeze boiler for self-heating heating. Referring to FIG. 7, the compressive heat insulating material 700 is formed on the bottom of a new building to construct the antifreeze boiler, thereby forming a line groove according to the size of the hot water line of the antifreeze boiler, When the piping line of the antifreeze boiler is installed on the floor, the top plate and the floor structure are configured to construct the antifreeze boiler while assembling the bolts (720) with the upper plate material (710).

In this way, if the anti-freeze boiler is installed, it can be constructed in a short time without using cement. It is an eco-friendly invention that can reduce the symptoms such as atopy and dizziness by reducing harmful substances. Construction can be done.

8 to 10 are views for explaining a top cover structure 810 and a bottom cover structure 840 used for piping line heating of the antifreeze boiler for self-heating heating. 8, the bolt fixing hole 800 is a component necessary for fixing the piping line of the antifreeze boiler using the top plate lid 810. As shown in FIG.

On the other hand, on the upper plate lid structure 810, two pieces of the first antifreezer boiler pipeline line 820 are formed on the lower surface where the lower plate lid structure 840 and the bottom plate cover lining structure 840 meet.

The lower plate cover structure 840 is formed in a vertically symmetrical shape so as to be superimposed on the upper plate cover structure 810. The upper plate of the second antifreeze boiler pipe line 830 is connected to the upper plate cover structure 840, Are formed in such a manner that the dogs are formed in the longitudinal direction and bent and meet.

9, a fixing hole 900 is formed in the top plate cover structure 810. As shown in FIG. The silicon layer 920 absorbs and reduces the interlayer noise in the apartment by the compressed silicon material formed in the middle of the upper plate lid structure 810 and the lower lid structure 840 so that even when the occupant moves on the floor while impacting the floor, So as to reduce the interlayer noise.

The antifreeze boiler piping line 930 is formed by the first antifreeze boiler piping line passage 820 and the second antifreeze boiler piping line passage 830.

Compressed silicon pads 940 are installed on the compression insulation board 950 so that when installing the antifreeze boiler on the floor or floor, It shortens the construction period and reduces the interlayer noise. It blocks the heat that is heated in the antifreeze boiler piping during heating, thereby enhancing the heating effect. If the heating is done once, it maintains a certain amount of temperature for a considerable time, It plays a role.

The compression insulation board (950) is the component to be positioned at the bottom before installing the anti-freeze boiler and is a component that has the purpose of heat shielding and is effective to reduce the interlayer noise to some extent.

10, the fixing member 1100 is fixed to the fixing hole 900 with the constitution of the compressed silicone composition necessary for assembling the upper and lower structures by the upper plate lid structure 810 and the lower plate lid structure 840 So as to fix it

The antifreeze boiler piping line 930 is formed by the first antifreeze boiler piping line passage 820 and the second antifreeze boiler piping line passage 830.

The bolt hole 1120 represents a position for fixing the top cover structure 810 and the bottom cover structure 840. Here, the bolt 1150 is inserted in the center of the fixing body 1100 to completely fix the top cover structure 810 and the bottom cover structure 840.

Figs. 11 and 12 are views showing the floor construction using the structure 1100 formed by the top cover structure 810 and the bottom cover structure 840 in Fig. Referring to FIGS. 8 to 12, the structure 1100 is an entirety of the construction using the upper plate lid structure 810 and the lower plate lid structure 840 having the above-described structure. The structure (1100) indicates that the antifreeze boiler construction is completed. When the construction is completed with the structure as shown in FIG. 12, it is seen that when the heating is performed as a type of ceramics- Unlike cemented finish, it has excellent heating effect, and it has a fast heat transfer effect. Unlike the cement which uses the temperature once, it can keep the heat retention time longer than the cement.

FIG. 13 is a view for explaining a construction structure for a wall in a piping line heating construction of a self-generated heating antifreeze boiler. Referring to FIG. 13, the ceramic top plate 1310 is formed at a high temperature, such as when a ceramic is formed on the top of the wall when the work is finished. The antifreeze boiler piping line (1300) is installed on the wall and the piping line is taken out from the outside. Window (1320) represents the window of an apartment or an ordinary house, and it is an ovulation or door to the outside.

FIG. 14 is a schematic view showing an entire virtual diagram including an entire system including an antifreeze boiler for self-generated heating according to an embodiment of the present invention.

On the other hand, there is an example in which the heating method for the self-generated heating anti-freeze boiler is applied to a wall of a house wall or an office to be heated, and when heating is performed on a wall, The boiler piping material that is installed on the wall is heated by the high temperature, so it is necessary to use the metal material having the stainless material. When the antifreeze is heated up to the high temperature, the boiler pipe line rises to the high temperature of more than 190 degrees. You have to use a second construction method which you have to use as a metal material to hang up.

In the construction example of this construction example, a compression insulation board, which is a material for installing a boiler on the floor, is installed on the first wall and a boiler piping line is installed thereon, a compression insulation board having a boiler piping line shape is installed as a second line, It is a construction method which can finish the construction in the shortest time by covering and fixing the upper fixing material made at high temperature like the case of making pottery after metal piping is installed. Therefore, it is possible to shorten the construction time faster than the existing boiler construction method, This is another method that can be used to construct a boiler without breaking the floor.

This anti-freeze boiler technology is useful for those who suffer from atopy because the construction time is shorter than that of construction using cement in any place or any place, And a description of the materials.

As described above, preferred embodiments of the present invention have been disclosed in the present specification and drawings, and although specific terms have been used, they have been used only in a general sense to easily describe the technical contents of the present invention and to facilitate understanding of the invention , And are not intended to limit the scope of the present invention. It is to be understood by those skilled in the art that other modifications based on the technical idea of the present invention are possible in addition to the embodiments disclosed herein.

1: Indoor bicycle generator 2: Boiler control equipment
10: Heat insulating material 11: Heat wire heater
12: upper and lower temperature sensor 13: power line
14: Entrance / Exit Circulation Motor 15: Recuperation Circulation Motor
16: boiler hot water distributor 18:
19: Indoor generator 20: Control equipment
21: Battery 22: Wind generator
23: Solar generator
100: First-person generator 110: First sub-gear
120: second sub gear 130: bicycle pedal
140: The second generation generator
200: Control regulator 210: Two-hand support
300: temperature control unit 310: heating wire heating device
320: recovery pipe 330: antifreeze heat storage tank
340: Outgoing line 350: Temperature sensor
360: Gauge 361: Power supply line
362: moving line 363: check line
364: Buoyant body 370: Antifreeze inlet
500: button portion 510: speaker
520: power supply connection jack 700: compression insulation
710: Top plate material 720: Bolt
800: bolt fixing hole 810: top plate cover structure
820: First antifreeze boiler piping line passage
830: Second antifreeze boiler piping line passage
840: Lower cover structure
900: fixing hole 920: silicon layer
930: Antifreeze boiler piping line 940: Compressed silicone pad
950: Compression insulation board 1100: Fixture
1120: bolt hole 1150: bolt
1300: Antifreeze boiler piping line 1310: Porcelain top plate
1320: Window

Claims (7)

The first sub-gear 110 and the second sub-gear 120 and the first and second sub-generators 100 and 140, which are positioned on both sides of the center portion of the bicycle pedal 130, Indoor bicycle generator (1);
A control regulator (200) for managing the amount of electricity generated by the indoor bicycle generator (1) and the amount of charge; And
A two-hand support 210 for supporting both hands when a user sits on a chair constructed on the indoor bicycle generator 1 and moves like a bicycle; Wherein the self-heating antifreeze boiler comprises:
The method according to claim 1,
A temperature control unit 300 located at an upper portion of the antifreeze heating storage tank 330 and checking that the temperature of the antifreeze collected on the boiler piping line is lowered;
A plurality of hot wire heating equipment located in the anti-freeze heat storage tank 330, the hot wire heating equipment 310 used for increasing the temperature of the anti-freezing solution;
A recovery pipe (320) for allowing the heating antifreeze to circulate through the interior of the room and to recover the antifreeze recovered to the upper side of the antifreeze heat storage tank (330);
A delivery line 340 corresponding to a passage for sending the heated antifreeze to a room or a living room to be heated;
A temperature sensing sensor 350 for checking a temperature inside the antifreeze heat storage tank 330;
A gauge 360 for checking the capacity of the general oil tank by checking an antifreeze capacity in the antifreeze heating and storing tank 330 and checking the capacity of the antifreeze in the tank by the automatic capacity check gauge; And
An antifreeze inlet 370 corresponding to a passage through which the antifreeze can be injected into the antifreeze heating and storing tank 330; Further comprising:
The temperature controller 300 checks the temperature of the upper end of the antifreeze heat storage tank 330 and automatically determines whether to heat the antifreeze in the entire antifreeze heat storage tank and increase the heating temperature of the room Wherein the boiler is a boiler.
The method of claim 2,
A heat insulating material (10) for increasing a heat insulating property to maintain a temperature at which the heated antifreeze liquid in the antifreeze heat storage tank (330) is protected;
A hot-wire heater 11 for heating the antifreeze inside the antifreeze heating and storing tank 330;
An upper and lower temperature sensing sensor 12 for sensing the temperature of the anti-freeze liquid in the anti-freeze heat storage tank 330 with the equipment configured one by one above and below;
A power line (13) providing power for use as a power source;
An inlet circulation motor 14 and a collection circulation motor 15 corresponding to a circulation pump for sending the heated antifreeze to the inside of the room;
A boiler hot water distributor (16) which is a distributor which allows the user to know which room is used for heating in which room is sent or received in each room;
The electric power generated when the indoor bicycle generator 1 is driven is stored under the control of the control unit 18 and the wind power or the Korean electric power solar is automatically controlled by the control unit 18 automatically at low voltage A battery 21 for storing the converted electric power;
Depending on whether the user is able to operate more efficiently according to the use of the antifreeze boiler in a certain area, it is possible to use the above-mentioned indoor bicycle generator (1) A wind power generator 22 as a constituent equipment required for the wind power generation;
A solar generator (23) that is commercially available when a low-voltage warning is received by the solar thermal equipment, or stores electric power in the battery (21) through normal solar power generation; And
The configuration of the process of making electric power by the electric power line 13, the wind power generator 22, the solar generator 23 and the indoor bicycle generator 1, and the configuration of receiving the electric power, (18) for charging the battery (21) or receiving power from the battery (21) and controlling it to operate; Further comprising: an antifreeze boiler for self-heating heating.
The method of claim 3,
Boiler control equipment that controls the entire operation (2); Further comprising:
The boiler control equipment 20 manages the electric power obtained from the indoor bicycle generator 1 or manages the electric power to be supplied from the outside, receives electric power, selects electric power or displays or adjusts the internal temperature and the state Self-heating anti-freeze boiler.
The boiler control equipment (2) according to claim 4,
When the battery 21 is at a low voltage, it emits a charging signal and sends a signal to the monitor and the speaker to charge the indoor bicycle generator 1,
When the indoor bicycle generator 1 is not charged for a preset time, the function of automatically charging the battery 21 to the power line 13 to automatically charge the battery 21 Wherein the boiler is a boiler.
A top cover structure 810 and a bottom cover structure 840 for use in piping line heating of the antifreeze boiler for self-heating heating,
The top cover structure 810,
A bolt fixing hole 800 used to fix the piping line of the anti-freeze boiler during installation; And
A first antifreeze boiler piping line passage 820 formed in a bottom surface of the bottom plate cover structure 840 to be bent in a longitudinal direction; Is formed,
The lower plate lid structure 840,
And is vertically symmetrical so as to be superimposed on the upper cover structure 810,
A second antifreeze boiler pipeline line 830 formed in a shape in which two pieces are formed in a longitudinal direction on the upper surface that meets the upper plate lid structure 840 and are bent and meet; And the piping line heating construction of the antifreeze boiler for self-heating heating.
The method of claim 6,
A silicon layer 920 of compressed silicon formed between the top cover structure 810 and the bottom cover structure 840;
An antifreeze boiler piping line 930 formed by the combination of the first antifreeze boiler pipeline line 820 and the second antifreeze boiler pipeline line 830;
A compressed silicon pad 940 installed over the construction of the compression insulation board 950 to install the entirety when installing the antifreeze boiler on the floor or floor; And
A compression insulation board 950 as a component to be positioned at the bottom before installing the antifreeze boiler; Wherein the piping line heating construction of the antifreeze boiler for self-heating heating is further characterized by comprising:

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