KR100927640B1 - Thermal energy generation system for heating and hot water supply - Google Patents

Abstract

The present invention relates to a thermal energy generation system for heating and hot water supply, and injecting cold water into a system having a disk that rotates at high speed to generate hot water by frictional heat of the disk and to use it for heating and hot water supply. And hot water supply, eco-friendly, small installation area, no fire risk, easy installation and operation.

Thermal energy generation, boiler, heating, hot water, thermal energy generation system

Description

Heat Energy Generator for Heating and Hot-water Supply

The present invention relates to a thermal energy generation system for heating and hot water supply, and more particularly, to inject cold water into a system having a disk that rotates at high speed to generate hot water by frictional heat of the disk and use it for heating and hot water supply. The present invention relates to a thermal energy generation system for heating and hot water supply, which enables economical and efficient heating and hot water supply, is environmentally friendly, requires less installation area, has no risk of fire, and can be easily installed and operated.

In general, the heating device can be classified into small heating, steam heating, hot water heating, warm air heating, air conditioning heating, radiant heating, solar heating, etc., which directly burn fuel such as a fireplace and a fireplace. In general homes, buildings, warehouses, factories, offices, greenhouses, etc., hot water supply devices are installed to supply hot water.

In particular, hot water heating is most widely used as a heating device because the heating device and the hot water supply device have a high tendency to be integrally installed without being separately installed.

Hot water heating is a heating method that uses hot water as a fruit to heat water and steam, which are heat sources in a boiler, and sends it to a radiator in a room to heat it. The water and steam returned to the radiator are reheated to circulate the heating device. Usually, hot water of 80 ℃ is used, but in large-scale, such as district heating, hot water of high pressure above 100 ℃ is used.In Korea, two-pipe type, which is a forced circulation type, is most commonly used. One-pipe (一 管 式) is not used well. The hot water temperature can be controlled centrally, and the heat dissipation can be controlled from the radiator, and even after stopping the combustion of the boiler, there is an advantage that the room temperature does not change suddenly because the remaining heat remains, but the preheating takes time due to the large heat capacity of the device. It has a disadvantage of high fuel consumption.

As a method for heating water in the hot water heating as described above, a method of burning fuel such as coal or briquette, a method of burning fuel of petroleum, gas such as LNG (liquefied natural gas) or LPG (liquefied petroleum gas) And a method of using an electric hot water boiler.

The method of burning fuels such as coal and briquettes is safe because the price of fuel and boiler is low, and there is little risk of explosion, but it requires a storage place for fuel and the efficiency of heat loss decreases, and various air pollutants There is a disadvantage in that it occurs and is inconvenient to handle, the need for regular cleaning due to a lot of ash and dust, high risk of disaster caused by toxic gas, and waste disposal costs due to the large amount of residue waste discharged.

In addition, the method of burning petroleum fuel also has the advantage of low cost of boiler, but it requires fuel storage tank, space for fuel supply, thermal efficiency is about 85 ~ 90%, raw material price is unstable, expensive and fuel Absolutely necessary safety for fire prevention of the boiler room including the storage tanks, harmful air pollutants are generated, and regular boiler repairs and safety inspections were required.

In addition, the method of burning gas such as LNG or LPG has the advantage of high thermal efficiency, but gas pipeline construction and boiler installation cost is very expensive, design and installation is not easy, and the price of fuel is continuously increasing. It is necessary to check the pipeline connection regularly and prevent leakage, and have a high risk of explosion and fire due to gas leakage.How to use electric hot water boiler has high thermal efficiency but consumes enormous power, expensive boiler, There is a risk of overload due to the excessive use of electricity and excessive use of electricity.

Therefore, the object of the present invention is not only low cost, low installation space, easy to operate and install, but also easy to replace the existing system and low maintenance cost, economical and efficient, environmentally friendly and no fire hazard In addition, the present invention provides a heat energy generation system for heating and hot water supply that can operate a heating system as needed.

In order to achieve the above object as well as other easily expressed object in the present invention, by injecting cold water into the system having a disk rotating at high speed to generate hot water by the frictional heat of the disk and to use it for heating and hot water supply In addition, it was possible to provide efficient heating and hot water supply, eco-friendly, small installation area, no fire risk, and simple installation and operation.

The heat energy generation system for heating and hot water supply according to the present invention is economical, efficient and eco-friendly because it is low in cost, requires little installation space, is easy to operate and install, and is easy to replace with the existing system and has low maintenance cost. There is no risk of fire and no fire, and the heating system can be operated as needed.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.

1 is a schematic perspective view of a heat energy generation system for heating and hot water supply according to the present invention, FIG. 2 is a partially cutaway perspective view of a main portion of the heat energy generation system for heating and hot water supply according to the present invention, and FIG. Is a sectional view of the main part of a thermal energy generation system for heating and hot water supply.

In the heat energy generation system 1 for heating and hot water supply according to the present invention, a recess 13 is formed at a coupling surface 12, and partition walls 14 and a left partition wall are not shown on the left and right sides of the recess 13. The inlet pipe 15 is configured to be connected to the external cold water inlet pipe (2) is connected to the upper side, the lower side is provided with an outlet pipe (16) is connected to the hot water outlet pipe (3) It has a branch 11, the inside of the protrusion 17 so that the space 18 is formed, the step 19 is formed on the inner connection portion of the flange 11 and the protrusion 17, the second body ( A first body 10 fastened and bolted to face 20); It has a structure symmetrical with the first body 10, but does not have an inlet pipe and an outlet pipe, the shaft hole 27 is formed in the center, the rotating shaft 61 is inserted and is opposed to the first body 10 A second body 20 fastened and coupled with a bolt; When the first body 10 and the second body 20 are coupled to the recess formed by the stepped 19 and 28, the cold water introduced from the inlet pipe 15 protrudes from the first body 10 ( 17) hot water heated between the first inlet 51 and the first disk 30 and the second disk 40 to be introduced into the internal space 18 is formed inside the protrusion 25 of the second body 10. An annular fixed frame 50 having a second outlet hole 52 through which the outlet 26 is discharged from the space 26; The second inflow hole 31 is formed so that the cold water flows between the first disk 30 and the second disk 40 from the internal space 18 of the protrusion 17 of the first body 10, and has a plurality of inner surfaces. Two hemispherical grooves 32 are formed, and the connecting shaft inserting hole 33 and the rotating shaft inserting hole 34 formed to insert the connecting shaft 41 of the second disk 40 are inserted. A first disk 30 formed and connected to the second body 20 by the connecting shaft 41 and axially connected by the rotating shaft 61 and the key 35; A first outlet hole 42 is formed to allow hot water between the first disk 30 and the second disk 40 to flow into the internal space 26 of the protrusion 25 of the second body 20, and the first A connecting shaft 41 is formed to axially connect with the disk 30, and a plurality of hemispherical grooves 43 are formed on the inner surface, and the second disk is axially connected by the rotating shaft 61 and the key 35. 40; And a motor 60 for rotating the first disk 30 and the second disk 40 by being connected to the rotation shaft 61 through the shaft hole 27 of the second body 20.

In addition, the heat energy generation system (1) for heating and hot water supply according to the present invention is installed by a temperature sensor (not shown) where the hot water is discharged by detecting the temperature of the hot water, the heat energy generation system for heating and hot water supply (1) This can be automatically operated, and can be provided with a control panel (not shown) to adjust the temperature of the desired heating and hot water.

In addition, a hot water tank (not shown) and a circulation pump (not shown) are installed at one side of the hot water outlet pipe 3 to store a predetermined amount of hot water, and circulate the hot water so that the desired heating temperature and hot water temperature are achieved. It may be provided.

And, the end of the hot water outflow pipe (3) is configured to be recirculated with the cold water inlet pipe, the cold water inlet pipe (2) one side is provided with a cold water tank (not shown) having a water level sensor sensor to reduce the amount of water due to the use of hot water Cold water should be supplied automatically.

The left and right partitions 14 of the first body 10 and the left partitions of the first body 10 and one of the partitions 24 and 24 'of the second body 20 are provided on the left and right sides of the first body 10, respectively. It may be provided with two adjacent to the ball 51 and the second outflow hole 52, respectively, if provided with one, the part located far from the first inlet hole 51 and the second outflow hole (52) Since the water introduced into the water may not be easily discharged and may remain to decrease the function of the system, it is effective to provide two water adjacent to the first inlet hole 51 and the second outlet hole 52. .

In addition, an annular shape is formed without forming an inner space 18 formed by the protrusion 17 of the first body 10 and an inner space 26 formed by the protrusion 25 of the second body 20. Cold water introduced from the inlet pipe 15 is not placed in the groove formed by the step 19 and 28 when the fixing frame 50 is coupled to the first body 10 and the second body 20. The hot water heated between the first disc 30 and the second disc 40 does not flow into the internal space 18 of the protrusion 17 of the body 10, and the inside of the protrusion 25 of the second body 10. If it does not flow into the space 26, the outside of the first disk 30 and the second disk 40 is not rubbed with water, the efficiency is lowered, as well as the cold water introduced from the inlet pipe 15, the first disk ( Cold water that is not heated between 30 and the second disk 40 immediately flows into the outflow pipe 16.

On the other hand, the annular fixed frame 50, the first disk 30 and the second disk 40 is installed in the closest state, the annular fixed frame 50, the first disk 30 and the second disk 40 It is effective to prevent the outflow and inflow of the water between the), and easy to rotate the first disk 30 and the second disk 40 by mounting a bearing (not shown) flowable from the inside of the annular fixed frame 50 It can also be configured to.

The number of hemispherical grooves 32 formed on the inner surfaces of the first disk 30 and the second disk 40 is not particularly limited, and the number and arrangement of the hemispherical grooves 32 are repeated through repeated experiments to maximize the frictional force with water. You can choose a method.

Referring to the operation and function of the heat energy generation system 1 for heating and hot water supply according to the present invention configured as described above are as follows.

First, when cold water is introduced through the inlet pipe 15 connected to the external cold water inlet pipe 2, the protrusion of the first body 10 through the first inlet hole 51 of the annular fixed frame 50. After being transferred to the internal space 18 formed by 17), bubbles are introduced into the space between the first disk 30 and the second disk 40 through the second inflow hole 31.

The introduced water is in contact with the inner surfaces of the first disk 30 and the second disk 40 which rotates at high speed, so that frictional heat is generated, thereby increasing the water temperature. At this time, the friction force is maximized by the hemispherical grooves 32 formed on the inner surfaces of the first disk 30 and the second disk 40, so that the water temperature rises rapidly, and the water is formed through the second inlet hole 31. Bubbles generated while flowing between the first disk 30 and the second disk 40 are destroyed, thereby improving the flow and frictional force of the water, thereby increasing the water temperature increase effect. That is, the water temperature is increased while the kinetic energy of the rotation of the motor 60 is converted into thermal energy.

The hot water whose temperature is raised as described above is discharged into the inner space 26 of the protrusion 25 of the second body 20 through the first outlet hole 42, and then the second outlet hole of the annular fixed frame 50. It flows out to the outlet pipe 16 through 52, and is used for heating or hot water use.

Meanwhile, the water located in the internal space 18 formed by the protrusion 17 of the first body 10 and the internal space 26 formed by the protrusion 25 of the second body 20 is the first water. It rotates in contact with the outer surface of the disk 30 and the second disk 40 in friction to function to maintain the temperature of the preheated or heated water.

The warmed water is used for heating or discharged as hot water, and the remaining water is circulated and supplied back to the system by the circulation pump.

1 is a schematic perspective view of a thermal energy generation system for heating and hot water supply according to the present invention,

Figure 2 is a partially cutaway perspective view of the main portion of the thermal energy generation system for heating and hot water supply according to the present invention,

3 is a cross-sectional view of the main part of the thermal energy generation system for heating and hot water supply according to the present invention.

* Explanation of symbols for the main parts of the drawings

1. Thermal energy generation system for heating and hot water supply

10. First Body 20. Second Body

30. First disk 40. Second disk

50. Annular fixed frame 60. Motor

Claims (6)

Groove 13 is formed on the engaging surface 12, the inlet pipe 15 having a partition 14 on the left and right sides of the groove 13 and connected to the external cold water inlet pipe 2 on the upper side Has a flange portion 11 is connected to the configuration, the lower side is provided with an outlet pipe 16 is connected to the external hot water outlet pipe 3, the inside of the protrusion 17 to form a space 18, A first step (19) is formed at an inner connection portion of the flange portion (11) and the protrusion (17), and the first body (10) is fastened and bolted to face the second body (20); It has a structure symmetrical with the first body 10 but does not have an inlet pipe and an outlet pipe, the shaft hole 27 is formed in the center, the rotary shaft 61 is inserted and installed facing the first body 10 A second body 20 fastened and coupled with a bolt; When the first body 10 and the second body 20 are coupled to the recess formed by the stepped 19 and 28, the cold water introduced from the inlet pipe 15 protrudes from the first body 10 ( 17) hot water heated between the first inlet 51 and the first disk 30 and the second disk 40 to be introduced into the internal space 18 is formed inside the protrusion 25 of the second body 10. An annular fixed frame 50 having a second outlet hole 52 through which the outlet 26 is discharged from the space 26; The second inflow hole 31 is formed so that the cold water flows between the first disk 30 and the second disk 40 from the internal space 18 of the protrusion 17 of the first body 10, and has a plurality of inner surfaces. Two hemispherical grooves 32 are formed, and the connecting shaft inserting hole 33 and the rotating shaft 61 are formed so as to insert the connecting shaft 41 of the second disk 40. The first disk 30 is formed and connected to the second body 20 and the connecting shaft 41, the shaft connected by the rotary shaft 61 and the key 35; A first outlet hole 42 is formed to allow hot water between the first disk 30 and the second disk 40 to flow into the internal space 26 of the protrusion 25 of the second body 20, and the first A connecting shaft 41 is formed to axially connect with the disk 30, and a plurality of hemispherical grooves 43 are formed on the inner surface, and the second disk is axially connected by the rotating shaft 61 and the key 35. 40; And Heating and characterized in that consisting of; the first disk 30 and the second disk 40 through the shaft hole 27 of the second body 20 is connected to the rotating shaft 61 to rotate the motor (60); Thermal energy generation system for hot water supply. delete delete delete delete delete

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