KR200233392Y1 - Heating device of heating boiler - Google Patents

Abstract

The present invention relates to a heating device of a hot air heater or a boiler used for heating a place that is not frequently used (church, villa, etc.), the heat medium (2) is built in the inside and the pressure gauge (3) and temperature gauge on the outside (4) and the heat exchanger (6) is installed on one side of the heat storage tank (1) in which the meter (5) is installed, but the circulation pipe (7) for transferring the heat medium to one side of the heat storage tank (1) inside the heat exchanger. It is installed in the pump (8), the valve (9) and the temperature sensing limit switch 17 to be circulated, and the heat exchanger (6) is provided with a cold water pipe 12 for circulating the water of the hot water tank (18) The cold water pipe 12 is provided with a pump 10 and a valve 11, and water is inserted into the heat exchanger 6. The structure is simple and easy to manufacture, and the heat medium in the heat storage tank is circulated to exchange the heat exchanger. Hot water being heated more than necessary because of heating Prevent heat loss and will cut off hameuroseo a useful devise that can reduce late-night power and waste materials power dissipation of hameuroseo used simultaneously.

Description

Heating device of heating boiler

The present invention relates to a heating device of a hot air heater or a boiler used for heating in an infrequently used place (such as a church or a villa), and a hot water tank using a heat exchanger after heating a heat storage tank using a low-cost midnight electric power. It is intended to be able to heat at a low price while allowing to heat the purpose is to.

The boilers that have been used in the past are used by heating water instantaneously as needed using oil or gas, but this method has a disadvantage of having to spend expensive fuel costs. There was a big problem that can not be used on the day.

Meanwhile, in order to solve the above problems, an indirect heating type hot water heater (No. 13672, Utility Model Registration No. 1993), which uses low-cost electric power, was devised. Filled and sealed with a heat medium such as water or antifreeze, and the coil tube having a cold water inlet pipe and a hot water supply pipe is installed above the inside of the heating tank so that the coil pipe is indirectly heated by the heat medium heated by the heat transfer heater.

However, the above design has a disadvantage in that when the heating medium is heated using a heater, the heating temperature cannot be heated to 100 ° C. or higher when the heating medium is water. Therefore, cold water flows into the heating medium and thus heat is heated in high temperature water. There was a problem that can not use hot water for a long time.

On the other hand, when using a heat medium that can be used at a separate high temperature, the heating tank can be heated to around 300 ℃, but if a heating cold water pipe is installed in the heating tank and heated with hot water, the heat medium inside the tank is hot. There is a disadvantage in that water is cut off in a consistent manner, due to this gas generated in the coil tube has a disadvantage in that the coil tube is damaged when severe, and the above design is not practical.

The present invention has been devised to solve the above problems, by installing a heat exchanger on one side of the heat storage tank in which the heat medium is built, so that the hot water is heated by this heat exchanger, the heat medium in the heat storage tank can be circulated little by little. On the other hand, by installing a crater at the bottom of the heat storage tank to be able to use by using the late-night power and waste materials, the present invention will be described in detail by the accompanying drawings as follows.

1 is a schematic circuit diagram of the present invention.

Figure 2 is an enlarged cross-sectional view of the main portion showing a first embodiment of the present invention.

3 is a cross-sectional view of a state of use showing a second embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

1: heat storage tank 2: heat medium

3: pressure gauge 4: temperature gauge

5: meter 6: heat exchanger

7: circulation pipe 8, 10: circulation pump

9, 11 valve 12: cold water pipe

13: heating crater 14: communication

15 blower 16: windshield

17: temperature sensing limit switch 18: hot water tank

A heater is installed inside the heat storage tank, and the heater is heated at midnight power, and a coil pipe is installed inside the heat storage tank so that cold water can be heated with hot water. Circulating pipe for installing a heat exchanger 6 on one side of the heat storage tank 1 in which the pressure gauge 3, the temperature gauge 4, and the meter 5 are installed, but transferring the heat medium to one side of the heat storage tank 1. (7) is installed inside the heat exchanger to be circulated by the pump (8), the valve (9) and the temperature sensing limit switch (17), and the heat exchanger (6) to circulate the water of the hot water tank (18) The cold water pipe 12 is installed, but the cold water pipe 12 is provided with a pump 10 and a valve 11, and water is inserted into the heat exchanger 6, and reference numeral 19 denotes a heating heater. .

[First Embodiment]

It is also preferable to form a heating crater 13 at the lower end of the heat storage tank 1 in which the heat medium 2 is incorporated, and to provide several communication tubes 14 inside the tank to heat the heat medium.

Second Embodiment

The blower 15 is installed on one side of the heat exchanger 6 which is heated by the heat medium 2 in the heat storage tank 1, but several windshields 16 are installed in the heat exchanger 6 in multiple stages. The space between the windshield and the windshield is formed, and one side of the windshield and the end of the upper windshield are alternately formed to form a passage so that the heat can pass through the windshield and be heated in a zigzag manner so that it can be used as a warmer.

Third Embodiment

Even if the hot water heated in the cold water pipe is directly installed by installing the circulation pipe 7 for transferring the heat medium and the cold water pipe 12 into which the cold water is introduced to the heat exchanger 6 installed on one side of the heat storage tank 1. do.

Referring to the effects of the present invention configured as described above are as follows.

When the electric power is turned on at night, the heater installed at the lower end of the heat storage tank 1 is heated to heat the heat medium 2, and the heat medium 2 preserves heat in the heat storage tank 1.

In this state, when the circulation pump 8 is operated by the temperature sensing limit switch 17 installed at one side of the heat storage tank 1, the heat medium 2 in the heat storage tank 1 moves along the circulation pipe. Pass (6) and then come back,

In other words, the cold water is introduced into the heat exchanger 6 heated to a high temperature by the heat medium 2 so that the cold water absorbs heat. As a result, the water passing through the cold water pipe is also constant because the cold water pipe 12 is heated. It is heated to a temperature and this water is returned to the hot water tank 18 again.

In more detail, when the heat medium 2 of the heat storage tank 1 is circulated, the water in the heat exchanger 6 is heated to a constant temperature, and in this state, the water in the hot water tank 18 is heat-exchanged. ) Passes through the cold water pipe 12 installed therein, so that the water in the cold water pipe 12 is also heated by the temperature of the heat exchanger 6 to flow into the hot water tank 18 in a state of hot water. will be.

When the heat exchanger 6 is heated to a constant temperature as described above, the heat exchanger 6 is unnecessarily stopped because the circulation cap 8 is stopped by the temperature sensing switch 17 which circulates the heat medium 2. By heating, it is possible to prevent waste of heat.

On the other hand, as shown in FIG. 2, when wood or oil waste materials are heated in the heating crater 13 installed at the lower end of the heat storage tank 1 without using the late-night electric power, the heat generated from the heating crater 13 Due to the heat storage tank (1) is heated, the heat medium (2) inside the heat storage tank (1) because the communication (14) for discharging the smoke generated in the crater passes through the inside of the heat storage tank (1) Is heated and the heat medium is circulated to heat the heat exchanger 6, thereby achieving the same effect as the present invention.

On the other hand, as shown in FIG. 3, when the blower 15 is operated toward the windbreak plate 16 on one side of the heat exchanger 6 which circulates the heat medium 2 heated in the heat storage tank 1, it is heated by the heat medium 2. Heated while passing through the wind of the blower (15) between the windshield 16 is to be used as a hot air heater is discharged to the outside by the heated wind.

In other words, the air transferred from the bottom is heated up by the windshield 16, and at the same time, hot air is generated by the force of the wind flowing from the bottom and the wind convection generated by the blower 16. You can go to the top to discharge to the outside.

On the other hand, when the cold water pipe 12 installed in the exchanger 6 is connected to the heating pipe directly without passing through the hot water tank as in the third embodiment, the circulation pump installed in the exchanger 6 and the heat storage tank 1 ( 8) and the exchanger (6) by the temperature sensor to maintain a constant temperature, at the same time to install the pump in the cold water pipe 12 to circulate the water can be used for direct heating in the exchanger.

As described above, the present invention installs a heat exchanger on one side of the heat storage tank in which the heat medium is embedded, and the hot water is heated by the heat exchanger, so that the heat medium in the heat storage tank can be circulated little by little and the fireball at the bottom of the heat storage tank. It is designed to be used by using late-night power and waste materials.The structure is simple and easy to manufacture, and heat exchanger is heated by circulating the heat medium in the heat storage tank, so the hot water is blocked from being heated more than necessary, so it loses heat. It is a useful design that can reduce the waste of power by preventing the night and using the late-night power and waste materials at the same time.

Claims (3)

A heater is installed inside the heat storage tank, and the heater is heated at midnight electric power, and a coil pipe is installed inside the heat storage tank so that cold water can be heated with hot water. The heat exchanger 6 is installed on one side of the heat storage tank 1 in which the pressure gauge 3, the temperature gauge 4, and the meter 5 are installed, but the heat medium is transferred to one side of the heat storage tank 1. A pipe 7 is installed inside the heat exchanger to circulate by the pump 8, the valve 9, and the temperature sensing limit switch 17, and the heat exchanger 6 circulates water from the hot water tank 18. To install a cold water pipe 12, but the cold water pipe 12, the pump 10 and the valve 11 is installed, the heating device of the heating boiler, characterized in that the water is inserted into the heat exchanger (6). The heating boiler according to claim 1, wherein a heating crater (13) is formed at the lower end of the heat storage tank (1) in which the heat medium (2) is built, and several communication tubes (14) are provided in the tank. , Heating device. According to claim 1, wherein a blower (15) is provided on one side of the heat exchanger (6) heated by the heat medium (2) in the heat storage tank (1), and the heat exchanger (6) has several windshields (16). It is installed in a multi-stage, the heating device of the heating boiler, characterized in that the heat is passed in a zigzag ride on the windshield 16 by forming a passage by staggering the ends of each windshield 16.