KR200387727Y1 - An integration type boiler - Google Patents

Abstract

The disclosed integrated boiler includes: a firewood boiler having heat storage for heat storage and a hot water respectively installed therein, and a first upper temperature sensor and a first lower temperature sensor installed at upper and lower portions thereof; A hot water discharge pipe connected to the heat exchanger for hot water to discharge hot water; A heating pipe connected to the firewood boiler and connected to the heating load; A solar heat collecting means having a second temperature sensor installed above and connected to a heat storage heat exchanger and supplying a heat source to a firewood boiler; And a heat collecting pipe connected to the solar heat collecting means and provided with a heat exchange circulation pump. According to the integrated boiler configured as described above, it is possible to save fuel costs and economical.

Description

Integrated boiler

The present invention relates to a boiler, and more particularly to an integrated boiler that can provide heating and hot water using a solar heat source.

In general, heating and hot water are supplied through gas boilers, oil boilers, and the like. However, these boilers have a problem of high fuel costs because they use fossil fuels.

In contrast, solar boilers using alternative energy are solar boiler systems that rely solely on solar heat when the altitude of the sun changes throughout the year and the weather changes frequently. There is a problem that can not do, there is a problem to provide a separate heat storage tank.

The present invention was created to solve the above problems, and an object of the present invention is to provide an integrated boiler improved to reduce fuel costs.

In addition, another object of the present invention is to use a solar heat collecting means, but its object is to provide an integrated boiler whose structure is improved so that it can be stored without a separate heat storage tank.

Other objects and advantages of the present invention will be described below and will be appreciated by the embodiments of the present invention. In addition, the objects and advantages of the present invention can be realized by means and combinations shown in the utility model registration claims.

Integrated boiler of the present invention for achieving the above object, the heat storage for the heat storage and the heat exchanger for the inside, respectively, and the upper and lower firewood boiler is installed the first upper temperature sensor and the first lower temperature sensor; A hot water discharge pipe connected to the heat exchanger for hot water to discharge hot water; A heating pipe connected to the firewood boiler and connected to communicate with a heating load; A solar heat collecting means installed at an upper portion and connected to the heat storage heat exchanger to supply a heat source to the firewood boiler; And a heat collecting pipe connected to the solar heat collecting means and provided with a heat exchange circulation pump.

Here, the heat exchange circulation pump, the temperature of the firewood boiler detected by the first upper temperature sensor and the second lower temperature sensor is 60 ℃ or less, the temperature of the solar heat collecting means detected by the second temperature sensor It is preferable to operate when is at least 50 ℃.

In addition, the firewood boiler includes a boiler main body having an opening and closing door at a side, a combustion chamber provided inside the boiler body, a combustion cylinder into which the coal briquettes are loaded, and the combustion cylinder in the combustion chamber. It may be provided with a charging means for charging.

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

Prior to this, it is not to be construed as limited to the terms or words used in this specification and claims, nor to the common or dictionary meanings, and the inventors will have to properly interpret the concept of terms in order to best explain their own design. Based on the principle that it can be defined, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention.

Therefore, the configuration shown in the embodiments and drawings disclosed herein are only the most preferred embodiment of the present invention and do not represent all of the technical ideas of the present invention, at the time of the present application, these can be replaced It should be understood that there may be various equivalents and variations in the range.

1 is a block diagram of an integrated boiler according to a preferred embodiment of the present invention, Figure 2 is a cross-sectional perspective view showing a firewood boiler shown in FIG.

First, referring to FIG. 1, the integrated boiler 10 according to the preferred embodiment of the present invention includes a firewood boiler 100 having heat storage and heat exchangers 120 and 110 installed therein, respectively, and the firewood boiler ( It includes a solar heat collecting means 500 for converting solar energy to supply a heat source to the 100 and the main controller 600 and the room controller 610 for controlling the integrated boiler (10).

In addition, the integrated boiler 10 is connected to the heat exchanger for hot water and the hot water discharge pipe 200 for discharging hot water, the heating pipe 300 is connected to the firewood boiler 100 and connected to the heating load 330. And a heat collecting pipe 400 connected to the solar heat collecting means 500 and provided with a heat exchange circulation pump 412.

First, looking at the firewood boiler 100 in detail, the firewood boiler 100 has heat storage and heat exchangers (120, 110) for the heat storage and hot water therein, respectively, the upper and lower first upper temperature sensor 131 ) And a first lower temperature sensor 132 are installed. And, the heat exchanger 110 for hot water is connected to the hot water discharge pipe 200, the hot water is discharged through the hot water discharge pipe (200).

Looking at the piping configuration of the heat exchanger 110 for hot water in detail, the heat exchanger 110 for hot water installed in the firewood boiler 100, the water supply pipe 111 connected to the expansion pipe 112 is connected to the water The water supplied through the water supply pipe 111 is supplied with heat through the hot water heat exchanger 110, and then becomes hot water and is discharged through the hot water discharge pipe 200.

Next, looking at the heating pipe 300 in detail, the firewood boiler 100 is a heating load 330 is piped through the heating broadcast pipe 320 and the heating return pipe 310. At this time, the non-broadcast outlet tube 320 is provided with a non-broadcast tube distributor 321 is provided with an air vent 322 that can be discharged from the high temperature steam can adjust the heating flow rate, similarly air in the heating return pipe 310 A vent 312 and a heating return pipe distributor 311 are provided.

Here, the heating return pipe 310, the heating circulation pipe distributor 311 and the heating circulation pump 340 is interposed between the firewood boiler 100 to operate according to the set temperature of the room controller 610. It is provided. At this time, a supplementary water pipe 113 having an expansion pipe 112 is provided between the heating circulation pump 340 and the heating return pipe distributor 311.

On the other hand, another heat storage heat exchanger 120 installed inside the firewood boiler 100 is connected to the solar heat collecting means 500 through the heat collecting pipe 400. At this time, the heat collecting pipe 400, the heat exchange circulation pump 412 and the expansion tank 413 and check valve 411 for reducing the pressure is installed, the solar heat collecting means 500, the air vent ( 510 is provided.

In addition, a second temperature sensor 520 is installed at the upper portion of the solar heat collecting means 500 to detect the temperature of the circulating medium flowing through the heat collecting pipe 400. In addition, the firewood boiler 100 First and lower temperature sensors 131 and the first lower temperature sensor 132 are provided at the upper and lower portions.

Here, the heat exchange circulation pump 412, the temperature of the firewood boiler 100 sensed by the first upper temperature sensor 131 and the first lower temperature sensor 132 is less than 60 ℃, the second When the temperature of the solar heat collecting means 500 sensed by the temperature sensor 520 is 50 ° C or less.

In addition, as the means for collecting solar energy, the solar heat collecting means 500 may be applied to any means capable of accommodating solar energy such as a solar heat collecting plate, a solar cell, and a solar vacuum tube.

On the other hand, the firewood boiler 10, as shown in Figure 2 is provided with an indicator thermometer 133 (see Fig. 1) on the outside, the boiler body 1010 having an opening and closing door on the side, and the boiler body 1010 As a combustion chamber provided inside), and includes a first combustion chamber 1020 and a second combustion chamber 1030 (see FIG. 1) connected through the communication 1032.

In addition, the coal fired boiler 100 may be used in combination with coal briquettes as fuel as well as coal fired, and thus, the coal fired boiler 100 may be injected into the first combustion chamber 1020 and may be loaded with briquettes. There is provided a charging cylinder 1041 and charging means 1040 for charging the combustion cylinder 1041 into the first combustion chamber 1020 on a large scale.

On the other hand, the second combustion chamber 1030 is provided with a refractory material 1031 (see Fig. 1), and may be used as a refractory brick, cast material, gypsum board, ceramics, and the like.

Looking at the operation of the integrated boiler 10 according to a preferred embodiment of the present invention configured as described above, the integrated boiler 10 is heat storage heat collected in the solar heat collecting means 500 heat storage heat exchange of the coal briquette boiler 100 Heat is stored in the unit 120, and the hot water discharge pipe 200 and the heating load 330 connected to the firewood boiler 100 to enable hot water and heating supply, at this time the heat source in the solar heat collecting means 500 Silver, the first upper temperature sensor 131 and the first lower temperature sensor 132 provided in the firewood boiler 100 is detected more than 60 ℃, the second temperature sensor provided in the solar heat collecting means 500 At 520, when less than or equal to 50 ° C. is sensed, the heat exchange circulation pump 412 is operated to accumulate in the briquette combined firewood boiler 100.

Therefore, the integrated boiler 10 including the above components operates on the day when the weather is clear and heats solar heat as a heat source primarily, and the remaining heat source is a firewood boiler with a heat storage heat exchanger 120 ( It is possible to receive heat and hot water supply even when there is no sun by heat storage. In addition, the integrated boiler 10 not only can save the expensive fuel cost of the oil boiler or gas boiler used in the solar heating system, but also needs to install a separate heat storage tank by installing a coal fired boiler that can also use briquettes. none.

As described above, the integrated boiler of the present invention provides the following effects.

First, it is possible to reduce fuel costs by adopting a coal briquette boiler, and it is economical because a separate heat storage tank is not needed.

Second, by providing a temperature sensor in the solar heat collecting means and the coal briquette boiler, by operating the heat exchange circulation pump through this temperature sensor can maximize the energy saving effect.

Third, through the solar heat collecting means and the coal briquette boiler, it is possible to obtain energy efficiently by complementary operation during the summer season when there is a large amount of sunshine and on the contrary during the winter season when the amount of sunshine is small.

As described above, although the present invention has been described by way of limited embodiments and drawings, the present invention is not limited thereto and is intended by those skilled in the art to which the present invention pertains. Various modifications and variations are possible, of course, within the equivalent scope of the utility model registration to be described.

1 is a block diagram of an integrated boiler according to an embodiment of the present invention,

FIG. 2 is a cross-sectional perspective view showing the firewood boiler shown in FIG. 1.

<Description of the symbols for the main parts of the drawings>

10 ... integrated boiler 100 ... firewood boiler

110 ... Heat exchanger 111 ... Water pipe

112 ... Expansion tube 113 ... Supplemental water piping

120 ... Heat accumulator 131 ... First temperature sensor

132 ... 1st lower temperature sensor 133 ... Indicator thermometer

200 ... hot water discharge pipe 300 ... heating pipe

310 ... Heating return pipe 311 ... Heating return pipe distributor

312, 322, 510 ... Airvant 320 ... Broadcasting

321 ... Difficulty broadcasting distributor 330 ... Heating load

340 heating circulation pump 400

411 .. Non-return valve 412 ... Heat exchange circulation pump

413 ... expansion tank 500 ... solar heat collection means

520 ... second temperature sensor 600 ... main controller

610 ... room controller 1010 ... boiler body

1020 ... The first combustion chamber 1030 ... The second combustion chamber

1031 ... fireproof 1032 ... communication

1040 ... charging means 1041 ... combustion bin

Claims (3)

A heat exchanger for heat storage and a hot water heat exchanger, and a first upper temperature sensor and a first lower temperature sensor installed at upper and lower portions thereof; A hot water discharge pipe connected to the heat exchanger for hot water to discharge hot water; A heating pipe connected to the firewood boiler and connected to communicate with a heating load; A solar heat collecting means installed at an upper portion and connected to the heat storage heat exchanger to supply a heat source to the firewood boiler; And And a heat collecting pipe connected to the solar heat collecting means and installed with a heat exchange circulation pump. The method of claim 1, The heat exchange circulation pump, It is operated when the temperature of the firewood boiler detected by the first upper temperature sensor and the first lower temperature sensor is 60 ℃ or less, the temperature of the solar heat collecting means detected by the second temperature sensor is 50 ℃ or more. Featuring an integrated boiler. The method according to claim 1 or 2, The firewood boiler, A boiler body having an opening and closing door at a side, a combustion chamber provided inside the boiler body, a combustion cylinder capable of being introduced into the combustion chamber, and a charging cylinder for loading briquettes and charging means for charging the combustion cylinder into the combustion chamber. Integrated boiler, characterized in that.