KR20010035224A - Heat equipment of underground and on the ground - Google Patents

Abstract

PURPOSE: A ground heating and underground boiling system is provided to minimize the waste heat discharging into the atmosphere, to reduce production costs, and to maximize the efficiency of heating by controlling the environment condition. CONSTITUTION: A ground heating and underground boiling system is constructed by integrating a ground heater, an underground boiler, a waste heat recovery installation, and an underground preliminary cooling installation. More particularly, the system is comprised of a water vessel(10) having a burning passage in the center part and a circulating water reserve part on the circumference, a blower(20) installed in the burning passage, a burner(61) gushing fire into a burning opening of the burner, a fan(61) actuated by a motor to supply the outside air into the blower, a blowing opening(80) for supplying hot wind into a hothouse, a funnel(30) for discharging the burned air to the outside, a microcomputer controller(90), a water supply opening(40), and a water draining opening(41).

Description

Ground and Underground Heating {HEAT EQUIPMENT OF UNDERGROUND AND ON THE GROUND}

The present invention relates to the ground and underground heating apparatus that is essential to various crop cultivation in agricultural house heating, more specifically, to provide a S-shaped blower to smooth the maximum heat plate area and heat flow as well as the atmosphere It is designed to minimize waste heat flowing out into the middle, and combines ground heaters, underground boilers, waste heat recovery, and underground pre-cooling facilities with a single gas, greatly reducing the production cost of radiators and at the same time, an environment where crops can be optimally grown By controlling the conditions, the efficiency of the heater can be maximized.

As is well known, the oil and gas heaters are independently applied to the ground and ground heating in the conventional vinyl house, resulting in a high cost problem due to the installation of two boilers. Had.

In addition, the conventional heater has a problem that it is not possible to grow house crops in an optimal state because there is no device for controlling the temperature and humidity for each time zone to the environmental conditions required for the growth of the crop.

Furthermore, in the past, the environment outside the facility was continuously changed dynamically, so it was inevitable to introduce automation in order to create an environment inside the facility suitable for crop growth. However, the automation of the facility could reduce production costs, improve quality, and improve the working environment. Although improvements can be made, a problem arises in that there is no technical configuration of automation as described above.

In particular, the pipe used in the conventional blower has a problem in that the heat plate area is small because it is straight, and therefore heat is transmitted only in a straight line, and thus the heat efficiency is reduced. There was a problem that occurred.

The present invention has been made in order to solve the above problems of the prior art, the first object is to provide a blower in the S-shape in order to smooth the maximum heat plate area and heat flow, the second object is the atmosphere The third purpose is to combine the ground heater, the underground boiler, the waste heat recovery, and the underground pre-cooling facility into one gas so that the production cost of the heater can be greatly reduced. The purpose is to control the temperature and humidity for each time of day and to raise the house crops optimally by using the microcomputer to control the environmental conditions necessary for the growth of the crops. The fifth objective is the ground and underground heaters. To reduce production costs and improve the working environment. Provide ground and underground heating systems to significantly improve the castle.

In order to achieve the above object, the present invention is a ground heater and underground boilers which are essentially used for various crop cultivation in agricultural house heating, the combustion furnace is provided in the inner center, and the space is added to circulate the water in the outer periphery. A bucket body formed; A blower installed inside the combustion furnace, the blower having a plurality of blowers formed separately in the combustion port and the outer periphery thereof; A burner provided at another location of the blower and blowing fire into a combustion port; A pen installed at one side of the blower and the bucket body and supplying outside air to the inside of the blower by driving a motor; A blower installed at the other side of the blower and connected to a blower for supplying warm air into the house; A communication unit provided at an appropriate position of the bucket body and communicating with a combustion furnace to discharge combustion gas, which is waste heat, to the outside; A microcomputer control unit provided at an appropriate location of the tuyeres for controlling ground and underground heating devices; In place of the bucket body provides a ground and underground heating apparatus, characterized in that the water supply port for supplying water to the space portion and the water drain port for supplying and circulating the hot water to the underground buried pipe.

Hereinafter, described in detail with reference to the accompanying drawings a preferred embodiment of the present invention for achieving this purpose are as follows.

1 is a front sectional view of the ground and underground heating apparatus applied to the present invention.

Figure 2 is a side cross-sectional view of the ground and underground heating apparatus applied to the present invention.

Figure 3 is a front view of the microcomputer control unit applied to the present invention.

Figure 4 is a block diagram of a microcomputer control unit applied to the present invention.

<Explanation of symbols for main parts of drawing>

10: bucket body 11: space part

12: combustion furnace 20: blower

21: combustion port 22: blower

23: Voryuro 30: Communication

40: water supply port 41: water drain

60: motor 61: pen

70: burner 80: Sungpoong

90: micom control unit 91: micom

Ground and underground heating apparatus applied to the present invention is configured as shown in Figures 1 to 4.

In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

In addition, terms to be described below are terms set in consideration of functions in the present invention, which may vary depending on the intention or custom of the producer, and the definitions should be made based on the contents throughout the present specification.

First, the present invention is characterized in that the ground heater, underground boiler, waste heat recovery, and underground pre-cooling facilities, which are essentially used for various crop cultivation in agricultural house heating, are integrally provided.

That is, the present invention is provided with a bucket body 10 in which the combustion furnace 12 is formed at the inner center, and the space 11 is formed in the outer periphery of the bucket body 10 so that water is embedded and circulated.

In addition, the combustion furnace 12 is provided with a blower 20 in which a plurality of blowers 22 are separately formed in the combustion port 21 and the outer periphery of the inside, the blower 20 is provided, the shape of the blower 20 It is preferable that it consists of S shape.

At this time, the bucket body 10 and the blower 20 is preferably configured in a cylindrical shape to facilitate the transfer of thermal efficiency, and the heat is a combustion furnace between each blower 22 of the blower 20 It is characterized in that the vortex path 23 is provided to circulate the 12 in an S shape.

The present invention is also provided with a burner 70 for blowing fire into the combustion port 21 in the other place of the blower 20, the motor 60 on one side of the blower 20 and the bucket body (10) The pen 61 is provided with a pen 61 for supplying external air into the blower 22 by the driving of the blower, and is connected to the blower 22 at the other side of the blower 20 to supply hot air into the house. 80).

On the other hand, the present invention is provided with an auxiliary tank 50 for replenishing water when the water in the space portion 11 is insufficient in place of the bucket body (10).

In addition, in place of the bucket body 10 is provided with a communication 30 to communicate with the combustion furnace 12 to discharge the waste heat of the combustion gas to the outside, the place of the air inlet 80 is ground and underground heating apparatus The microcomputer control unit 90 to control is provided at the same time the hot water supply port 40 for supplying water to the space portion 11 and the tube (not shown in the figure) buried in the ground in place of the bucket body (10) It is configured to be provided with a water drain 41 to supply and circulate. In this case, the water supply port 40 and the water drain port 41 are provided with pipes communicating with the underground precooling facilities 40a and 41a, the underground heating units 40b and 40b, and the near-zone heating units 40c and 41c.

The microcomputer 91 of the microcomputer control unit 90 applied to the present invention includes a burner, a circulation motor, a blower and an alarm by detecting an indoor temperature sensor, a water temperature sensor, a humidity sensor, a flow sensor and a mechanical malfunction sensor. Controlling the device. The microcomputer control unit 90 includes a voltmeter, an ammeter, a thermometer, a hygrometer, an underground thermometer, a circulation motor temperature, and an automatic, manual, stop button, and an on / off switch.

On the other hand, the present invention can be variously modified and various forms in the application of the above configuration is a matter of course.

And it is to be understood that the invention is not limited to the specific forms referred to in the above description, but rather includes all modifications, equivalents and substitutions within the spirit and scope of the invention as defined by the appended claims. It should be understood that.

Referring to the operation of the ground and underground heating apparatus of the present invention configured as described above are as follows.

In order to operate the ground and underground heating apparatus applied to the present invention, first, the operator operates the on / off switch of the microcomputer control unit 90 to drive the heating unit. In this case, the microcomputer control unit 90 is driven by the heating device. Voltmeter and Ammeter, Thermometer and Hygrometer, Underground Thermometer and Circulation Temperature are operated and the operator can selectively control the operation by pressing the Auto, Manual and Stop button.

As described above, by operating the burner 70 in the process of operating the ground and underground heating apparatus, the pen 61 is driven by the fire of the combustion port 21 to generate high heat, and at the same time, driving the motor 60. It rotates to supply external air to each of the blowers 22 of the blower 20.

As shown in FIG. 1, since the air passing through the air blower 22 is heated by the heat generated from the burner 70, the air moves from one side to the other as shown in the arrow direction. In the process of changing to a high temperature, the heat of the high temperature is to exit the blower port 80 connected to the final blower 22 along the blower 22 to flow into the house to increase the temperature inside the house.

On the other hand, the high temperature heat that is primarily in contact with the blower 20 is to pass through the vortex path 23 formed in the S-shape between each blower 22 as shown in the arrow direction as shown in FIG. The high temperature heat passing through the vortex furnace 23 warms the water stored in the inner space 11 of the bucket body 10 while rotating along the inner surface of the combustion furnace 12 by the vortex furnace 23. After that, the waste heat is discharged to the outside through the communication 30 in communication with the combustion furnace 12 as shown by the arrow.

As described above, in the present invention, when the communication 30 is installed in the front and the heat is applied from the burner 70, the heat moves to the rear so that the flame comes out of the S-shaped flame and burns forward again. Since the S-shaped, so that the heat flow is also made smooth, thereby minimizing the waste heat discharged into the communication (30) to reduce the environmental pollution.

In addition, since the heat flow structure of the present invention is directly connected to the primary heating and blowing in an S-shape, it has a large amount of heat and waste heat, but fills a bucket on the outer surface of the furnace to minimize waste heat. In addition, the existing heater is a secondary tertiary combustion structure because there is a lot of waste heat to go into the communication, unlike the conventional method is the primary combustion is a method of blowing air to circulate the water to the communication (30) side to prevent waste heat.

In the present invention, the water is introduced into the space 11 through the water supply port 40 formed in place of the bucket body 10, and the hot water as described above through the water drain hole 41 in the ground It is sent to the buried pipe (not shown in the drawing) to increase the temperature of the ground, the water supply port 40 and the water drain 41 to the underground pre-cooling facilities (40a, 41a) (underground heating facility pipe pipe Through underground underground pipes that are already installed) and underground heating (40b, 40b) and near-field heating (40c, 41c) (used between the house or on the side) Is installed and used.

As described above, in the present invention, the heat generated from the burner 70 may increase the ground temperature at the same time as the ground temperature inside the house, and thus, the ground heater, the ground heater, the waste heat recovery machine, and the ground pre-cooling facility as one heating device. All of them were satisfied.

The present invention is also to allow the water in the auxiliary tank 50 formed in place of the bucket body 10 when the water stored in the space 11 is insufficient to flow into the space 11 as needed.

3 and 4, the microcomputer 91 of the microcomputer control unit 90 detects an indoor temperature sensor, a water temperature sensor, a humidity sensor, a flow sensor, and a mechanical malfunction sensor. By controlling the burner, the circulation motor and the blower and the alarm device, the ground and underground heating devices of the present invention can be automatically controlled to be used conveniently.

As described in detail above, the present invention is provided with an S-shaped blower in order to smooth the maximum heat plate area and heat flow, as well as to minimize the waste heat exiting the atmosphere. In addition, ground heating, underground boiler, waste heat recovery, and underground pre-cooling facility are combined into a single gas to reduce the production cost of the heater. It is designed to cultivate house crops in optimum condition by controlling alarms and alarms in case of machine malfunctions, and it is possible to reduce production costs and improve working environment by automating ground and underground heaters. It is a very useful invention that can greatly improve the.

Claims (6)

In ground heaters and underground boilers, which are essential for various crop cultivation in agricultural house heating, A combustion body is provided in the center of the inside, the water body body is formed in the outer circumference to circulate the water; A blower installed inside the combustion furnace, the blower having a plurality of blowers formed separately in the combustion port and the outer periphery thereof; A burner provided at another location of the blower and blowing fire into a combustion port; A pen installed at one side of the blower and the bucket body and supplying outside air to the inside of the blower by driving a motor; A blower installed at the other side of the blower and connected to a blower for supplying warm air into the house; A communication unit provided at an appropriate position of the bucket body and communicating with a combustion furnace to discharge combustion gas, which is waste heat, to the outside; A microcomputer control unit provided at an appropriate location of the tuyeres for controlling ground and underground heating devices; Ground and underground heating apparatus, characterized in that the water supply port for supplying water to the space portion and the water drain port for circulating by supplying hot water to the pipe buried underground. The method according to claim 1, The bucket body and the blower is ground and underground heating apparatus characterized in that it is provided in a cylindrical shape to facilitate the transfer of thermal efficiency. The method according to claim 1, The blower is formed in an S-shape and at the same time the ground and underground heating apparatus, characterized in that the vortex path is provided so that heat is circulated through the combustion furnace between each blower of the blower. The method according to claim 1, Ground and underground heating apparatus, characterized in that the auxiliary water tank is provided in place of the bucket body to supplement the water when the water in the space is insufficient. The method according to claim 1, The microcomputer of the microcomputer control unit controls the burner, the circulation motor, the blower, and the alarm by detecting the indoor temperature sensor, the water temperature sensor, the humidity sensor, the flow sensor, and the mechanical malfunction sensor. Heating. The method according to claim 5, The microcomputer control unit is ground and underground heating apparatus, characterized in that the voltmeter and ammeter, thermometer and hygrometer, underground thermometer and circulation motor temperature and automatic, manual, stop button and on, off switch is provided.