KR100919265B1 - Hot-water tank of heating apparatus for green house for agricultural/stock breeding purpose capable of quick heating - Google Patents

Abstract

PURPOSE: A hot water tank of a house heating device for the livestock industry and agribusiness are provided to reduce the initial working time of the house heating device by increasing the temperature through a tertiary coil pipe. CONSTITUTION: A hot water tank of a house heating device for the livestock industry and agribusiness comprises an inner cylinder body(20). The inner cylinder body has an internal space separated from the inside of the hot water tank. A separate metal medium(30) is inserted inside in partition member. A primary coil pipe(11) of the spiral shape is winded up in the outer surface of the metal medium. The metal medium is consisting of heat rods(13,13') buried at the same time. The heat rod is arranged to be vertical with a secondary coil pipe(12). A tertiary coil pipe(14) is formed inside the hot water tank. The tertiary coil pipe is reeled to the spiral shape in the outer side of in partition member with the space. The primary coil pipe is connected to a water pipe(42). The bottom of the primary coil pipe and the bottom of the secondary coil pipe are connected within the inner cylinder body.

Description

Hot-water tank of heating apparatus for green house for agricultural / stock breeding purpose capable of quick heating}

The present invention relates to a hot water tank of a house heating device for cultivating horticultural crops such as fruit trees, vegetables, and flowers or raising livestock, and more specifically, a primary coil pipe, a secondary coil pipe, and a tertiary coil pipe inside the hot water tank. Built-in by connecting to each other, the primary coil pipe is formed on the outer surface of the metal mediation, the secondary coil pipe is formed in the interior of the metal mediation, the tertiary coil pipe is a hot water tank that is the outside of the inner cylinder to the metal mediated As it is arranged in the spiral shape of the inside, the steam flowing into the primary coil pipe by the heater rod for heating the metal medium is rapidly heated and expanded in the secondary coil pipe through the third coil pipe that generates a high temperature heat action The heating water in the hot water tank can be heated quickly and effectively.

In recent years, crops, such as fruits, vegetables, and flowers, are produced throughout the four seasons regardless of the season, and are provided to consumers. It is because it is grown or grown.

The house as described above can be adjusted or set the temperature inside the house independently of the outside temperature, so if the appropriate temperature for the growth of various crops can be maintained because the corresponding crops can grow vigorously regardless of the season.

In addition, in the case of livestock such as chickens, pigs and cows, if the internal temperature of the poultry farm or barn is kept constant and appropriate, it is known that the livestock growth rate is high and the quality meat can be obtained.

Accordingly, such a house (including a vinyl house or a facility house and various barns) is to be provided with a heating device for preventing growth or development from being affected by cold or low temperature. The device uses various types of fuel to raise and maintain the temperature inside the house.

The heating device may circulate the heat generated by burning petroleum energy, such as kerosene, into the house, or burn the wood to spread the combustion heat into the house, and use electric energy such as a heating heater. There will be a method and device for raising the temperature inside the house.

However, the general heating device as described above has a very uneconomical problem because it requires high energy consumption. In the case of a heating device using petroleum energy such as kerosene, it is very sensitive to oil price and exchange rate, so that stable supply is difficult and the amount of fuel consumed is also high. Livestock farmers and farmers who are vulnerable in terms of finances are avoiding their use.

In addition, the heating device that burns and operates wood is very expensive to purchase wood, and in order to lower the purchase price of wood, waste wood generated from construction waste materials is used and used, but the supply and demand of waste wood is not stable. Difficulties in storage and handling make it unsuitable for large-scale houses.

In addition, the method of heating the house from the heat source of the heater using the electric energy is an extreme economic difficulty due to the excessive consumption of electric energy due to the excessive consumption of the electric energy, which is caused by the cost of seeds, seedlings, fertilizer or compost, etc. In addition to the economic difficulties caused by excessive heating costs, farms and livestock farms have to be exposed to continuous debts, and among the various economic difficulties, the heating costs required for winter or high-temperature crops are absolutely high.

As a result, various types of heating devices have been developed to reduce house heating costs in farms and livestock farms. However, they require only excessive facility costs or insufficient energy savings, resulting in greater thermal efficiency and energy consumption. There is an urgent need for heating devices.

In particular, the heating device using oil or wood as described above is not conducive to the growth of fruits and vegetables and hares by polluting the air quality inside the house, and the heat loss is considerable due to frequent ventilation to prevent this. In the process of burning petroleum, coal, or wood, large amounts of toxic gas, dust, or pollutants are emitted, which is extremely disadvantageous in terms of environmental friendliness.

Accordingly, the applicant of the present invention, at least two or more hot water tank 110 in which the heating heater is built in the house 100 in order to cultivate crops or raise livestock, as shown in 2009 Patent Application No. 4431 and the city of FIG. The hot water tank 110 is connected to the discharge pipe 112 and the recovery pipe 113 through a distribution pipe, and the heat exchange blower 120 is disposed on the pipe line of the discharge pipe 112 and the recovery pipe 113. Formed in succession, but the heating water is alternately sequentially discharged from the two or more hot water tanks 110 as described above, the recovered heating water is preheated through a separate heat exchanger 130 into the hot water tank By returning

It is very economical by discharging only hot water in a sufficiently heated state with low energy consumption, and various heat exchange blowers can be arranged according to the size of the house, so that even heating of the whole house can be achieved. Since the use of heating water does not deteriorate the air quality inside the house at all, it does not interfere with the growth of plants or animals, and there is no environmental pollution.

However, such a heating system requires a very long initial driving time to heat the heating water in a large-capacity hot water tank arranged in two or more units, and also has a huge problem in the consumption of electrical energy.

In other words, the house heating system for farming and livestock as described above has the advantage that the power consumption by the heating heater is not large when the temperature of the heating water is sufficiently increased, and thus, a heating heater having a relatively small capacity is installed. In case of initial operation of heating system by using heating heater of small capacity, such as excessive heating time is required, as well as loss of thermal energy by heat conduction during such heating time is extremely inefficient. It is

In particular, when using a high-capacity electric heater to overcome the above-mentioned problems, the end of the production cost is increased excessively, and the problem of unnecessarily increasing the size of the hot water tank by installing a plurality of large-capacity electric heaters. To have.

In addition, the above-mentioned heating and heating system for farming and animal husbandry requires that the electric heater for heating the heating water in the hot water tank and the heater in the heat exchanger for heating the recovered heating water must be operated at the same time. It is a very uneconomical heating method for livestock and farms that have economic weakness because it shows a large amount of power consumption.

In particular, as described above, the heating heater in the hot water tank and the heating heater in the heat exchanger generate heat by being in direct contact with the heating water and the oil, respectively. I have it.

In addition, the house heating system is to enable the heating and discharge step by step by sequentially using at least two or more hot water tanks, as described above, the two or more hot water tanks are connected by a single circulation pump Therefore, if the circulation pump fails or malfunctions, the entire heating system cannot be operated. Therefore, heating is not performed at all while replacing or repairing the circulation pump. Therefore, safety measures or protection systems are urgently required.

Accordingly, the applicant of the present invention, as shown in 2009 Patent Application No. 12709 and FIG. 2, the heating water in the hot water tank 110 is to be heated by steam heating means, the steam heating means is a separate auxiliary tank ( 111) The water supply quantitatively supplied from the gas is vaporized by high heat, and the vaporized steam is moved along the coil steam pipe 112 in the heated state located in the hot water tank, and the coil steam pipe is placed outside the hot water tank. Via the inside of the heat exchanger 130 is located again to communicate with the inside of the hot water tank 110, the heating water discharged from at least two hot water tanks are connected by the main pump 113 and the auxiliary pump 114 is required By discharging the heating water through an optional flow path according to the present invention, the high temperature and high pressure coil steam pipe can heat the heating water inside the hot water tank quickly and effectively, which is very economical and reasonable. The waste heat of the steam for heating the heating water is to be utilized as a heat source of the heat exchanger to further improve the economics, and the auxiliary pump operates immediately when the main circulation pump for discharging the heating water in the hot water tank fails. In order to prevent damage to crops and livestock in the house caused by cold seas, a house heating system was devised.

However, the hot water tank of the heating device for farming and livestock house as described above adopts the steam heating method by high temperature and high pressure, so that it can be operated with only a small amount of energy than the consumption of electrical energy required by the conventional heating device. It is true, however, that there is still a slight lack in economical efficiency in heating a large amount of heating water using electric energy.

In particular, the amount of the above-mentioned electrical energy is substantially directly connected to the income of farmers and livestock farmers, and thus, more efficient energy utilization methods are being sought.

Moreover, since the steam moving along the inside of the coil steam pipe as described above generates high pressure in the process of supplying water from the liquid phase to the vaporized state, the internal pressure of the coil steam pipe is greatly increased in proportion to the steam. This flows at a very high speed, which results in the discharge of water to the outside of the hot water tank, which has a problem of losing too much heat energy.

Here, the waste heat of the steam discharged from the inside of the hot water tank is used again in the heat exchanger as described above, but the heat exchanger is capable of appropriately heating the recovered water even at a relatively low temperature. Steam, which has a tendency to discharge quickly due to high pressure, is recovered to the inside of the hot water tank without sufficient heat exchange or transfer in the process of being recovered to the hot water tank, so it is a significant problem in achieving the desired purpose and economic efficiency using high temperature steam. To have.

In particular, the heater rod inside the hot water tank is a means for heating the coil steam pipe again, and the heater rod and the coil steam pipe are substantially spaced apart, so that the heater rod itself is heated by radiant heat or indirect heat. It shows the limitation in amplifying and heating the steam in the coil steam pipe using the high heat of, and it has the limit in transferring the high temperature heat by the heater rod into the hot water tank quickly. It has a long heating time. Accordingly, the electric energy consumed from the heater rod is causing the economic burden on farmers and livestock farmers.

The present invention is to solve the problems as described above, and fixedly forming an inner cylinder having a separate inner space isolated from the inside of the hot water tank, the inner coil and the inner coil tube wound in a spiral form on the outer surface and ; A secondary coil pipe having a spiral shape therein; While inserting and fixing the metal medium in the heater rod vertically disposed in the interior of the secondary coil pipe is embedded at the same time, inside the hot water tank to form a third coil pipe wound spirally spaced outside the inner cylinder, By forming the primary coil pipe and the secondary coil pipe connected to each other, and the other end of the secondary coil pipe is connected to the end of the tertiary coil pipe spirally arranged inside the hot water tank,

The feed water supplied from the metering pump is converted into a high pressure and high temperature state by a metal mediator that transfers the heat of the built-in heater rod as it is while passing through the primary coil tube and the secondary coil tube in a vaporized state by a heating heater in the water supply pipe. As such, the steam at high pressure and high temperature can rapidly heat the heating water inside the hot water tank in the process of passing through the interior of the tertiary coil pipe, thereby rationally overcoming all the problems of the conventional hot water tank. It is an object of the present invention to provide a hot water tank of the house heating device for.

The present invention for achieving the object as described above, and fixed to form an inner cylinder having a separate inner space isolated from the inside of the hot water tank, the inner coil and the primary coil pipe wound in a spiral form on the outer surface and ; A secondary coil pipe having a spiral shape inside the landfill; A heater rod vertically disposed in the inner side of the secondary coil pipe; and inserting and fixing a metal medium in a buried state at the same time, and forming a tertiary coil pipe wound spirally on the outer side of the inner cylinder in the hot water tank. But

The tip of the primary coil pipe is drawn out from a separate metering pump so that the heating heater is connected to the built-in water supply pipe, and the lower end of the primary coil pipe and the lower end of the secondary coil pipe are connected to each other inside the inner cylinder. The front end and the front end of the tertiary coil pipe are formed to be connected from the upper outside of the hot water tank, and the lower end of the tertiary coil pipe drawn out from the lower part of the hot water tank is configured to communicate with the inside of the hot water tank via a separate heat exchanger.

The present invention can rapidly and effectively heat the heating water inside the hot water tank through the tertiary coil pipe heated by steam at high temperature and high pressure, thereby greatly reducing the initial operating time of the house heating device, Steam in the secondary coil pipe has a temperature rising effect in proportion to the pressure rising as it is exposed to high heat and expands, and thus it is very economical to generate a high exothermic temperature in a short time with relatively little electrical energy, and fast heating. It is very reasonable to minimize the heat loss in the initial heating process of the heating water through time.

1 is an overall view of a state installed with a typical house heating

2 is a connection diagram for a conventional house heating apparatus

3 is an overall view of a house heating apparatus to which a hot water tank according to the present invention is applied.

Figure 4 is an enlarged view of the hot water tank according to the present invention

5 is an enlarged cross-sectional view of the hot water tank according to the present invention.

Figure 6 is an enlarged separated cross-sectional view of the hot water tank according to the present invention

7 is a state diagram in which steam moves to the primary coil pipe of the hot water tank according to the present invention.

8 is a state diagram in which steam moves to the secondary coil pipe of the hot water tank according to the present invention.

9 is a state diagram in which steam moves to the third coil pipe of the hot water tank according to the present invention.

Explanation of symbols on the main parts of the drawings

10,10 ': Hot water tank 11: Primary coil pipe

12: secondary coil pipe 13,13 ': heater rod

14: 3rd coil pipe

20: inner cylinder

30: metal mediation

40: metering pump 41: heating heater

42: water supply pipe

50: heat exchanger

60: pressure reducing valve 60 ': auxiliary pressure reducing valve

70: circulation pump 71: hot water supply pipe

73: hot water collection pipe

The terms or words used in this specification and claims are not to be construed as being limited to the common or dictionary meanings, and the inventors can appropriately define the concept of terms in order to explain their invention in the best way. Based on the principle, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention.

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

3 is an overall view of a house heating apparatus to which a hot water tank according to the present invention is applied, FIG. 4 is an enlarged view of a hot water tank according to the present invention, FIG. 5 is an enlarged cross-sectional view of a hot water tank according to the present invention, and FIG. An enlarged separated sectional view of the hot water tank according to the invention.

House heating device according to the invention as shown in the discharge from the hot water tank (10) arranged at least two or more to the hot water supply pipe 71 through the heated heating water ë / circulating pump 70 therein, the hot water supply pipe The heating water flowing along the 71 moves to the hot water collecting pipe 73 via the heat exchange blower arranged in succession, and the heating water in the hot water collecting pipe 73 passes through a separate heat exchanger 50. Again it is recovered to the inside of the hot water tank (10).

At this time, the hot water tank (10) has a built-in coil pipe to allow high temperature steam to be circulated, the coil pipe is provided in the water supply pipe 42 receives the supply water from a separate metering pump (40) The vaporized state is heated through the heating heater 41, and the steam in the vaporized state is further heated by the heater rods 13 and 13 'inside the hot water tank 10 to rapidly heat the heating water inside the hot water tank 10. Will be heated. In addition, the steam discharged to the outside of the hot water tank 10 along the coil pipe is moved along the extended steam pipe connected to the heat exchanger 50, and eventually through the heat exchanger (50) hot water tank ( 10 through the extended steam pipe in communication with the interior of the steam is to have a heating and circulation structure discharged into the hot water tank (10).

At this time, the inner cylinder 20 is fixedly inserted into the hot water tank 10 having an internal space in an isolated state from the inside of the hot water tank 10.

In addition, a separate metal medium 30 is inserted and fixed inside the inner cylinder 20, and the metal medium 30 is formed using a material having excellent thermal conductivity such as aluminum, and has a cylindrical shape. Have The outer surface of the metal medium 30 is formed in the spiral coil primary coil pipe 11, the inside of the metal medium 30 is a secondary coil pipe 12 wound in a spiral shape is buried A plurality of heater rods 13, 13 ′ vertically divided and disposed inside the car coil pipe 12 are embedded.

In addition, the above-mentioned hot water tank 10 has a spiral coil tube 14 formed in a spiral shape, and ends of the tertiary coil pipe 14 are respectively outwardly toward the upper side and the lower side of the hot water tank 10. It will be withdrawn.

Accordingly, the water supply pipe 42 in which the heating heater 41 is built is connected to the front end of the primary coil pipe 11, and the lower end of the primary coil pipe 11 and the lower end of the secondary coil pipe 12 are inner cylinders. It is configured to be connected to each other in the interior of the 20, the tip of the secondary coil pipe 12 and the tip of the tertiary coil pipe 14 may be connected to each other in the upper outside of the hot water tank (10).

In addition, the lower end of the tertiary coil pipe 14 may be connected to communicate with the inside of the hot water tank 10 through the heat exchanger 50 installed on the conduit of the hot water collecting pipe 73.

At this time, the low pressure side pressure reducing valve 60 and the high pressure side auxiliary pressure reducing valve 60 'are separately mounted on the connection portion of the secondary coil pipe 12 and the tertiary coil pipe 14, and the pressure reducing valve 60 is provided. Is such that the steam pressure inside the primary coil pipe 11 and the secondary coil pipe 12 is constantly maintained at 3 atmospheres, and the steam pressure inside the primary coil pipe 11 and the secondary coil pipe 12 is 5 atmospheric pressures. If it rises above the auxiliary pressure reducing valve (60 ') is to operate to quickly reduce the excessive internal pressure.

Accordingly, looking at the heating process for the heating water in the hot water tank 10 according to the present invention having the configuration as described above, if a constant amount of supply water is provided from the metering pump 40 through the water supply pipe 42 The supply water is instantaneously vaporized by the heating heater 41 inside the water supply pipe 42.

Accordingly, the steam in the vaporized state as described above has a temperature of about 100 ° C. and moves along the primary coil pipe 11.

Therefore, as shown in FIG. 7, the steam moving along the primary coil pipe 11 formed on the outer surface of the inner cylinder 20 has its primary temperature rise while conducting its own exothermic temperature. This is done.

In addition, the steam in the heat transfer state from the metal medium 30 as described above is moved to the secondary coil pipe 12 embedded in the metal medium 30 as shown in Figure 8, the metal medium 30 ) Will have an extremely high heat generation temperature by the heat generated in the heater rods 13, 13 'embedded therein, so the secondary coil pipe 12 embedded in the metal medium 30 also maintains an extremely high temperature. The steam introduced into the secondary coil pipe 12 is to increase the internal pressure while the expansion occurs at the same time as the high temperature.

At this time, the internal pressure is directed toward the water supply pipe 42 for supplying the heating water from the metering pump 40 by the water supply pipe 42 and a plurality of check valves (omitted in the drawing) mounted on the coil pipe or the steam pipe. The pressure is applied only toward the tertiary coil pipe 14 without reversing. The pressure reducing valve 60 mounted on the pipeline before the high temperature and high pressure steam is provided to the tertiary coil pipe 14 is a secondary coil pipe ( 12) It will play a role to raise the pressure inside to a certain level.

That is, as the pressure reducing valve 60 is set to open only at 3 atmospheric pressures, the pressure of about 3 atm is continuously maintained in the secondary coil pipe 12 as well as in the primary coil pipe 11 connected thereto. Depending on the pressure generated by the expansion of the same hot steam, it is possible to further obtain a temperature raising effect such as a cogeneration method.

Therefore, due to the internal pressure rise as described above, the steam can be heated to a high temperature higher than the heating temperature transmitted through the heater rods 13 and 13 '. In addition, when the set pressure for the pressure reducing valve 60 is adjusted to 3 atm or more, a higher heating temperature can be obtained, but since it will not be free from explosion or various stability problems, it is generally used only at a pressure that can be used safely. Ideally.

In addition, by installing another auxiliary pressure reducing valve (60 ') separate from the pressure reducing valve (60) to overcome various problems corresponding to the occurrence of overpressure, the primary coil pipe 11 or the secondary coil pipe (12) If the amount of steam flowing into the inside suddenly increases, the steam is all expanded to form an extremely high pressure instantaneously, in this case, the pressure reducing valve 60 alone is not enough pressure control is made Will not. Accordingly, if the pressure reducing valve 60 is set to maintain three atmospheric pressures, the auxiliary pressure reducing valve 60 'may be opened at a pressure of 5 atmospheres or more, and thus, when a sudden pressure rise occurs, Simultaneous opening of the auxiliary pressure reducing valve (60 ') is to prepare for safety accidents and damage.

As the steam heated to such a high temperature is supplied to the tertiary coil pipe 14 via the pressure reducing valve 60 as shown in FIG. (10) The heating water inside can be heated quickly.

In addition, the high temperature steam moving in the spiral form along the tertiary coil pipe 14 will cause heat loss due to the heating action of the heating water, and the tertiary coil pipe 14 extending to the outside of the hot water tank 10. The heating water will move the steam, which only contains waste heat in heat loss.

Therefore, the steam having the waste heat as described above is recovered to the inside of the hot water tank 10 through the heat exchanger 50, the steam having the waste heat in this recovery process indirectly heating the heat exchanger (50) Since the heating water returned through the heat exchanger 50 along the hot water recovery pipe 73 flows into the hot water tank 10 while being heated by the waste heat of the steam, the hot water of the heating water is more quickly and economically. The heating in the tank 10 can be made.

The embodiments described in the present specification and the drawings shown in the drawings are only the most preferred embodiments of the present invention and do not represent all of the technical idea of the present invention, and various equivalents and modifications that may be substituted for them are provided. It should be understood that there may be examples.

Claims (3)

The heating water discharged from the hot water tank arranged at least two units to the hot water supply pipe by the circulation pump is moved to the hot water collecting pipe via the heat exchange blower, and the hot water collecting pipe is connected to the hot water tank via the heat exchanger. In the hot water tank, a coil pipe for circulating the water supplied from a separate metering pump in a steam state through a heating heater is built, and the coil pipe is connected to the hot water tank through the heat exchanger. In farming and livestock house heating system, In the hot water tank 10, the inner cylinder 20 having a separate inner space isolated from the inside of the hot water tank 10 is fixedly formed, and inside the inner cylinder 20, a separate metal medium ( Insert 30) The metal medium 30 is a heater in which a spiral primary coil pipe 11 is wound on an outer surface thereof, and is vertically disposed inside the secondary coil pipe 12 and the secondary coil pipe 12 in a spiral shape. The rods 13 and 13 'are formed in a state of being embedded at the same time, and in the hot water tank 10, a tertiary coil tube 14 wound in a spiral shape on the outside of the inner cylinder 20 is formed. So, The front end of the primary coil pipe 11 is drawn out from the separate metering pump 40 and connected to the water supply pipe 42 in which the heating heater 41 is embedded, and the lower end of the primary coil pipe 11 and the secondary coil pipe 12 The lower end of the) is connected to each other in the inner cylinder 20, the tip of the secondary coil pipe 12 and the tip of the tertiary coil pipe 14 are connected to form from the upper outer side of the hot water tank 10, the hot water The lower end of the tertiary coil pipe 14 drawn out from the lower part of the tank 10 is configured to communicate with the inside of the hot water tank 10 via a separate heat exchanger 50, capable of rapid heating with high efficiency. Hot water tank for heating of farm and livestock house. The method of claim 1, A pressure reducing valve 60 is attached to a connection portion of the secondary coil pipe 12 and the tertiary coil pipe 14 positioned at the upper portion of the hot water tank 10, and the primary coil pipe 11 is connected to the primary coil pipe 11 by the pressure reducing valve 60. Hot water tank for farm heating and livestock house heating equipment capable of rapid heating of high efficiency, characterized in that the steam inside the secondary coil pipe 12 is configured to maintain a constant pressure. The method of claim 2, The secondary coil pipe 12 and the tertiary coil pipe 14 located at the upper portion of the hot water tank 10 are equipped with an auxiliary pressure reducing valve 60 'operated at a pressure higher than the pressure reducing valve 60, 1 When the steam pressure in the secondary coil pipe 11 and the secondary coil pipe 12 rises sharply, the internal pressure may be uniformly maintained through the pressure reducing valve 60 and the auxiliary pressure reducing valve 60 '. Hot water tank for heating and farming house for high efficiency and rapid heating with high efficiency.