KR101590556B1 - Heatig apparatus with parallel type heat exchanger - Google Patents

Abstract

The present invention relates to a heating apparatus and, more specifically, to a heating apparatus arranging a plurality of heat exchangers in parallel, comprising: a first tank housing a heat medium; a heater heating the heat medium housed in the first tank; a first connection pipe discharging the heat medium from the first tank; the heat exchangers radiating the heat from the heat medium flowing in through the first connection pipe; a blowing fan emitting the heat, radiated by the heat exchangers, to the outside; a second connection pipe discharging the heat medium from which the heat has been radiated by the heat exchangers; a circulation pump circulating the heat medium in the first tank; and a main body in which the first tank, the heat exchangers, and the blowing fan are mounted. Thus, the heating apparatus in which the heat exchangers are mounted in parallel according to the present invention uses the heat medium, thereby making it unnecessary to ventilate indoor air with fresh air, minimizing a heat loss, and making the indoor air rise rapidly. The position of the heat exchangers can be easily changed, thereby being capable of installing the heat exchangers at various positions according to the internal structure of the main body, and the heating apparatus has a plurality of the heat exchangers in a parallel structure to perform heat exchange operations at the same, thereby reducing circulation time of the heat medium.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a heat exchanger,

The present invention relates to a heating device in which a heat exchanger is installed in parallel, and more particularly, a heat exchanger in which a plurality of heat exchangers for radiating heat of a heat medium are installed in a parallel structure and a heat medium is simultaneously received in the heat exchanger, To the heating device.

The present invention relates to a device for heating room air to raise room temperature, and more particularly, to a heating device that rapidly raises the room temperature so that crops can be cultivated in a greenhouse even in winter, and has good thermal efficiency.

Prior art of the heating device is disclosed in Korean Patent Publication No. 0735088 in which a suction port and a discharge port are formed; A blowing fan disposed inside the housing to draw air into the inlet and discharge the air to the outlet; And an evaporator disposed between the blowing fan and the discharge port, wherein the evaporator has a pipe vertically disposed on both sides thereof, an upper tube and a lower tube connected to the pipes on both sides, And a fin disposed between the lower tubes.

Another prior art is disclosed in Korean Patent Laid-Open Publication No. 2014-0039997, in which a heat pump that heats heat from the atmosphere and heats the heat medium, a tank that stores the fruit, A heat storage circulation path for circulating the heat between the heat pump and the tank, a heating terminal for heating the heat by radiating the heat, A condition judging means (condition judging means) for judging whether or not the conditions relating to starting and stopping the heat pump are satisfied; And a heat accumulation amount increasing means (heat accumulation amount increasing means) for increasing the heat accumulation amount of the tank when it is judged that the above-mentioned condition related to the stop is satisfied .

Generally, there is a heating device for raising the room temperature of the vinyl house so that crops can be cultivated even in the winter when the temperature is low.

Such a conventional heating apparatus is driven by using fuel such as light oil or kerosene.

A conventional heating device burns fuel to raise the internal temperature of the greenhouse.

Carbon monoxide is generated in the combustion process and the generated carbon monoxide interferes with the growth of the crops in the vinyl house, so it must be discharged outside the vinyl house.

However, by discharging the internal air to the outside, heat loss occurs, and the thermal efficiency is lowered.

In addition, oxygen in the greenhouse is reduced by using oxygen in the air inside the greenhouse to burn light oil or kerosene.

As a result, crops in the greenhouses can not grow properly.

In addition, since oxygen in the plastic greenhouse is reduced, the room must be ventilated, and indoor air is ventilated, resulting in a problem of the internal temperature being lowered.

Therefore, there is a problem that more fuel must be consumed in order to raise the temperature inside the room.

Also, in case of using diesel or kerosene in the high oil price era, the maintenance cost for maintaining the heating device increases, which can cause a lot of damage to the farmhouse.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems, and it is an object of the present invention to provide a heating device which does not require ventilation by using a heating medium, can raise internal air quickly, There is a purpose.

A heating device in which heat exchangers are installed in parallel includes a first tank (110) in which a heating medium is accommodated; A heater 120 for heating the heating medium stored in the first tank 110; A first connection pipe P1 through which the heating medium of the first tank 110 is discharged; A heat exchanger 130 for dissipating heat of the heat medium received through the first connection pipe P1; A blowing fan 140 for discharging the heat radiated from the heat exchanger 130 to the outside; A second connection pipe (P2) through which the heat medium from which heat is dissipated is discharged from the heat exchanger (130); A circulation pump 150 for circulating the heating medium of the first tank 110; And a main body 160 on which the first tank 110, the heat exchanger 130 and the blowing fan 140 are mounted. The plurality of heat exchangers 130 are arranged in parallel.

In the heating device in which the heat exchanger of the present invention is installed in parallel, it is unnecessary to ventilate the room air by using the heating medium, the heat loss can be minimized, the room air can be raised quickly, A plurality of heat exchangers are installed in a parallel structure and heat exchange is performed at the same time, thereby shortening the circulation time of the heat medium.

1 is a schematic view of a heating apparatus in which a heat exchanger of the present invention is installed in parallel;
FIG. 2 is a schematic view of a first tank in which a heat exchanger of the present invention is installed in a heating device provided in parallel; FIG.
3 is a schematic diagram showing another embodiment of a heat exchanger installed in the heating apparatus of the present invention.
4 is an outline view of a fastening state of a heat exchanger installed in a heating device of the present invention;
Fig. 5 and Fig. 6 are views showing the state of use of the heat exchanger installed in the heating apparatus of the present invention. Fig.

A heating device in which heat exchangers are installed in parallel includes a first tank (110) in which a heating medium is accommodated; A heater 120 for heating the heating medium stored in the first tank 110; A first connection pipe P1 through which the heating medium of the first tank 110 is discharged; A heat exchanger 130 for dissipating heat of the heat medium received through the first connection pipe P1; A blowing fan 140 for discharging the heat radiated from the heat exchanger 130 to the outside; A second connection pipe (P2) through which the heat medium from which heat is dissipated is discharged from the heat exchanger (130); A circulation pump 150 for circulating the heating medium of the first tank 110; And a main body 160 on which the first tank 110, the heat exchanger 130 and the blowing fan 140 are mounted. The plurality of heat exchangers 130 are arranged in parallel.

A hub pipe (P4) having an internal space for receiving a heating medium is vertically connected to an end of the first connection pipe (P1), and a heat exchanger (130) is installed in the left and right direction of the hub pipe It is characterized by being connected in parallel.

The first tank 110 has an inlet 111 through which the heating medium flows into the upper side and an outlet 112 through which the heating medium flows out from the lower side of the first tank 110. On the left and right inner side walls, The barrier ribs 113 are formed in a zigzag shape. The heater 120 is inserted between the barrier ribs 113 from the outside of the side walls.

A casing 114 made of a metal having excellent thermal conductivity is inserted into the side surface of the first tank 110 and a heater 120 is installed inside the casing 114 to indirectly heat the heating medium Feature.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings, in which a heat exchanger in which heat exchangers are installed in parallel.

1 is a schematic view of a heating apparatus according to the present invention.

1, a heating apparatus 100 according to the present invention includes a first tank 110 in which a heating medium is accommodated in a main body 160 having an inner space formed thereon, a heating medium 110 accommodated in the first tank 110, A heat exchanger 130 for dissipating heat of the heating medium, a blowing fan 140 for dissipating the heat radiated from the heat exchanger 130, a circulation pump 150 for circulating the heating medium, ). ≪ / RTI >

That is, a first tank 110 in which a space for storing a heating medium is formed is installed on the upper side of the main body 160, and a heater 120 for heating the heating medium stored in the first tank 110 is mounted have.

The installation relationship between the first tank 110 and the heater 120 will be described later.

The first tank 110 is provided with a first connection pipe P1 through which the heating medium is discharged and the heating medium is received by the heat exchanger 130 through the first connection pipe P1 to radiate heat do.

At this time, the blowing fan 140 is mounted on the upper side of the heat exchanger 130 to discharge the heat radiated from the heat exchanger 130 to the outside.

And a second connection pipe (P2) through which the heat medium from which the heat is radiated is discharged from the heat exchanger (130).

The third connection pipe P3 is connected to the second connection pipe P2 so that the heating medium is transferred to the first connection pipe P1 and the second connection pipe P2 and the third connection pipe P3 are connected to the second connection pipe P2, And a circulation pump 150 is provided between the first pump P3 and the second pump P3.

Accordingly, the circulation pump 150 can continuously circulate the heating medium.

In particular, a plurality of the heat exchangers 130 are arranged in parallel, and the heated air can be simultaneously discharged through the blowing fan 140 in a large area.

That is, the first connection pipe P1 is connected to the hub pipe P4 in which the inner space in which the heating medium is received is upright, and the heat exchanger 130 is connected to the first connection pipe P1 in the left- They are connected in parallel.

The heat medium coming out from the plurality of heat exchangers 130 is circulated through the second connection pipe P2 and the third connection pipe P3.

The plurality of wheels (170) are mounted on the heights of the main body (160) to improve the mobility.

The second water tank 180 has a first tank 180 in which refrigerant is stored on one side of the main body 160 and a water pipe P6 in which the refrigerant is discharged from the second tank 180, And the inlet pipe P7 is connected to the second connection pipe P2 so that the refrigerant can be supplied to the second tank 180. [

The first connection pipe P1, the second connection pipe P2 and the third connection pipe P3 are respectively connected with the control valves CV1 to CV5 at the portions where the water inlet pipe P7 and the water outlet pipe P6 are connected, ) To control the circulation of the heating medium or the refrigerant.

The heating medium moves from the first tank 110 to the hub pipe P4 through the first connection pipe P1 while the heating medium inside the hub pipe P4 flows into the through hole of the hub pipe P4, The heat exchanger 130 moves to the hub auxiliary pipe P5 through the heat exchanger H to dissipate heat through the heat exchanger 130. The heat medium having the heat dissipated in the heat exchanger 130 flows through the second connection pipe P2, And is again received into the first tank 110 through the pipe P3.

The refrigerant is discharged from the second tank 180 through the water discharge pipe P6 to the hub pipe P4 through the first connection pipe P1 and flows into the hub pipe P4 The refrigerant is transferred to the hub auxiliary pipe P5 through the through hole H of the hub pipe P4 and flows through the second connection pipe P2 and the third connection pipe P3 through the heat exchanger 130 And is received by the second tank 180.

The control valves CV1 to CV5 are appropriately opened and closed during the heating or cooling cycle, and the heating medium or the refrigerant circulates by driving the circulation pump 150. [

2 is a schematic view of a first tank installed in the heating apparatus of the present invention.

As shown in FIG. 2, the first tank 110 has an inlet 111 through which the circulating heating medium is introduced, and an outlet 112 through which the heating medium flows out. The partition walls 113 are spaced apart from each other by a predetermined distance in the vertical direction. The heaters 120 are inserted into the partition walls 113 from the outside of the side walls.

The temperature of the heat-exchanged heat medium obtained in the first tank 110 is about 134 ° C, and the temperature of the heat medium heated and discharged in the first tank 110 is about 170 ° C.

On the other hand, when the heat medium is insufficient, the heat medium is supplemented through the makeup water inlet 115.

Preferably, the makeup water inlet 115 is formed on the upper surface of the first tank 110.

Ethylene glycol (Ethylen Glycol) is used as the heating medium.

The ethylene glycol (ethylene glycol) used in the present invention is characterized in that the temperature rises rapidly when heated, and the cooling rate is slow when no external heating occurs.

On the other hand, the heating medium includes aluminum powder particles so as to shorten the latent heat enhancement and heating time, and about 100 nanometers are used so as to improve the mobility along the heating medium.

Particularly, a casing 114 made of a metal having a good thermal conductivity is inserted into the side surface of the first tank 110, and the heater 120 is installed inside the casing 114 to indirectly heat the heating medium Only the failed heater 120 can be exchanged without discharging the heating medium in the first tank 110 when the heater 120 fails.

Further, the heater is electrically driven, and a carbon electrode rod is preferably used to increase the thermal efficiency.

FIG. 3 is a schematic diagram of another embodiment of a heat exchanger installed in the heating apparatus of the present invention, and FIG. 4 is a schematic diagram of a fastening state of a heat exchanger installed in the heating apparatus of the present invention.

As shown in FIG. 3, a pair of flanges 190 are installed on the vertically upright hub pipe P4 at positions spaced apart from each other by a predetermined distance in the vertical direction, and a heat exchanger 130 are mounted.

Meanwhile, the heat exchanger 130 is formed with a ring-shaped fastening pipe 131 so as to be fastened to the hub pipe P4.

At this time, a plurality of through holes (H) penetrating inside and outside are formed on the circumferential surface of the hub pipe (P4) between the pair of flanges (190).

A through hole (not shown) is formed in the coupling ring pipe 131 so that the heating medium can move into the heat exchanger 130.

A plurality of bolt holes are formed on the thickness surface formed between the inner peripheral edge and the outer peripheral edge of the fastening annular pipe 131 so as to be spaced apart from each other by a predetermined distance in the circumferential direction.

Accordingly, the fastening pipe 131 is configured to be able to rotate about the hub pipe P4 as a center axis, and the heat exchanger 130 fastened to the fastening pipe 131 is positioned in a desired direction A plurality of bolt holes formed to penetrate the flange in the vertical direction and a plurality of bolt holes formed in the fastening ring pipe 131 are aligned with each other and then the bolts are inserted into the bolt holes to fix the heat exchanger 130.

Particularly, in order to facilitate connection and disconnection between the hub pipe P4 and the heat exchanger 130, the fastening ring pipe 131 has a semicircular first semicircular pipe 131a and a second semicircular pipe 131b To form a single circular shape.

In other words, a plate-like fastening plate 132 is protruded from the outer surface of the first semicircular annular pipe 131a and the second semicircular annular pipe 131b to form a circular shape, and the fastening plate 132 A bolt hole is formed and the bolt hole is inserted and fastened so that the first semicircular annular pipe 131a and the second semicircular annular pipe 131b form a circular shape and the fastening pipe 131 can rotate 360 degrees.

The first semi-circular annular pipe 131a is formed with a hub auxiliary pipe P5 for allowing the heating medium to flow into the heat exchanger 130. The hub auxiliary pipe P5 is divided into two, And a second flange 133 is formed on each joint surface to fasten the hub auxiliary pipe P5 divided as a bolt to each other.

At this time, the hub auxiliary pipe P5 and the heat exchanger 130, which are directly connected to the heat exchanger 130, are rotated around the hub auxiliary path P5 as a center axis to form a plurality of bolt holes So that the rotational direction of the heat exchanger 130 can rotate both in the horizontal direction and in the vertical direction.

5 and 6 are views showing the state of use of the heat exchanger installed in the heating apparatus according to the present invention. FIG. 5 is a schematic view illustrating a state in which a plurality of heat exchangers 130 are horizontally rotated to form respective heat exchangers 130 In FIG. 6, the heat exchanger 130 located on the left side is rotated in the direction A, which is the horizontal direction, and the heat bridge 130 located on the right side is rotated in the direction B, which is the vertical direction.

The heat exchanger 130 can be suitably used in various designs of the body 160 since the position of the heat exchanger 130 can be appropriately changed according to the shape of the body 160.

Therefore, the heating device in which the heat exchanger of the present invention is installed in parallel uses a heating medium, so that there is no need to ventilate the room air, heat loss can be minimized, room air can be raised quickly, The heat exchanger can be installed at various positions according to the internal structure of the main body, and the plurality of heat exchangers are installed in a parallel structure and heat exchanged at the same time, thereby shortening the circulation time of the heat medium.

100. Heating system
110. First tank 120. Heater 130. Heat exchanger
140. Blower fan 150. Circulating pump 160. Body
170. Wheel 180. Second tank 190. Flange
P1. First connector P2. Second connector P3. Third connector
P4. Hub tube P5. Hub auxiliary tube
111. Inlet 112. Outlet 113. Bulkhead
114. Casing 115. Replenishing water inlet
131. Fastening ring tube 131a. First semicircular annulus 131b. The second semicircular annulus
132. Fastening plate
CV1, CV2, CV3, CV4. Control valve
H. passage

Claims (3)

A first tank 110 in which a heating medium is accommodated; A heater 120 for heating the heating medium stored in the first tank 110; A first connection pipe P1 through which the heating medium of the first tank 110 is discharged; A heat exchanger 130 for dissipating heat of the heat medium received through the first connection pipe P1; A blowing fan 140 for discharging the heat radiated from the heat exchanger 130 to the outside; A second connection pipe (P2) through which the heat medium from which heat is dissipated is discharged from the heat exchanger (130); A circulation pump 150 for circulating the heating medium of the first tank 110; And a main body 160 on which the first tank 110, the heat exchanger 130 and the blowing fan 140 are mounted. The heat exchanger 130 includes a plurality of heat exchangers arranged in parallel In heating systems,
A hub pipe (P4) having an internal space for receiving a heating medium is vertically connected to an end of the first connection pipe (P1), and a heat exchanger (130) is installed in the left and right direction of the hub pipe Connected in parallel,
A pair of flanges 190 are installed on the vertically upright hub pipe P4 at positions spaced apart from each other by a predetermined distance in the vertical direction and a heat exchanger 130 is installed between the pair of flanges 190, The heat exchanger 130 is formed with a ring-shaped fastening pipe 131 so as to be fastened to the hub pipe P4. A heat medium is moved into the fastening pipe 131 through the heat exchanger 130 A through hole is formed in the through hole,
A plurality of through holes (H) penetrating the inside and outside are formed on the circumferential surface of the hub pipe (P4) between the pair of flanges (190), and a plurality of through holes (H) formed between the inner circumference and the outer circumference of the fastening ring pipe A plurality of bolt holes are formed in the circumferential direction so as to be spaced apart from each other by a predetermined distance in the circumferential direction so that the fastening pipe 131 can rotate around the hub pipe P4 as a central axis,
A plurality of bolt holes formed so as to pass through the flange in the vertical direction and a plurality of bolt holes formed in the fastening ring pipe 131 coincide with each other in a predetermined direction after the heat exchanger 130 fastened to the fastening ring pipe 131 is positioned in a desired direction, A bolt may be inserted into the bolt hole to fix the heat exchanger 130,
The first tank 110 has an inlet 111 through which the heating medium flows into the upper side and an outlet 112 through which the heating medium flows out from the lower side. Wherein the partition wall (113) is formed in a zigzag shape, and a heater (120) is inserted between the partition walls (113) from the outside to the inside of the side wall.
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