KR101233964B1 - Heating lamp for greenhouse - Google Patents

Abstract

PURPOSE: A heating lamp for a greenhouse is provided to generate heat through a heat pipe generating heat by a power source and to control the range where heat is released through wings of a fixing unit which fixes the heat pipe. CONSTITUTION: A heat pipe(10) is applied with the power source and generates heat. A fixing unit(20) is formed with wings(23) in order to control the angle emitting heat from the heat pipe. A transport unit(30) is combined to a fixture which is formed in the perpendicular direction of a fixing unit and guided along the fixture. A connection rod(40) is a dual structure of outer and inner pipes, controlling the revolution angle of the wings. A heating wire is applied with the power source and generates heat. A wrapper pipe is combined while covering the outside of the heating wire. The fixture is combined and fixed to the heating wire. A body(21) is combined to the fixture in the lower part, and has a fixing unit in a vertical direction. The wings are combined to the outside direction through hinge sections and circulated in the vertical direction. A coating layer is coated with a material which reflects the heat emitted from the heat pipe.

Description

Greenhouse Heat Lamps {HEATING LAMP FOR GREENHOUSE}

The present invention relates to a greenhouse heat lamp, and more specifically, a greenhouse for generating heat through a heat transfer pipe that generates heat through a power source, the heat radiation heat can be adjusted through the wing of the fixing portion to which the heat transfer pipe is fixed. It is about a heat radiation lamp.

In general, a greenhouse is a building which is equipped with a facility for raising internal temperature for the purpose of growing hot plants in the cold season and flowering and fruiting in seasons other than normal, that is, having a heating facility inside. Greenhouses such as plants and fruits are grown because these greenhouses are easy to manage.

On the other hand, in recent years there has been proposed a heat dissipation mechanism having a heat dissipation lamp installed inside the greenhouse to dissipate heat required for the growth of the crops to the crop.

The heat dissipation mechanism is generally composed of a heat sink which is installed inside the greenhouse, and a heat dissipation lamp that is provided in the reflector to generate heat to the crop.

However, when dew is generated in the greenhouse due to a temperature difference between the outside of the greenhouse and the inside of the greenhouse, there is a problem that dew may be introduced into the reflecting shade. .

In addition, when the reflection lamp and the greenhouse, in particular, the vinyl of the vinyl house is in contact with the temperature rise due to the heat dissipation lamp, there is not only a risk that the vinyl of the vinyl house is damaged, but there is also a concern that a fire may occur in the plastic house. there was.

Related prior art is Korean Patent No. 10-0908183.

The present invention generates heat through the heat transfer pipe that generates heat through the power source, can control the heat dissipation range through the wing of the fixing portion to which the heat transfer pipe is fixed heat dissipation for greenhouses that can concentrate heat emitted to the desired part It is for providing such.

The technical problems to be achieved by the present invention are not limited to the technical problems mentioned above.

Greenhouse heat dissipation lamp of the present invention for achieving the above object is a heat transfer pipe that is heated by receiving power, and the heat transfer pipe is fixed to the lower side, the wing so as to adjust the angle to release the heat of the heat transfer pipe It is connected to the fixed portion is formed, through the wing and the connecting rod of the fixing portion, may be coupled to the fixing portion formed in the vertical direction of the fixing portion may include a conveying portion guided along the fixing rod.

Specifically, the heating pipe may include a heating wire that generates heat by receiving power, and an outer tube that is coupled to surround the outer side of the heating wire.

The fixing unit, the fixing body is coupled to the heat transfer pipe is fixed, the body is coupled to the lower portion, the fixing body is formed in the vertical direction, coupled to the outer side of the body through the hinge portion in the vertical direction It may include a wing that is rotated.

The connecting rod is configured in a double structure can adjust the angle of rotation of the wing respectively.

The lower side of the fixing portion may be further formed with a coating layer coated with a material for reflecting heat emitted from the heat transfer pipe.

As described above, the present invention is composed of a heat transfer pipe and a fixed part to rotate the wings to release heat to a greenhouse or a plastic house to keep warm, and to set the range of heat is released through the wings to concentrate on the necessary part There is an advantage that can dissipate heat.

1 is an exploded perspective view showing the overall configuration of a heat radiation lamp for a greenhouse according to an embodiment of the present invention.
2 is a cross-sectional view showing the configuration of the heat transfer pipe according to the present invention.
Figure 3 is a perspective view showing the upper side of the greenhouse heat radiation lamp according to the present invention.
Figure 4 is a view showing the lower side of the greenhouse heat radiation lamp according to the present invention.
5 is a view showing the side of the greenhouse heat radiation lamp according to the present invention.
6 is an enlarged cross-sectional view of a portion 'A' of FIG. 5.
FIG. 7 is an enlarged view of a portion 'B' of FIG. 5.
8 is a view showing that the wings of the heat radiation lamp for greenhouses according to the present invention is rotated at each angle.
9 is a view showing a connecting rod consisting of a dual structure of a heat dissipation lamp for a greenhouse according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Like elements in the figures are denoted by the same reference numerals wherever possible. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

1 is a view showing a heating lamp for a greenhouse according to an embodiment of the present invention, the heat transfer pipe 10 for dissipating heat, the fixing portion 20 to which the heat transfer pipe 10 is coupled and fixed, and the fixing portion 20 It includes a transfer unit 30 for rotating the blade 23 of.

As shown in FIG. 2, the heating pipe 10 is configured to generate heat through power supplied from the outside, and is heated and connected to the heating wire 11 and the heating wire 11 that are heated by an external power source. It consists of an outer shell (12) to protect.

The outer shell 12 of the heat pipe 10 protects the heat wire 11 from external factors, and prevents a safety accident that may occur due to heat generated when the heat wire 11 heats. The sheath tube 12 is made of a metal material having high thermal conductivity. The envelope 12 is made of a material that is high in thermal conductivity, such as copper, of metal, and not rusted.

In addition, the heat transfer pipe 10 is arranged in a zigzag form, the corner portion is formed to be bent. As a result, the length of the heat transfer pipe 10 is long, so that a large amount of heat can be released at one time.

As shown in FIGS. 3 to 7, the heat transfer pipe 10 is coupled to the bracket 24 formed at the lower portion of the fixing part 20 through a combination of both ends.

The bracket 24 may be formed to be changed in size to correspond to the size of the fixing part 20 or the size of the heat transfer pipe 10.

The fixing part 20 is formed on the lower portion of the bracket 24 is coupled to the heat transfer pipe 10, the bracket 24 is coupled to the upper portion of the upper body, the fixing rod 22 is formed in the vertical direction on the upper side 21 and the wing 23 is rotated by being coupled to the outside of the body 21 via a hinge.

The body 21 is made of a metal material, the bracket 24 is coupled to the lower surface, and the holder 22 is formed in the vertical direction on the upper surface, the ceiling or such as a greenhouse or vinyl house through the holder 22 It is installed on the wall.

The outer surface of the body 21 is coupled to the wing 23 is composed of a plurality of hinges, the wing 23 is rotated as necessary, the heat emitted from the heat transfer pipe 10 a wide range or narrow range Allow heat dissipation.

The transport unit 30 is coupled to the holder 22 of the body 21 and guided along the holder 22 to be elevated.

The transfer part 30 is hinged through the wing 23 and the connecting table 40 to adjust the angle of the wing 23 at the same time by lifting.

At this time, as shown in FIG. 6, the fixing groove 22 of the body 21 is formed with a fixing groove 25 so that the position is fixed after the transfer part 30 is lifted, so as to correspond to the fixing groove 25. A fixing protrusion 31 is formed on the inner surface of the transfer part 30 and inserted into the fixing groove 25.

Referring to the method for fixing the height of the holder 22 and the transfer unit 30 for an embodiment as follows.

The fixing groove 25 may be formed in the form of a tooth in which the inclination is formed in the downward direction, the fixing projection 31 of the transfer part 30 is formed to be inclined upward to correspond to this is inserted and fixed in the fixing groove (25). .

When the fixing protrusion 31 of the transfer part 30 is separated, the fixed protrusion 31 is rotated by pressing one side of the fixing protrusion 31, and thus, the fixing protrusion 31 is separated from the fixing groove 25. You can do that.

And, the following describes a method for fixing the height of the fixing table 22 and the transfer unit 30 as follows.

A fixing hole (not shown) is formed in place of the fixing groove 25 in the holder 22, and a through hole (not shown) is formed in the transfer part 30 so as to penetrate the fixing hole (not shown). It can also be fixed with).

As described above, in addition to the fixing method of the fixing table 22 and the conveying unit 30, it is possible to use a fixing structure of another method according to the convenience of use.

In addition, the plurality of wings 23 coupled to the body 21 through the hinge has a connecting structure 40 connected to the transfer part 30 so as to adjust the respective rotation angles as necessary in a double structure.

8 to 9, the connecting table 40 is configured as a double structure of the outer tube 41 and the inner tube 42 is connected to the conveying unit 30 on one side by a hinge, the body 21 on the other side It is connected to the wing 23 and the hinge of the) to adjust the angle of each wing 23 is rotated by adjusting the length of the connecting table (40).

At this time, the fixing member 44 is formed to be fixed to the adjusted length after the length of the connecting table 40 is adjusted to fix the length of the connecting table 40.

One embodiment for adjusting the length of the connecting table 40 to be fixed through the fixing body 44 is a projection protrusion 44 is formed on the outside of the inner tube 42 is transferred through an elastic body inserted into the interior, such said A plurality of insertion holes 43 are formed in the exterior 41 to insert the protrusions 44 so that the length of the connecting table 40 is fixed because the protrusions 44 are inserted.

When the length of the connecting table 40 is adjusted again, the length may be adjusted by detaching from the insertion hole 43 by pressing the protrusion 44.

In addition, this embodiment of fixing the fixing member 44 by adjusting the length of the connecting table 40 forms an insertion hole 43 so that the exterior 41 and the inner tube 42 pass through the fixing pin (not shown). ) Can be configured to be inserted and fixed.

In this way, in addition to adjusting the length of the connecting table 40, it is possible to use the length adjustment structure of another method according to the convenience of use.

As shown in FIG. 7, a coating material may be coated on the lower side of the fixing part 20 so that the heat emitted from the heat transfer pipe 10 is reflected to be emitted to the lower side, thereby forming a coating layer 26.

The coating material constituting the coating layer 26 is made of a metal or glass material that reflects heat.

When the coating material is coated on the fixing part 20, the coating material may be coated on the fixing part 20 by an electroplating method or a low temperature spraying method or a heat fusion method.

A heat dissipation fan (not shown) may be coupled between the fixed part 20 and the heat transfer pipe 10 of the present invention configured as described above to release the heat of the heat transfer pipe 10 through the wind.

The present invention configured as described above is composed of a heat transfer pipe and a fixed part that the wing is rotated to release heat to a greenhouse or a plastic house to keep warm, and to set the range of heat is released through the wing to concentrate heat on the necessary part There is an advantage to heat dissipation.

Such a greenhouse heating lamp is not limited to the configuration and operation of the embodiments described above. The above embodiments may be configured such that various modifications may be made by selectively combining all or part of the embodiments.

10: heating pipe 11: heating wire
12: envelope
20: fixed part 21: the body
22: holder 23: wings
24: bracket 25: fixing groove
26: coating layer
30: transfer unit 31: fixing protrusion
40: connecting rod 41: appearance
42: inner tube 43: insertion hole
44: protrusion

Claims (5)

Heat transfer pipe that is heated by receiving power;
A fixing part in which the heat transfer pipe is fixedly coupled to the lower side and a wing is formed to adjust an angle of dissipating heat of the heat transfer pipe; And
It is connected through the blade and the connecting rod of the fixing portion, coupled to the fixing member formed in the vertical direction of the fixing portion;
The connecting rod is composed of a dual structure of the outer tube and the inner tube heating lamp for adjusting the angle of rotation of the wing, respectively.
The method according to claim 1,
The heating pipe is a heating wire that generates heat by receiving power;
A heating lamp for a greenhouse, including; an outer shell wrapped around the outside of the heating wire and coupled thereto.
The method according to claim 1,
The fixing unit includes:
A fixed body to which the heat transfer pipe is coupled and fixed;
The body is coupled to the lower portion, the body is the holder is formed in the vertical direction;
Greenhouse lamp including a; coupled to the outer side of the body through the hinge portion is rotated in the vertical direction.
delete The method according to claim 1,
Greenhouse heating lamp is formed on the lower side of the fixing portion is further formed with a coating layer coated with a material for reflecting heat emitted from the heat transfer pipe.

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