KR100908838B1 - Hot blast heater and heat-radiating structure thereof - Google Patents

Abstract

A heater and a radiating structure of the same are provided to increase the heat emission efficiency without increasing the rotation number of a fan. A heater comprises: a pipe in which a hotwire of the heater is adopted inside. A plurality of radiating member mounted at the exterior of the pipe; a blowing fan(40) installed at the front of the pipe, rotating with a motor in order to send the heat emitted from the radiating member to the pipe rear side; and a mixing fan(50) installed at the rear side of the pipe.

Description

Heat dissipation structure of hot air fan and hot air fan {HOT BLAST HEATER AND HEAT-RADIATING STRUCTURE THEREOF}

The present invention relates to a heat dissipation structure of a warm air fan and a warm air fan, and more particularly, to a heat dissipation structure of a heat blower and a warm air blower capable of evenly dissipating heat at an appropriate temperature and reducing noise of a blowing fan.

A warm air fan refers to a device that heats a room or a building by using heat radiation and convection of a heater. Heaters are used to heat not only rooms and buildings but also plastic houses. Agricultural warmers are used to maintain the temperature required for the growth of crops and the temperature required for the type of crop.

However, the conventional agricultural air blower blows heat generated from the heater and discharges the heat directly to the outside, so that high temperature heat is generally discharged from the front side of the heat blower. Therefore, the crop near the warm air had a problem that the growth of the dry crop is reduced.

In addition, since the heat generated from the heater is uneven, the temperature of the air does not rise evenly, there is a problem that prevents the balanced growth of the crop.

In addition, because the blower fan is excessively turned in order to send heat away with one blower fan, the fan noise is severe, causing noise and stress to crops and farmers.

The present invention has been made to solve the above problems, it is to ensure that the heat of the appropriate temperature is stably discharged from the hot air fan.

In addition, an object of the present invention is to allow the heat generated in the heater of the hot air fan to be evenly discharged.

In addition, an object of the present invention is to reduce the fan noise of the hot air heater while the heat of the heater is transmitted far.

To this end, the present invention is a pipe containing a heating wire of the heater therein, a plurality of heat dissipation member installed on the outer surface of the pipe, and installed in the front of the pipe blower to send heat emitted from the heat dissipation member to the rear of the pipe It provides a hot air fan comprising a fan and a mixing fan installed on the rear of the pipe and the air not passed through the heat radiating member and the heat sent by the blowing fan to discharge to the outside.

In addition, the present invention includes a heater having a heating wire and a heat dissipation tube having an insertion hole for receiving the heating wire, inserting the heating wire in the insertion hole of the heat dissipation tube, and filling the insulator in the space remaining in the insertion hole The insulator provides a heat dissipation structure of a warm air fan to improve heat conduction from the hot wire to the heat dissipation tube.

As described above, the present invention has the effect that the heat can be evenly spread in the air by attaching a heat radiating member to maximize the contact area with the air.

In addition, the present invention has an effect that the mixing fan is installed in a portion where the heat is discharged to the outside to mix the heat of the heat radiating member and the air without passing through the heat radiating member to emit heat of a proper temperature.

In addition, the present invention can reduce the noise caused by the fan because the rear fan is rotated by the rotation of the front fan, the rear fan can release the heat of the inside to the outside, so that the number of rotation of the fan does not increase as conventionally. It works.

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

1 shows a case of a warm air heater according to the present invention.

As shown in FIG. 1, the case 10 of the hot air blower includes a cylindrical main body case 11 in which various parts are built, and a base for supporting the main body case 11 while maintaining the main body case 11 at a constant height. It consists of the members 12 and 13. Although not shown in FIG. 1, an operation control panel (see FIG. 6) including a power switch and a display for displaying various temperatures is provided on the outside of the support member 12 on the front, and therein, an operation and display of the heater is provided. Parts for control are installed.

Figure 2 shows a heater used in the warm air heater according to the present invention.

As shown in FIG. 2, the heater 20 includes a heating wire 21 accommodated in the longitudinal direction inside the body case 11 and dissipating heat, a power line and a heating wire for supplying power to the heating wire 21. It consists of a heater line 22 including a sensor line for transmitting a temperature value of a temperature sensor (not shown) installed in (21). Heater 20 according to an embodiment of the present invention may be heated up to 1300 ℃.

Figure 3 shows a heat dissipation tube used in the warm air heater according to the present invention.

As shown in FIG. 3, the heat dissipation tube 30 is composed of a pipe 31 into which the heating wire 21 of the heater 20 is inserted, and a plurality of heat dissipation members 32 installed on the outer surface of the pipe 32. do.

In the embodiment of the present invention, the pipe 31 is divided into six equal parts in the longitudinal direction, and the eight heat dissipation members 32 are radially installed at regular intervals along the outer circumferential surface of the pipe 31 for each equal part. The heat dissipation member 32 is staggered between adjacent equal parts, and when viewed as a whole, the heat dissipation member 32 is provided in a zigzag along the longitudinal direction of the pipe 31. In this way, the heat dissipation member 32 may be alternately installed to maximize contact with the air. When the contact with the air is maximized, the heat from the heat dissipation member 32 can be evenly spread in the air.

4 shows the heat dissipation tube 30 in which the heater 20 is inserted.

As shown in FIG. 4, the heating wire 21 of the heater 20 is inserted into the pipe 31 of the heat dissipation tube 30. At this time, the cap 23 is attached to the connection portion between the heating wire 21 and the heater line 22 so that the heating wire 21 is fixed to the pipe 31 when the heating wire 21 is inserted into the pipe 31. At the same time, the insertion opening of the pipe 31 can be sealed. That is, the upper cap 23a is attached to the upper portion of the heating wire 21 and the lower cap 23b is attached to the lower portion of the heating wire 21, and then the heating wire 21 is inserted into the pipe 31 to the end. The insertion hole of the pipe 31 is sealed while the heating wire 21 is fixed by the stepped portion 231.

Looking at the cross section of the pipe 31 into which the heating wire 21 is inserted, the heat transfer member 31a which is in contact with the heating wire 21 on the inner wall of the pipe 31 to transfer the heat of the heating wire 21 is connected to the pipe 31. It is installed in the longitudinal direction of. The insulator 33 is filled in the space except for the portion occupied by the heat transfer member 31a in the pipe 31 to improve thermal conductivity.

In the embodiment of the present invention, high purity magnesium oxide is used as the insulator 33 having high thermal conductivity. After filling the remaining space of the pipe 31 with magnesium oxide and pressing the end of the pipe 31 with the finishing bolt 34, the magnesium oxide press-filled from the outer surface of the heating wire 21 to the inner wall of the pipe 31 is Efficiently transfer the heat of the heating wire 21 to the outside of the pipe 31.

5 shows a fan installed on the front and rear surfaces of the main body case 11 of the warm air fan.

As shown in FIG. 5, a blowing fan 40 is installed at the front of the main body case 11, and a mixing fan 50 is installed at the rear of the main body case 11. The blowing fan 40 is rotated by the motor 60 and the mixing fan 50 is rotated by the wind generated by the rotation of the blowing fan 40.

The blowing fan 40 sends heat emitted from the heat dissipation tube 30 to the rear of the main body case 11, and the mixing fan 50 sends heat sent by the blowing fan 40 and air not passing through the heat dissipation tube 30. Mix and discharge to the outside. Conventionally, the heat emitted from the hot wire is not evenly mixed with air, but in the present invention, since the heat emitted from the heat dissipation tube 30 by the mixing fan 50 is better mixed with air, the heat of a constant temperature is evenly distributed. It can be released and the distance over which heat is released also increases.

6 shows the overall structure of a warm air fan according to the present invention.

As shown in FIG. 6, the front of the main body case 11 is provided with a motor 60 and a blowing fan 40 rotating by the motor 60, and the rear surface of the main body case 11 is generated by the rotation of the blowing fan 40. The mixing fan 50 which rotates by the wind to be installed is provided, and the heat dissipation tube 30 in which the heater 20 was accommodated is provided in the center.

The inner wall of the main body case 11 is provided with a bimetal 24 for sensing the surface temperature of the main body case 11. The bimetal 24 is deformed when the surface temperature of the main body case 11 is 80 ° C to 120 ° C to block power supply to the heater 20.

In addition, a bracket 72 for fixing the heat dissipation tube 30 is provided on the inner wall of the main body case 11. Bracket fasteners 35 are also provided on the heat dissipation plate 32 of the heat dissipation tube 30, and the heat dissipation tube 30 is formed inside the body case 11 by the combination of the bracket 72 and the bracket fasteners 35. Can be fixed at

Inside the front pedestal 12 of the main body case 11, a control unit 70 for controlling the operation of the warm air fan is provided. The controller 70 includes a printed circuit board, and a bimetal line 25 connected to the bimetal 24 and a heater line 22 connected to the heater 20 are connected to the printed circuit board. In addition, the front of the main body case 11 is provided with a temperature sensor 71 for measuring the indoor temperature, the temperature sensor 71 is connected to the control unit 70.

The control unit 70 receives the heater 20 temperature value and the room temperature value from the temperature sensor, and stops the power supply to the heater 20 when the temperature value exceeds a predetermined temperature value, and the heater temperature, the room temperature, and the setting value. Various functions such as room temperature are controlled to be displayed on the display 81. In addition, the control unit 70 controls the operation of the motor 60 for rotating the blowing fan 40.

The operation control panel 80 and the breaker 90 are provided outside the front pedestal 12. The breaker 90 is a switch for forcibly terminating the operation of the warm air fan. The operation control panel 80 includes a display 81 for displaying heater temperature, room temperature, and room setting temperature, a power button 82 for power supply, a temperature control button 83 for setting room temperature, and a setting button ( 84). Although not shown in the operation control panel 80, there may be provided a lamp for displaying various operating conditions of the hot air heater, such as a heater operation lamp, a blow operation lamp, a temperature overheat state display lamp.

Look at the operation of the warmer configured as described above.

When the warmer is operated by pressing the power button 82 of the warmer, the heater 20 is heated and the heat of the heater 20 is released to the outside by the blowing fan 40 and the mixing fan 50. As the heat is released to the outside, the room temperature of the house is increased, and when the room temperature is higher than the set temperature, the power supplied to the heater 20 is cut off.

Even if the room temperature is lower than the set temperature, the temperature of the heating wire 21 of the heater 20 exceeds the overheat cutoff temperature (eg, 300 ° C.) or the temperature of the body case 11 is a bimetal deformation temperature (eg, 80 ° C.), the power supplied to the heater 20 is cut off.

Even when the power supplied to the heater 20 is cut off, the power supply to the motor 60 is not immediately stopped. That is, when the operation of the heater 20 is stopped, the motor 60 repeatedly performs the operation of, for example, continuing the operation for 10 minutes and stopping for 5 minutes. This is to keep the internal air circulation by the blowing fan 40 while releasing the remaining heat to the outside even when the operation of the heater 20 is stopped.

Those skilled in the art can improve or change the technical idea of the present invention in various forms. Therefore, it should be understood that the embodiments of the present invention described with reference to the drawings should not be construed as limiting the technical spirit of the present invention, and the protection scope of the present invention is limited only by the matters described in the claims.

1 is a view showing a case of the warmer according to the present invention.

2 is a view showing a heater used in the warm air heater according to the present invention.

Figure 3 is a view showing a heat dissipation tube used in the warm air heater of the present invention.

4 is a view showing a heat radiation tube in which a heater is accommodated.

5 is a view showing a fan installed on the front and rear surfaces of a main body case of a warm air fan.

6 is a view showing a warm air fan according to the present invention.

Description of the main parts of the drawing

10: case 11: body case

12: front support member 13: rear support member

20: heater 21: heating wire

22: heater line 23: cap

24: bimetal 25: bimetal line

30: heat dissipation tube 31: pipe

32: heat dissipation member (heat sink) 33: insulator

34: closing bolt 35: bracket fastener

40: blowing fan 50: mixing fan 60: motor

70 control unit 71 temperature sensor 72 bracket

80: operation control panel 90: breaker

Claims (15)

A pipe in which a heating wire of a heater is accommodated, A plurality of heat dissipation members installed on an outer surface of the pipe, A blowing fan installed at the front side of the pipe and rotating by a motor to send heat emitted from the heat dissipation member to the rear side of the pipe; And a mixing fan installed at a rear side of the pipe to rotate by wind generated by the rotation of the blowing fan to mix air not passed through the heat radiating member and heat sent by the blowing fan to discharge to the outside. Heater made with. The method of claim 1, And the heat dissipation member is provided at predetermined intervals in the longitudinal direction of the pipe. The method according to claim 1 or 2, The heat radiating member is disposed radially with respect to the pipe. The method of claim 1, And a power supply to the heater is stopped when the temperature of the heater is equal to or greater than a first temperature value. delete The method of claim 1, And a case accommodating the pipe, the heat dissipation member, the blowing fan, and the mixing fan therein, And a power supply to the heater is stopped when the surface temperature of the case is greater than or equal to a second temperature value. delete The method of claim 6, The operation control panel is installed on the front of the case, The operation control panel includes a power switch for supplying power to the warm air fan; And a display for displaying the heater temperature, the room temperature, and the room set temperature. The method according to claim 4 or 6, When the power supply to the heater is stopped, the blower fan is rotated for a predetermined time, the operation of repeating the operation is repeated. A pipe in which a heating wire of a heater is accommodated, A plurality of heat dissipation members installed on an outer surface of the pipe, A blowing fan installed at the front of the pipe to send heat emitted from the heat radiating member to the rear of the pipe; A mixing fan installed at a rear side of the pipe to mix air not passed through the heat radiating member and heat sent by the blower fan to be discharged to the outside; Including a case for receiving the pipe, the heat dissipation member, the blowing fan and the mixing fan therein, The operation control panel is installed on the front of the case, A motor for rotating the blower fan is installed in the front opening of the case, wherein the blower fan is rotated by the motor and the mixing fan is rotated by wind generated by the rotation of the blower fan. delete delete delete delete delete

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