KR102381878B1 - Far-infrared Radiation Dry Heater - Google Patents

Abstract

The present invention relates to a pressure-resistant and explosion-proof structure type far-infrared radiation heat sink dry heater and, more specifically, to a pressure-resistant and explosion-proof structure type far-infrared radiation heat sink dry heater with a safe structure capable of preventing a danger of explosion even in an industrial environment where an explosive gas exists since the temperature of all exposed components does not exceed a predetermined temperature (for example, 300 ℃). The pressure-resistant and explosion-proof structure type far-infrared radiation heat sink dry heater comprises: a heater rod (10) radiating heat by electric resistance by an electric force and having a long rod shape; a heat sink unit (20) accommodating the heat by heat conduction caused by a contact with the heater rod (10) inserted into a heater rod insertion hole (22) and having a plurality of radiation fins (23) in the rear, wherein the heat sink unit (20) has a flat rectangular plate shape; a rear case (30) protecting the rear of the heat sink unit (20) and supporting both sides of the heat sink unit (20); a thin plate-shaped reflecting plate unit (40) positioned between the rear case (30) and the heat sink unit (20) and reflecting the heat radiated from the rear of the heat sink unit (20) forward; a first fixing unit (50) supporting one side of the heat sink unit (20) to one side of the rear case (30); and a second fixing unit (60) fixing the other side of the heat sink unit (20) to the other side of the rear case (30).

Description

Pressure-proof explosion-proof structure type far-infrared heat sink dry heater { Far-infrared Radiation Dry Heater }

The present invention has excellent radiation efficiency and the temperature of all exposed parts does not exceed a certain temperature, for example (300 ° C), so that the safe structure of a pressure-resistant explosion-proof structure type far infrared ray that prevents the risk of explosion in advance even in an industrial environment where explosive gas may exist It relates to a heat sink drying heater.

Registered Utility Model 20-0476921 Far-infrared drying heater for painting booth is installed with a plurality of sheath heaters in which a heating coil is charged together with an insulator inside the heating pipe, inserted into the inside of the heater case, and the opening of the heater case is installed. A safety net is installed on the front surface, the sheath heater becomes a far-infrared heater with a ceramic coating layer formed on the outer surface of the heating pipe, and a reflector is installed between the far-infrared heater and the heater case, and the reflector has a far-infrared heater inside It is installed in the shape of a tray to be accommodated, and a support plate for reinforcing and heat blocking of the reflector is installed between the reflector and the heater case, and a wiring for the electric wiring between the connection terminal of the far-infrared heater and the main cable at the lower part of the heater case In the box-installed drying heater, the wiring box includes a case body having an open front surface, a sealing packing installed along the front side of the case body, and a front surface of the case body with the sealing packing interposed therebetween. It becomes an explosion-proof case consisting of a case cover that is assembled and installed in, and a heater mounting part and a cable connector are provided at the lower end of the far-infrared heater and the main cable as an explosion-proof sealing means that is detachably assembled in a mounting hole formed in the case body of the explosion-proof case. The heater mounting part and the cable connector are fastened with a mounting tube having a packing head formed at one end of the bolt part inserted into the case body of the explosion-proof case along the mounting hole, and the bolt part of the mounting tube inside the case body of the explosion-proof case. It is made of a binding nut that attaches the packing head to the outer surface of the case body, and a ventilation passage for dry air is formed between the reflector and the heater case, while the reflector portion corresponding to the rear side of the far-infrared heater has a plurality of Disclosed is a far-infrared drying heater for a painting booth, characterized in that a blower hole is formed, and a blower for supplying dry air to the ventilation passage is installed on the upper side of the heater case.

The present invention has excellent radiation efficiency and the temperature of all exposed parts does not exceed a certain temperature, for example (300 ° C), so that the safe structure of a pressure-resistant explosion-proof structure type far infrared ray that prevents the risk of explosion in advance even in an industrial environment where explosive gas may exist It relates to a heat sink drying heater.

The pressure-resistant explosion-proof structure type far-infrared heat sink drying heater of the present invention includes a heater rod 10 that is heated by electrical resistance by electric force in a long rod shape; Heat is received by heat conduction by contact from the heater rod 10 inserted into the heater rod insertion hole 22, and a plurality of heat radiation fins 23 are installed at the rear, and a heat sink portion forming a rectangular flat plate shape. (20) and;

a rear case 30 protecting the rear of the heat sink unit 20 and supporting both sides of the heat sink unit 20; a thin plate-shaped reflector 40 positioned between the rear case 30 and the heat sink unit 20 to reflect the heat radiated from the rear of the heat sink unit 20 to the front;

a first fixing unit 50 for supporting one side of the heat sink unit 20 to one side of the rear case 30; and a second fixing means (60) for fixing the other side of the heat sink unit (20) to the other side of the rear case (30).

In the pressure-resistant explosion-proof structure-type far-infrared heat sink dry heater of the present invention, the heat sink portion 20 includes a rectangular heat sink body portion 20a, and an insertion hole forming wall portion 21 formed to protrude from the center in the horizontal direction in the rear direction and , A heater rod insertion hole 22 that is formed to penetrate from one side to the other inside the insertion hole forming wall portion 21;

It is configured to include a plurality of heat dissipation fins 23 that are continuously protruded from one side to the other side in the horizontal direction in a state spaced apart at regular intervals, and is preferably manufactured by extrusion.

According to the present invention, with excellent radiation efficiency, the temperature of all exposed parts does not exceed a certain temperature, for example (300° C.), so that even in an industrial environment where explosive gas may exist, the pressure-resistant structure of a safe structure that prevents the risk of explosion in advance An explosion-proof structure type far-infrared heat sink drying heater is provided.

1 is an exploded perspective view of the entire explosion-proof structure type far-infrared heat sink dry heater of the present invention.
2 is a detailed view of a heat sink and a heater rod according to an embodiment of the present invention.
Figure 3 is a detailed view of the reflector and the intermediate support according to an embodiment of the present invention.
4 and 5 are detailed views of a first fixing means according to an embodiment of the present invention.
6 and 7 are detailed views of a second fixing means according to an embodiment of the present invention.

Hereinafter, a pressure-resistant explosion-proof structure type far-infrared heat sink dry heater according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. 1 is an exploded perspective view of the entire explosion-proof structure type far-infrared heat sink dry heater of the present invention, FIG. 2 is a detailed view of a heat sink and a heater rod according to an embodiment of the present invention, and FIG. 3 is a reflector and intermediate paper according to an embodiment of the present invention A detailed view of the earth, FIGS. 4 and 5 are detailed views of a first fixing means according to an embodiment of the present invention, and FIGS. 6 and 7 are detailed views of a second fixing means according to an embodiment of the present invention.

1 to 6, the pressure-resistant explosion-proof structure type far-infrared heat sink dry heater according to an embodiment of the present invention includes a heater rod 10, a heat sink portion 20, a rear case 30, and a reflector portion 40. and a first fixing means 50 and a second fixing means 60 .

As shown in Fig. 2 (a, b, c), the heater rod 10 is a long rod-shaped heat is generated by electrical resistance due to electric force. The electric power causes the heater rod to be heated and is preferably configured in the shape of a circular rod. The outside is a metal material and the inside generates electrical resistance heat. In the embodiment, the temperature of the heater rod rises to 700 ~ 1000 ℃. Although this heat is radiated through the heat sink, it was confirmed that the temperature of the exposed parts did not exceed 300-400°C because the heater rod was configured in a form that was not directly exposed to air.

As shown in FIGS. 1 and 2 (a, b, c), the heat dissipation plate 20 is formed by heat conduction by contact from the heater rod 10 which is interpolated into the heater rod insertion hole 22 . To accommodate the heat, a plurality of heat dissipation fins 23 are installed on the rear side, and form a rectangular flat plate shape. The rear case 30 protects the rear of the heat sink unit 20 and supports both sides of the heat sink unit 20 .

1 to 3, the reflector 40 is positioned between the rear case 30 and the heat sink 20 to reflect the heat radiated from the rear of the heat sink 20 to the front. is formed with The middle of the reflecting plate part 40 is cut, and the middle supporter 70 is inserted therein, so that the body plate 71 is fixed to the rear case 30 by a fixing screw 72 . Since the intermediate support member 70 is assembled in a state in which an insulating pad (not shown) is inserted when supported by the rear case 30 , the heat of the heat sink unit 20 is hardly transmitted to the rear case 30 .

As shown in Figure 2 (a, b, c), the heat sink portion 20, the heat sink body portion (20a) of a rectangular shape, and the insertion hole forming wall portion 21 formed to protrude in the rear direction in the horizontal direction in the central portion ) and the heater rod insertion hole 22 that is formed to penetrate from one side to the other inside the insertion hole forming wall portion 21, and continuously protrudes from the back side from one side to the other side in the horizontal direction in a state spaced apart at regular intervals It is configured to include a plurality of heat dissipation fins 23 to be formed. The heat sink of the present invention is preferably manufactured by extrusion.

1, 2 (a, b, c), as shown in Fig. 3, the heat sink 20 in the horizontal direction by the transverse protrusion pieces 26a formed on both sides of the insertion hole forming wall portion 21 An intermediate support for supporting the rear middle of the heat sink 20 in a state in which a support insertion groove 26 is formed, and the body plate 71 is fixed to the rear case 30 by a fixing screw 72 . (70); further includes. The intermediate support member 70 includes two insertion blades 75 that are horizontally horizontal on the upper portion of the body plate 71, and the support insertion groove 26 is inserted into the insertion blade 75 to form a heat sink unit. (20) is supported by the intermediate support (70) in a slidable state.

<Sliding type first fixing means>

1 , 4 and 5 , the first fixing means 50 supports one side of the heat sink unit 20 on one side of the rear case 30 . The first fixing means 50 includes a first inner fixing bracket 51 that is combined with the heat sink 20 by fixing screws 51a being guided and fixed to the heat sink auxiliary groove 21b, and a first inner fixing bracket. It is formed to protrude outward in the transverse direction of the first outer support bracket 55 and includes two guide pieces 52 that are inserted and slid into the guide groove 55a of the first outer support bracket 55 .

Here, additionally, the first outer support bracket 55 has a lower portion fixed to the rear case 30 while covering the first inner fixing bracket 51 and includes a support through hole 55b. The sliding closing cap 57 has an end spirally coupled to the heat sink spiral portion 21a of the insertion hole forming wall portion 21 to be combined with the heat sink portion 20, and the body is slidably supported in the support through hole 55b. protrude

4 and 5, the first fixing means 50 is configured to further include a preliminary closing cap (70). The preliminary closing cap 70 is concealed inward while spirally engaged with the heat sink spiral portion 21a, and the inner tip of the sliding type closing cap 57 is spirally coupled to the heat sink spiral portion 21a on the outside, and enters the inside. By doing so, one end of the heater rod 10 is double shielded.

<Second fixing means>

1 , 6 and 7 , the second fixing means 60 fixes the other side of the heat sink unit 20 to the other side of the rear case 30 .

The second fixing means 60 includes a second inner fixing bracket 61 that is combined with the heat sink 20 by being press-inserted and fixed by the fixing screw p1 being guided to the heat sink auxiliary groove 21b, and the second inside It is formed to protrude outward in the horizontal direction of the fixing bracket 61 and includes two fixing protrusion pieces 62 to which the screw p2 is press-fitted and fixed.

In addition, the second fixing means 60 is a second outer support bracket ( 65), and spiral portions are formed at both ends, and the ends are spirally coupled to the heat sink spiral portion 21a of the insertion hole forming wall portion 21 to be combined with the heat sink portion 20, and the body protrudes through the second support through hole and a hollow connection cap 67 from which a wire for supplying electric power to the heater rod 10 is drawn out.

1, 6, and 7, it is configured to further include a hollow outer protective cap 69 coupled to the outer spiral portion of the hollow connecting cap 67, and The electric wire 12 is drawn out through the hollow portion 69a and the remaining space is finished with plaster to prevent heat leakage from the heater rod.

1, a flexible coupling 81 for covering the electric wire 12 is provided to increase the durability of the electric wire 12, and a safety net 85 is further provided in front of the heat sink unit 20 and , a side housing is further provided on the side of the heat sink unit 20 .

Although the present invention has been described with reference to the above-mentioned preferred embodiments, the scope of the present invention is not limited to these embodiments, and the scope of the present invention is defined by the following claims and is equivalent to the present invention various modifications and variations pertaining to

The reference numerals described in the claims below are merely to aid the understanding of the invention and do not affect the interpretation of the scope of rights.

10: heater rod
20: heater rod insertion hole
30: rear case
40: reflector part
50: first fixing means
60: second fixing means
70: middle support

Claims (8)

delete delete delete A heater rod 10 that is heated by electric resistance due to electric force in the shape of a long rod;
Heat is received by heat conduction by contact from the heater rod 10 inserted into the heater rod insertion hole 22, and a plurality of heat radiation fins 23 are installed at the rear, and a heat sink portion forming a rectangular flat plate shape. (20) and;
a rear case 30 protecting the rear of the heat sink unit 20 and supporting both sides of the heat sink unit 20;
a thin plate-shaped reflector part 40 positioned between the rear case 30 and the heat sink part 20 to reflect the heat radiated from the rear of the heat sink part 20 to the front;
a first fixing unit 50 for supporting one side of the heat sink unit 20 to one side of the rear case 30;
a second fixing unit 60 for fixing the other side of the heat sink unit 20 to the other side of the rear case 30;
Consists of including,

The heat sink unit 20,
A heat sink body portion (20a) of a rectangular shape, and
An insertion hole forming wall portion 21 formed to protrude in the rear direction in the horizontal direction at the center;
A heater rod insertion hole 22 formed to penetrate from one side to the other side in the insertion hole forming wall portion 21;
It is configured to include a plurality of heat dissipation fins 23 formed to protrude from the rear surface continuously from one side to the other side in the horizontal direction in a state spaced apart at regular intervals,
manufactured by extrusion,

The first fixing means 50,
A first inner fixing bracket 51 that is incorporated with the heat sink unit 20 by fixing the fixing screw 51a to be guided and fixed to the heat sink auxiliary groove 21b;
Two guide pieces 52 protruding outward in the transverse direction of the first inner fixing bracket 51 and slidingly inserted into the guide grooves 55a of the first outer support bracket 55;
a first outer support bracket 55 having a lower portion fixed to the rear case 30 while covering the first inner fixing bracket 51 and including a support through hole 55b;
A sliding type cap 57 whose end is helically coupled with the heat sink spiral portion 21a of the insertion hole forming wall portion 21 to be merged with the heat sink portion 20, and the body is slidably supported and protruded from the support through hole 55b. )second
A pressure-resistant explosion-proof structure type far-infrared heat sink drying heater, characterized in that it includes.
A heater rod 10 that is heated by electric resistance due to electric force in the shape of a long rod;
Heat is received by heat conduction by contact from the heater rod 10 inserted into the heater rod insertion hole 22, and a plurality of heat radiation fins 23 are installed at the rear, and a heat sink portion forming a rectangular flat plate shape. (20) and;
a rear case 30 protecting the rear of the heat sink unit 20 and supporting both sides of the heat sink unit 20;
a thin plate-shaped reflector part 40 positioned between the rear case 30 and the heat sink part 20 to reflect the heat radiated from the rear of the heat sink part 20 to the front;
a first fixing unit 50 for supporting one side of the heat sink unit 20 to one side of the rear case 30;
a second fixing unit 60 for fixing the other side of the heat sink unit 20 to the other side of the rear case 30;
Consists of including,

The heat sink unit 20,
A heat sink body portion (20a) of a rectangular shape, and
An insertion hole forming wall portion 21 formed to protrude in the rear direction in the horizontal direction at the center;
A heater rod insertion hole 22 formed to penetrate from one side to the other side in the insertion hole forming wall portion 21;
It is configured to include a plurality of heat dissipation fins 23 formed to protrude from the rear surface continuously from one side to the other side in the horizontal direction in a state spaced apart at regular intervals,
manufactured by extrusion,

The second fixing means 60,
The fixing screw p1 is guided to the heat sink auxiliary groove 21b, and the second inner fixing bracket 61 combined with the heat sink unit 20 by being press-inserted and fixed;
Two fixing protrusion pieces 62 which are formed to protrude outward in the horizontal direction of the second inner fixing bracket 61 and to which screws p2 are press-inserted and fixed;
a second outer support bracket (65) having a lower portion fixed to the rear case (30) while covering the second inner fixing bracket (61) and including a second support through hole for a connection cap;
Spiral portions are formed at both ends, and the ends are spirally coupled with the heat sink spiral portion 21a of the insertion hole forming wall portion 21 to be combined with the heat sink portion 20, and the body protrudes through the second support through hole, and the heater rod (10) the hollow connection cap (67) from which the electric wire supplying power is drawn out
A pressure-resistant explosion-proof structure-type far-infrared heat sink drying heater, characterized in that it includes.
6. The method of claim 5,
It is configured to further include a hollow outer protective cap (69) coupled to the outer spiral portion of the hollow connection cap (67),
The electric wire 12 is drawn out through the hollow portion 69a of the external protective cap 69 and the remaining space is finished with plaster to prevent heat leakage from the heater rod.
7. The method of claim 6,
A flexible coupling 81 covering the electric wire 12 is provided to increase the durability of the electric wire 12,
A safety net 85 is further provided in front of the heat sink unit 20,
A pressure-resistant explosion-proof structure type far-infrared heat sink drying heater, characterized in that a side housing is further provided on the side of the heat sink unit 20 .
5. The method of claim 4,
The first fixing means 50,
It is configured to further include a preliminary closing cap (70),
The preliminary closing cap 70 is concealed inwardly while spirally engaged with the heat sink spiral portion 21a, and the inner tip of the sliding closing cap 57 is spirally coupled to the heat sink spiral portion 21a on the outside. A pressure-resistant explosion-proof structure type far-infrared heat sink drying heater, characterized in that one end of the heater rod (10) is double-shielded by entering.

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