KR20090020971A - Warm air generating device comprising electrical heater and the method thereof - Google Patents

Abstract

A warm-wind construction including electric heater and a manufacturing method thereof are provided to prevent separation among task by adamantly binding the cooling fin of the heat spreader part, and to easily changing the heating value. A warm-wind construction including electric heater comprises a plurality of insert holes(534) developed into the laminated direction of the cooling fin; the heat spreader part(530) including the thermal conductance supporting pipe body(539) inserted into the part or the whole of the insert hole; the electric heater(520) which is inserted into the insert hole and supporting pipe body of the heat spreader part in order to expose the terminal to outside; one or more conductive plate which electrically connects the terminal of the electric heater; the bracket part(510) supporting the side of the heat spreader part; the support bracket(552) having blowholes(558); one or more installation brackets fixed to the support bracket; and the electric heater consisting of the motor installed at installation bracket, and the ventilation fan connected to the motor.

Description

Warm air generating device comprising an electric heater and a method of manufacturing the same

1 is a perspective view showing a heat generating unit according to the prior art.

2 is a perspective view showing a heat generating unit according to another conventional technology.

3 is a side view illustrating an electric heater provided in the heat generating unit of FIG. 2.

FIG. 4 is a partially exploded perspective view of the electric heater shown in FIG. 3.

5 is a rear perspective view schematically showing a warm air apparatus according to a preferred embodiment of the present invention.

6 is a front perspective view schematically showing a warm air device according to a preferred embodiment of the present invention.

7 is a partially exploded perspective view of the warm air device shown in FIGS. 5 and 6.

8 and 10 are side cross-sectional views for explaining the manufacturing method of the heat radiation fin part provided in the warm air apparatus according to the present invention.

11 is a detailed cross-sectional view of a part of a heat radiation fin part provided in the warm air apparatus according to the present invention.

12 is a partial longitudinal cross-sectional view showing an electric heater provided in the warm air apparatus according to the present invention.

Figure 13 shows the installation state of the conductive plate in the warm air apparatus according to the present invention.

Explanation of symbols on the main parts of the drawings

500: warm air device 510: bracket portion

520: electric heat 530: heat radiation fin

550: blower 571: conductive plate

The present invention relates to a warm air device having an electric heater, and more particularly, rigidity is improved, and since the heat sinks are partially overlapped and connected, there is no fear of separation from each other during the work, and the amount of heat generated can be easily changed during use. The replacement, installation and disassembly of the heater is simple and relates to a warm air device having an electric heater that is easy to manufacture as a whole.

In the conventional house cultivation, various types of hot air blowers are used to grow crops or to maintain the house temperature at a suitable room temperature. In particular, a hot air blower using a combustible material such as oil, gas and coal is used as a power source. . However, the use of flammable materials such as oil, gas, and coal increases maintenance costs, and there is a concern that damage to livestock such as crops and poultry may occur due to harmful substances generated from combustion of flammable materials.

Figure 1 shows a heat generating portion according to the prior art used in the proposed heater to solve the problems caused by using the combustible material as described above, Figure 2 shows a heat generating portion according to the prior art, Figure 3 2 illustrates an electric heater provided in the heating unit illustrated in FIG. 2, and FIG. 4 is a partially cutaway sectional view of the electric heater of FIG. 3.

1 is a heat generating unit 100 is a bracket 110 is fixed to one side of the warm air device, both ends of the bracket 110 is fixedly installed on both sides and provided with a plurality of heat dissipation fins 123 on the outer peripheral surface by the power supply It consists of an electric heater 120 to generate heat. In FIG. 1, reference numeral 131 denotes a fixing nut for fixing both ends of the electric heater 120 to the bracket 110, 111 shows an installation hole for fixing the bracket 110, 121 is an electric It shows the stainless steel tube constituting the heater 120, the heat transfer coil is provided in the tube 121.

Since the heat generating unit illustrated in FIG. 1 includes the heat dissipation fins 121 on the outer circumferential surface of the electric heater 120, it is difficult to manufacture the electric heater 120, and the manufacturing cost increases, and some of the electric heaters 120 used are damaged. In this case, the replacement is difficult, and there was also a problem that the reinstallation is difficult, there was a problem that can not reuse the heat radiation fin (121).

2 to 4 illustrate a heat generating unit 200 provided in a warm air apparatus according to another conventional art, and the electric heater 220 of the heat generating unit 200 shown in FIGS. 2 to 4 is a letter 'd'. A tubular body 221 formed in a shape, a heating coil 224 installed inside the tubular body 221, an insulating material 222 provided between the tubular body 221 and the heating coil 224, and the tubular body 221. A heat dissipation fin 223 formed on the surface of the) and the terminal 225 electrically connected to the heating coil 224. One side of the bracket 210 forms a circular insertion hole 215 and an elliptical insertion hole 216, and the other side forms a hole (not shown) to which the terminal 255 is exposed, and an insertion hole to one side. The electric heater 220 is inserted into the bracket 210 from the side at which the 215 and the insertion hole 216 are formed.

However, the heating unit 200 as described above is very difficult to manufacture the electric heater 220, when the electric heater 220 is broken, the cost is large, replacement is not easy, and it is not easy to adjust the heating amount There was no problem.

1 and 2, the blower provided to one side of the heat generating parts 100 and 200 is not shown.

The present invention has been proposed in order to solve the problems of the conventional warm air device having an electric heater as described above, can improve the rigidity as a support body, the heat sinks of the heat sink fins are firmly coupled to each other, easy to use during use It is an object of the present invention to provide a warm air device having an electric heater that can change the amount of heat and can be easily installed and replaced when there is a failure in some electric heaters.

The warm air device having the electric heater of the present invention for achieving the above object is formed by stacking a plurality of heat sinks of a plate material, a plurality of insertion holes are formed in the stacking direction, a part or all of the insertion holes thermoelectric A heat dissipation fin unit into which the conductive support tube is inserted; An electric heater inserted into the radiating fin part through the insertion hole and the support tube to expose the terminal to the outside; At least one conductive plate material electrically connecting the terminals of the electric heater; A bracket part for supporting a side surface of the heat dissipation fin part; A support bracket installed at a rear side of the bracket part and having a vent hole; At least one mounting bracket fixed to the support bracket, a motor fixed to the installation bracket, characterized in that consisting of a blowing fan connected to the motor.

In the above description, the heat dissipation plate laminated to form the heat dissipation fin part is formed of a plate member, a concave jaw portion, a cylindrical portion extending downwardly into the jaw portion, and a bending extending upward from the end of the cylindrical portion again. And an inner projection formed inwardly of the cylindrical portion for accommodating the cylindrical portion and the bent portion of the other heat sink stacked on the upper portion.

The electric heater includes a pipe-shaped tube, a heating coil installed into the tube, an insulating material filled between the tube and the heating coil, an insertion portion inserted at both ends of the tube, and both ends of the tube extending from the insertion portion. It is characterized in that it comprises a flange which protrudes to cover the side of the tubular body and has a through hole formed in the center and an insulating material, and a terminal inserted into the through hole of the cap and electrically connected to the heating coil. .

And it is characterized in that the insertion hole is formed so that the exposed terminals of the plurality of electric heaters are inserted into the radiating fin portion insertion hole and the support tube to expose the outside to form an equilateral triangle with the same side length.

On the other hand, it is formed by stacking a plurality of heat sinks of the plate material, a plurality of insertion holes are formed in the stacking direction, a portion or all of the heat dissipation fin portion is inserted into the thermally conductive support tube; An electric heater inserted into the insertion hole and the support tube of the heat dissipation fin; At least one conductive plate material electrically connecting the terminals of the electric heater; A bracket part for supporting a side surface of the heat dissipation fin part; A support bracket installed at a rear side of the bracket part and having a vent hole; The method of manufacturing a heat radiation fin portion of a warm air device having at least one mounting bracket fixed to the support bracket, a motor fixed to the mounting bracket, and an electric heater consisting of a blowing fan connected to the motor is a heat sink that is a plate material Forming a jaw portion and a cylindrical portion extending downward from an inner diameter of the jaw portion and having a base; Shearing the bottom surface of the cylindrical portion to form a piercing hole; Forming an extension by increasing the diameter of the lower end of the cylindrical portion where the piercing hole is formed; Inserting a piercing hole of the heat sink, which is processed as described above, into a guide rod supported by the base, and stacking heat sinks so that the extension part of the upper heat sink is seated on the jaw of the lower heat sink; Removing the laminated heat sinks from the guide rods and inserting the support tubes through the laminated piercing holes; Passing the expansion means into the support body to extend the diameter of the support body, and forming an inner projection to the inside of the jaw portion, and forming a portion of the extension portion as a bent, and fixing the support body to the laminated heat sink It features.

Hereinafter, a warm air device having an electric heater according to a preferred embodiment of the present invention and a manufacturing method thereof will be described in detail with reference to the accompanying drawings. In the detailed description, the same name is used for the configuration having the same function as the prior art, and description of the technical content overlapping with the prior art is omitted.

5 is a rear perspective view schematically showing a warm air apparatus according to a preferred embodiment of the present invention, Figure 6 is a front perspective view schematically showing a warm air apparatus according to a preferred embodiment of the present invention, Figure 7 and Figure 5 and Partly exploded perspective view of the warm air device shown in Figure 6, Figure 8 and Figure 10 is a side cross-sectional view for explaining a manufacturing method of the heat radiation fin unit provided in the warm air device according to the present invention, Figure 11 is a warm air device according to the present invention 12 is a partial cross-sectional view of the heat dissipation fin part provided, and FIG. 12 is a partial cross-sectional view of an electric heater provided in the warm air device according to the present invention, and FIG. It is.

As shown in FIGS. 5 and 6, the warm air device 500 including the electric heater according to the present invention includes a bracket portion 510 supporting the heat dissipation fin portion 530, and an insertion hole formed in the heat dissipation fin portion 530. 534 and the electric heater 520 to be inserted into the support tube 529, one or more insertion holes 534 is formed and the heat dissipation fin portion 530 is inserted into one or more of the insertion hole 534, the support tube (529) And, provided on one side of the heat radiation fin portion 530 is configured to include a blower 550 for flowing air through the heat radiation fin portion 530.

The heat dissipation fin part 530 is formed by stacking a plurality of heat dissipation plates 531 made of aluminum having good thermal conductivity, as illustrated in FIGS. 5 to 11, and forming one or more insertion holes 534 in the stacked direction. In addition, a part or all of the insertion hole 534 is inserted with a pipe-like support tube 539 made of a material such as copper having good thermal conductivity.

The heat dissipation fin part 530 is supported by the bracket part 510, and the bracket part 510 is formed of a metal plate, and has a top bracket 511 with a screw hole 511a and the top bracket 511. Side brackets 513 connected to the left and right sides of the through hole 512 and the screw hole 513b, and bottom brackets 515 connected to the lower sides of the both side brackets 513 and formed with the screw holes 515a. . One or more mounting holes 515b are formed in the bottom bracket 515 to fix the warm air device 500.

And the rear of the bracket portion 510 is provided with a support bracket 552 formed with a blower 558 and a screw hole 552a in order to install the blower 550.

5, an installation bracket 556 is installed on the support bracket 552, and a motor 551 is fixedly installed on the installation bracket 556. In addition, a blower fan 553 connected to the motor 551 is installed at one side of the motor 551. In FIG. 2, reference numeral 557 illustrates a protection grill, and it is possible to install a grill for protecting the heat dissipation fin unit 530 from the front of FIG. 6.

With the bracket part 510 installed to protect the heat dissipation fin part 530, the insertion hole 534 of the heat dissipation fin part 530 is formed through the through hole 512 of the side bracket 513 of the bracket part 510. The electric heater 520 is inserted into the support tube 539 inserted into the insertion hole 534, and the electric heater 520 is fixedly installed by fastening the fixing heater 520 from the outside of both side brackets 513. In this case, as shown in FIG. 13, the conductive plate member 571 is first inserted into the terminal 525 and the fixing nut 561 is fastened so that the terminals 525 are electrically connected to each other.

As shown in FIG. 13, when the electric heater 520 is inserted, the insertion hole 534 is inserted into the heat dissipation fin part 530 such that the terminals 525 of the electric heater 520 form an equilateral triangle (abc) having the same side length. It is preferable to form In the case of forming an equilateral triangle as described above, the length of the conductive plate member 571 can be made constant, so that the amount of heat generated can be easily adjusted by removing or adding a part of the compatible conductive plate member 571.

In the warm air device 500 according to the present invention with reference to Figures 8 to 11 will be described a method of manufacturing the heat radiation fin portion 530.

The heat dissipation fin part 530 is formed by stacking a heat dissipation plate 531 made of a plate such as aluminum having good conductivity. First, the heat dissipation fin part 530 extends downward from the inner diameter part of the tuck part 533 and the tuck part 533 on the heat dissipation plate 531. A cylindrical portion 532 having a bottom surface is formed. Then, the bottom surface of the cylindrical portion 532 is sheared to form a piercing hole 534 in the cylindrical portion 532. Since the piercing hole 534 formed in the heat sink 531 is stacked and becomes the insertion hole 534 in the heat radiation fin part 530, the same reference numeral is used. After the piercing hole 534 is formed, an enlarged portion 535 is formed by increasing the diameter of a portion of the end of the piercing hole 534.

A guide rod 701 provided in the base 700 with the heat sink 531 formed with the jaw portion 533, the cylindrical portion 532, the piercing hole 534, and the expansion portion 535 as shown in FIG. 9. The piercing hole 534 is inserted into the lamination. It is of course also possible to laminate directly on the support tube 539 above. When stacked in the above state, the expansion part 535 of the heat sink 531 stacked on the upper part is seated on the jaw portion 533 of the heat sink 531 stacked on the lower part, and thus the center of the piercing hole 534 is stacked. This is laminated in a substantially coinciding state, and no problem of deviating from side to side occurs.

When the desired amount of heat sinks 531 are stacked, the stacked heat sinks 531 are separated from the guide rods 701, and as shown in FIG. 10, the support pipe 539 is attached to some or all of the piercing holes 534. After insertion, the support tube 539 is expanded (by expanding the diameter of the support tube 539) so that the support tube 539 is brought into close contact with the inner wall of the cylindrical portion 533. Therefore, the outer diameter Do of the support tube 539 to be inserted is smaller than the inner diameter Di of the cylindrical portion 532. For example, when the inner diameter Di of the cylindrical portion 532 is 16.4 mm, a support tube 539 having an outer diameter Do of 15.88 mm is inserted and expanded into the support tube 539 as shown in FIG. 10. The means 801 is forcibly inserted and passed through to expand the outer diameter of the support tube 539 in the range of 16.5 to 16.6 mm.

When the support tube 539 is inserted into the cylindrical portion 532 as described above and expanded, the diameter of the cylindrical portion 532 is also increased, and the upper portion of the cylindrical portion 532 that meets the jaw portion 533 is inwardly upward. The protrusion 532a is formed, and a part of the extension 535 is deformed upward to form the bent portion 535a. Therefore, the cylindrical portion 532 of the heat dissipation plate 531 stacked on the upper side by the expansion pipe is supported by the inner protrusion 532a on the jaw portion 533, so that the coupling of the heat dissipation plates 531 becomes more robust.

On the other hand, the electric heater 520 provided in the warm air device 500 according to the present invention is a pipe-like tube 521 made of a material such as stainless steel, the heating coil 524 provided in the tube 521, An insulating material 522 filled between the heating coil 524 and the tube 521, a cap 528 inserted into both ends of the tube 521, and a heating coil 524 inserted through the cap 528. It consists of a terminal 525 connected to. The cap 528 is made of an insulating material, and includes an insertion portion 528b inserted into the tube 521 and a flange portion 528a extending from the insertion portion 528b to cover the side surface of the tube 521. A through hole is formed in which the terminal 525 is inserted.

Although the embodiments of the present invention have been described above with reference to the drawings, the protection scope of the present invention is not limited thereto, and it should be recognized as the protection scope of the present invention from an embodiment of the present invention to a range easily implemented by those skilled in the art. something to do.

As described above, according to the warm air apparatus 500 having the electric heater according to the present invention, since the support tube 539 is inserted into a part, the rigidity is improved, and the heat sink 531 of the heat dissipation fin part 530 is coupled to each other. Therefore, there is no fear of separation from each other during the operation, it is possible to easily change the calorific value during use, if there is a failure in some of the electric heater 520 is easy to replace and the disassembly and installation of the electric heater 520 is simple, overall There is an effect that can be easily produced.

Claims (5)

It is formed by stacking a plurality of heat sinks 531, a plurality of insertion holes 534 is formed in the stacking direction, the thermally conductive support tube 539 is inserted into part or all of the insertion holes 534. A heat dissipation fin unit 530; An electric heater 520 inserted into the insertion hole 534 and the support tube 539 of the heat dissipation fin part 530 so as to be exposed to the outside of the terminal 525; At least one conductive plate material 571 for electrically connecting the terminal 525 of the electric heater 520; A bracket part 510 supporting the side surface of the heat dissipation fin part 530; A support bracket 552 installed at the rear of the bracket part 510 and having a blower 558 formed therein; At least one mounting bracket 556 fixedly installed on the support bracket 552, a motor 551 fixedly installed on the mounting bracket 556, and a blower fan 553 connected to the motor 551. Warm air device having an electric heater, characterized in that 500. The heat dissipation plate 531, which is stacked to form the heat dissipation fin part 530, is formed of a plate material, and has a concave jaw portion 533 and a cylinder extending downwardly into the jaw portion 533. A portion 532, a bent portion 535a extending upwardly from the end of the cylindrical portion 532, and a cylindrical portion 532 and bent portion 535a of another heat sink 531 stacked thereon. The warm air device (500) having an electric heater, characterized in that it comprises an inner projection (532a) formed inwardly of the cylindrical portion (532) for accommodating the jaw portion (533). The electric heater 520 of claim 1, wherein the electric heater 520 is filled between the tubular tube 521, the heating coil 524 installed into the tube 521, and the tube 521 and the heating coil 524. The insulating material 522 and the insertion portion 528b inserted into both ends of the tube body 521 extend from the insertion portion 528b to protrude to both ends of the tube body 521 to cover the side surface of the tube body 521. A cap 528 having a flange portion 528b and having a hole formed in the center thereof, the cap 528 made of an insulating material, and a terminal 525 inserted into the through hole of the cap 528 and electrically connected to the heating coil 524. Warm air device having an electric heater, characterized in that configured 500. The terminal 525 of claim 1, wherein the terminal 525 is inserted into the insertion hole 534 and the support tube 539 of the heat dissipation fin part 530 so as to be exposed to the outside. The warm air device 500 having an electric heater, characterized in that the insertion hole 534 is formed so that the sides thereof have the same equilateral triangle length. It is formed by stacking a plurality of heat sinks 531, a plurality of insertion holes 534 is formed in the stacking direction, the thermally conductive support tube 539 is inserted into part or all of the insertion holes 534. A heat dissipation fin unit 530; An electric heater 520 inserted into the insertion hole 534 and the support tube 539 of the heat dissipation fin part 530; At least one conductive plate material 571 for electrically connecting the terminal 525 of the electric heater 520; A bracket part 510 supporting the side surface of the heat dissipation fin part 530; A support bracket 552 installed at the rear of the bracket part 510 and having a blower 558 formed therein; At least one mounting bracket 556 fixedly installed on the support bracket 552, a motor 551 fixedly installed on the mounting bracket 556, and a blower fan 553 connected to the motor 551. In the method for manufacturing the heat radiation fin portion 530 of the warm air device 500 having an electric heater, Forming a jaw portion 533 and a cylindrical portion 533 extending downward from an inner diameter of the jaw portion 533 to a heat sink 531 that is a plate; Shearing the bottom surface of the cylindrical portion 533 to form a piercing hole (534); Forming an expansion portion 535 by increasing the diameter of the lower end of the cylindrical portion 533 on which the piercing hole 534 is formed; The piercing hole 534 of the heat sink 531 processed as described above is inserted into the guide rod 701 supported by the base 700 to extend the upper heat sink 531 to the jaw portion 533 of the lower heat sink 531. Stacking the heat sinks 531 so that the portion 535 is seated thereon; Removing the stacked heat sinks 531 from the guide rods 701 and inserting the support tube 539 through the stacked piercing holes 534; Passing the expansion means 801 into the support tube 539 extends the diameter of the support tube 539, forms an inner protrusion 532a inwardly of the jaw portion 533, and a part of the extension 535. Forming a bent portion (535a), and fixing the support pipe (539) to the laminated heat sink (531).

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