KR101455000B1 - Heat pipe unit of hot-air welder for synthetic resin - Google Patents

Abstract

The present invention relates to a heat rod unit for producing the high temperature hot air of a hot air welder for a synthetic resin and, more specifically, to a heat rod unit for a hot air welder for a synthetic resin which is formed in a state that an insulation pipe covering a heater is separated from the heater, reduces costs according to heater manufacture by allowing the insulation pipe to have a structure fixed and installed in an inner space of a heater housing, reduces economical loss by separate replacement when the heater is broken down, provides maintenance convenience such as heater installation convenience and the like and prevents harmful ingredient discharge and damages by improving the durability of the insulation pipe by forming a ceramic insulation pipe preventing damage and harmful ingredients from being generated while being heat-resistant.

Description

TECHNICAL FIELD [0001] The present invention relates to a heat pipe unit of a hot air welder for a synthetic resin,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a heater rod unit for generating hot air at a high temperature in a hot air welding apparatus for a synthetic resin, and more particularly, To a heater bar unit of a hot air welding apparatus for synthetic resin for ensuring convenience of maintenance due to drop in unit price due to heater replacement and replacement management.

BACKGROUND ART [0002] A hot air blower for a synthetic resin is a device for producing a large sheet by continuously adhering a sheet made of a synthetic resin material. The sheet is formed by adhering a sheet having a size that is difficult to be made large at a time, such as a tent or a tent, will be.

Such a hot-air welding apparatus is composed of a pressure-applied rotating roller that is subjected to an upper and a lower surface adhesion, and a heater that radiates heat at a high temperature on the side of the roller. Both end portions of the synthetic resin sheet, Device.

In addition, the joining portions of the separated sheets are overlapped, and an adhesive tape is inserted therebetween, and the joining portions of the sheet are firmly fused by melting the adhesive tape.

In this case, the heater rod continuously emits high-temperature heat, and the applicant of the present invention has proposed a hot air blowing apparatus using a heater rod unit as in Patent Application No. 10-0733775 and Patent Application No. 10-0830606.

1, the conventional heater bar unit used in the hot air blower described above has a hot wire 12 wound around the bottom surface of the heater head 11, And a heater housing 20 having an air inlet hole 13a formed therein and an open asbestos insulation 13 formed at a lower end thereof and an air induction pipe 21 formed inside the heater 10, A nozzle coupling part 22 coupled to the lower end of the heater housing 20 and coupled with a hot air nozzle (not shown), and a nozzle coupling part 22 for finishing the upper end of the heater housing 20, And a finishing cap 23 for supplying power.

However, the conventional heater bar unit as described above has a structure in which the asbestos insulation is integrally formed in the heater. This increases the unit price of the heater due to the manufacture of the heater. The asbestos-to-asbestos connection has to be replaced altogether, which leads to an increase in economic loss.

In addition, when the heater is replaced, it is difficult to precisely connect the nozzle to the nozzle coupling portion, which causes disconnection of the nozzle connection during installation, which causes inconvenience in maintenance such as installation troubles.

In the heater bar unit described above, due to the nature of the asbestos material enclosing the heater, when the asbestos insulation inside which the external identification is impossible is broken, the asbestos powder is discharged as hot air as it is, And there was a problem of harming the health of the worker.

Korean Patent Registration No. 10-0733775. Korean Patent Registration No. 10-0830606.

The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a heat insulation structure for a heater, which comprises a heat insulation surrounding a heater and a heat insulation structure, The present invention provides a heater rod unit for a hot air welding apparatus for a synthetic resin to reduce maintenance costs and reduce the economic loss due to the use of a separate replacement when the heater is broken, There is a purpose of.

In addition, by constructing the ceramic insulation insulation which is strong in insulation against heat and has less damage and harmful components, it is possible to prevent breakage due to improvement of durability of insulation insulation and discharge scattering of harmful components, The present invention provides a heater bar unit of the present invention.

In order to accomplish the above object, there is provided a method of manufacturing a heater, comprising: a heater wrapped around a heater to protrude from a bottom surface of the heater head, an outer circumferential surface of the heater wire protruding from a bottom surface of the heater head, An air induction pipe for downwardly protruding the air induction pipe is formed on the bottom surface of the fixing member and a nozzle coupling part formed with a discharge port is coupled to the lower end of the fixing member, 1. A heater rod unit comprising a heater housing which is finished with a cap,

The heater and the heater are separated from each other, the heat insulation is fixed to the heater housing, and the heater is detachably coupled to the heat insulation,

Wherein the heater housing has an insulating coupling groove formed on a bottom surface of the heater head and an insulating coupling jaw is formed on an inner circumferential surface of a discharge port of a nozzle connecting portion at a lower end of the heater housing,

And the upper end is protruded to the upper portion of the fixing member so that the lower end of the upper end of the heat dissipating member is inserted into the through hole of the fixing portion So that the heater can be detachably coupled to the upper end of the welded joint.

As described above, the heater rod unit of the hot air blowing apparatus for a synthetic resin according to the present invention can reduce the cost due to the production of the heater and thus reduce the cost due to the use of the heater in the place of use, Can be obtained.

In addition, since the insulation is integrally installed in the heater housing, it is made of a ceramics material which can be used semi-permanently, and the insulation durability is remarkably improved, so that the nozzle is clogged due to breakage or the harmful component is discharged, It is possible to obtain an effect to be prevented.

1 is an exploded cross-sectional view showing a conventional heater bar unit.
2 is an exploded perspective view of a heater rod unit of a hot air welding apparatus for a synthetic resin according to the present invention.
3 is a sectional view showing the connection of the heater rod unit of the hot air welding apparatus for a synthetic resin according to the present invention.
Fig. 4 is an operational view of a heater rod unit of a hot air welding apparatus for a synthetic resin according to the present invention. Fig.
5 is a view illustrating a heater replacement state of a heater rod unit of a hot air welding apparatus for a synthetic resin according to the present invention.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms and the inventor may appropriately define the concept of the term in order to best describe its invention It should be construed as meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It should be understood that various equivalents and modifications may be present.

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

FIG. 2 is an exploded perspective view of a heater rod unit of a hot air welding apparatus for a synthetic resin according to the present invention, and FIG. 3 is a connection sectional view of a heater rod unit of a hot air welding apparatus for a synthetic resin according to the present invention.

2 and 3, the heater rod unit 1 of the hot air welding apparatus for a synthetic resin according to the present invention is constructed such that a hot wire 220 is wound and formed so as to protrude integrally from the bottom surface of the heater head 210, And a heater housing 400 into which the heater 200 is inserted. The heater rod 400 includes an air inlet hole 310 at an upper portion thereof,

The heaters 200 are separated from the heaters 200 and the heat insulation 300 is fixedly coupled to the heater housing 400. The heaters 200 heat the heaters 200, And is detachably coupled to the association (300).

At this time, in the heater 200, an insulation coupling groove 211 is formed on the bottom surface of the heater head 210 at a diameter that opposes the diameter of the insulation insulation 300.

The heater housing 400, to which the insulation connection 300 is coupled,

And a fixing member 410 having a through hole 411 formed at the center thereof is formed at an inner upper portion of the fixing member 410. The bottom surface of the fixing member 410 is larger than the through hole 411 An air induction pipe 420 having a diameter smaller than that of the heater housing 400 is protruded downward and the air induction pipe 420 is formed so as not to extend to the lower end of the heater housing 400.

The heater housing 400 has a lower end portion coupled to a nozzle coupling portion 430 formed with a discharge port 431 through which a predetermined expanded diameter is formed at an upper portion of the inner peripheral surface of the discharge port 431 of the nozzle coupling portion 430 An annular protruding jaw 432 is provided.

At this time, the insulation joint 300 separated from the heater 200 is inserted into the through hole 411 of the fixing member 410 and inserted into the air induction pipe 420, And the upper end thereof is protruded to the upper end of the fixing member 410. The upper end of the fixing member 410 protrudes from the upper end of the fixing member 410,

The insulation joint 300 fixed to the heater housing 400 may be installed between the inner circumferential surface of the heater housing 400 and the air induction pipe 420 and between the air induction pipe 420 and the insulation joint 300, Shaped air passage 401 is provided through the air inlet hole 310 formed in the upper part of the insulation insulation 300 so as to prevent the insulation of the insulation insulation 300 And is configured to communicate with the inner side.

The heaters 200 separated from the insulation 300 may be mounted on the heater housing 400 in a state where the heat rays 220 are inserted into the insulation 300, The upper end of the insulation 300 is fitted to the coupling groove 211 so that the heater 200 is detachable from the insulation 300.

The upper end of the heater housing 400 to which the heater 200 is coupled is configured to be closed with the finishing cap 440.

On the other hand, the insulation connection 300 is composed of a ceramic material which is semi-permanently usable and excellent in insulation.

Hereinafter, the operation of the heater rod unit of the hot air welding apparatus for a synthetic resin of the present invention having the above-described structure will be described in detail with reference to the accompanying drawings.

As described above, the heater rod unit 1 of the present invention has a structure in which the heater 200 and the heater housing 400 are separated from each other. The heater 200 is mounted on the heater housing 210 400 formed in the heat insulating portion 210 and the insulating coupling portion 211 of the heater head portion 210. As shown in FIG.

4, the heater housing 400 is provided with a separate air supply unit 2 and the nozzle coupling unit 430 at the lower end of the heater rod unit 1 is provided with a hot air nozzle 3, So that it will be the same as the conventional hot air means.

That is, when the air is supplied to the inside of the heater housing 400 by the air supply unit 2, the heater rod unit 1, which is formed as described above, And then flows into the air inflow hole 310 formed in the upper part of the insulation interconnection 300.

The hot air is supplied to the discharge port 431 of the lower nozzle coupling part 430 of the heater housing 400. The hot air flows through the discharge port 431 of the lower nozzle coupling part 430 of the heater housing 400, To the hot air nozzle (3).

In the meantime, when the heater 200 is broken, the heater 200 must be replaced, for example, when the heater 200 is heated.

5, when the heater 200 is to be replaced, the heater 200 is pulled out while the finishing cap 440, which closes the upper end of the heater housing 400, is opened. The heater 200 of the heater 200 is released from the fitting engagement force between the insulating joint groove 211 formed on the bottom surface of the heater head 210 and the insulating joint 300 so that only the heater 200 can be easily separated You can.

After the heater 200 is detached as described above, a new heater 200 may be mounted, which is to be performed in the reverse order of separation, and a detailed description thereof will be omitted.

As described above, the heater rod unit of the hot-air welding apparatus for a synthetic resin according to the present invention has a structure in which the heater and the heater are separated from each other. Therefore, when the heater fails, the heater can be simply replaced. It is very convenient.

200: heater 210: heater head
211: Associative coupling groove 220:
300: Insulation 310: Air inflow ball
400: heater housing 401: air passage
410: fixing member 411: through hole
420: air induction pipe 430: nozzle coupling part
431: Discharge port 432:
440: Finishing cap

Claims (2)

A heating wire 220 is wound to protrude from the bottom surface of the heater head 210 and an outer circumferential surface of the heating wire 220 protrudes integrally from the bottom surface of the heater head 210 and has an air inflow hole 310 formed therein A fixing member 410 having a through hole 411 at the center is formed at the upper part of the inner circumferential surface so that the heater 200 is inserted into the fixing member 410, An air induction pipe 420 for forming an air passage 401 is formed to protrude downward and a nozzle coupling portion 430 having a discharge port 431 formed therein is coupled to the lower end thereof and a heater housing 400), characterized in that the heater rod unit
The heat insulating part 300 is separated from the heater 200 so that the heat insulating part 300 is fixed to the heater housing 400 and the heater 200 is detachably coupled to the heat insulating part 300 However,
A heat insulating member is formed on the inner circumferential surface of the discharge port 431 of the lower end nozzle coupling portion 430 of the heater housing 400 by forming an insulating coupling groove 211 on the bottom surface of the heater head 210 of the heater 200, (432)
The insulation joint 300 is inserted into the through hole 411 of the fixing member 410 and the lower end of the insulation joint 300 is fitted into the through hole 411 of the nozzle coupling portion 430 and is positioned in the insulation joint jaw 432, And the heater 200 may be detachably coupled to the upper end of the insulating joint 300 by the insulating joints 211 of the heater head 210. [ It is characterized by a heater rod unit of a hot wind welder for synthetic resin.
The method according to claim 1,
The heat seal unit of a hot air welding apparatus for synthetic resin according to claim 1, wherein the insulation connection (300) is made of a ceramic material.

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