KR101415671B1 - induction heater - Google Patents

Abstract

The present invention relates to an induction heating roller with a reduced connection structure. The purpose of the present invention is to provide an induction heating roller with a reduced connection structure that has the structure of a bobbin and a heat exchange pipe, which are installed in the outer pipe of the roller, simplified, is connected to an external power device via a reduced connection structure to increase manufacturing and installing efficiency, and prevents heat from leaking to the outside through complex components or a power connection axis owing to the simplified structure to increase heat efficiency. To achieve the purpose, the induction heating roller, which has the heat exchange pipe and the bobbin accommodated and combined in the outer pipe of the roller with a laterally penetrating structure, further comprises: a pipe-laying wall; a finishing plate; and an installation partition with an axis connection hole in the outer pipe of the roller, wherein the heat exchange pipe is formed of a plurality of horizontal pipe members and a pair of ring-shaped pipe members for supporting the end part of one side of the horizontal pipe members and integrally connecting the horizontal pipe members.

Description

Induction heater having a simple connection structure,

The present invention relates to an induction heating roller, and more particularly, it relates to an induction heating roller which is capable of stretching a yarn by heat generation at a high temperature or evenly spreading a workpiece such as a fabric, paper, leather or film, The heating roller is provided with a heating roller and a heating roller. The heating roller has a structure in which the heating roller is installed in a shortened structure. The heating roller is uniformly dispersed in the roller of the heating roller so that heat loss can be minimized. To an induction heating roller having a uniaxial structure.

Generally, in a work such as a yarn, a fabric, a paper, a leather, or a film produced through a pretreatment process, the tensile and stretchability of the produced yarn or fabric is improved, the wrinkle is evenly spread, As a countermeasure for this, a secondary post-treatment process is performed, and it can be understood that an induction heating device is generally used for such a series of post-treatment processes.

Thus, the induction heating apparatus is such that the means for performing a high-temperature heat-generating action by the electromagnetic induction action, for example, a plurality of cores are laminated and bonded to each other at the center of the inner surface of the roller outer cylinder, Likewise, a bobbin having a coil wound around a laminated core is provided to generate an eddy current, thereby performing a high-temperature exothermic action.

However, in such a conventional induction heating apparatus, the cores stacked on the outer diameter surface of the bobbin have a partial spot weld engagement relationship. Accordingly, a gap type in which the outer diameter surface of the bobbin and a part of the contact region of the core are short- In addition, since the heat generated by the electromagnetic induction action of the bobbin is transferred to the roller outer cylinder, the additional intermediate transfer There is a problem in the structure that the temperature deviation is large according to the position of the roller outer cylinder and unnecessary heat loss is generated.

On the other hand, in recent years, Korean Patent Registration No. 0737817, "Heat medium useful heating roll" has been developed as a seam welding technique which partially solves the problems of the above-described induction heating device.

However, in such a heating roll as a seamen technique, a heat medium oil pipe is provided in a zigzag form on the outer peripheral surface of the roller outer tube, and a high temperature heat medium is supplied and circulated from the outside through the heat medium oil pipe, Such a source technology can not provide a heat generation structure due to an electromagnetic induction action and merely performs a heat generating action only by supplying a heat medium from the outside. As a result, In the circulation process, a problem that the temperature deviation of the roller outer tube is rather increased due to the continuous failure of the heat supply, for example, the temperature of the initial inflow part of the heat medium is high, And a phenomenon in which the cooling water is cooled down and cooled.

Further, in the above-described source technology, the supply pipe and the heat medium oil pipe for inducing the supply and circulation of the heating medium and the heat medium oil pipe are provided in a complex piping connection relation to the outer pipe of the roller and the shaft penetrating the inner center portion of the roller outer pipe , And furthermore, the installation relation of the shaft for transmitting the rotational force to the roller outer cylinder is also supported in the both left and right ends so as to be connected to the external power unit, so that a series of constitutions are very complicated, And the problem that the fabrication and installation efficiency is extremely lowered due to the same complicated and complicated configuration is left to be solved.

Accordingly, the present invention has been made to solve the conventional problems of the conventional heating roller,

SUMMARY OF THE INVENTION It is an object of the present invention to provide a bobbin which is installed in a roller outer tube and which simplifies the structure of the heat exchange pipe in a convenient assembling manner and makes the heating roller composed of the components be power- It is possible to prevent the heating column from unnecessarily being lost to the outside through a complicated component element or a power connecting shaft according to the simplified component structure as described above, So as to raise the temperature of the induction heating roller.

 It is a further object of the present invention to provide a method of manufacturing a heat exchanger in which a core and a bobbin are formed in an integrated structure by an impregnation and molding process to solve the magnetic field imbalance phenomenon to increase the energy output efficiency, The induction heating roller having a single-shaft connection structure in which the heating heat is uniformly dispersed over the entire surface of the outer cylinder of the roller by the installed heat exchange pipe, .

In order to accomplish the above object, according to the present invention, there is provided an induction heating roller having a single shaft connection structure,

An induction heating roller comprising a heat exchanger pipe and a bobbin accommodated in a roller outer tube having a left and right through-hole structure, the induction heating roller comprising:

Further comprising a mounting diaphragm provided with a pipe embedding hole, a finishing plate, and a shaft connecting hole in the roller outer tube;

The heat exchange pipe is formed by a plurality of horizontal pipe members and a pair of annular pipe members which support one end of the horizontal pipe member and integrally connect with each other.

Therefore, the induction heating roller having the uniaxial connecting structure according to the present invention has a bobbin inserted in the roller outer tube, and a heat exchanging pipe which simplifies the structure of the heat exchanging pipe so as to have a convenient assembling relationship, Not only the series of manufacturing and installation efficiency is increased by making the power connection with the single-shaft connection structure, but also the heating column is unnecessarily lost to the outside by the complicated component element or the power connection shaft So that the thermal efficiency is extremely increased;

 Alternatively, by forming the core and the bobbin in an integrated structure by the impregnation-forming process to solve the magnetic field unbalance phenomenon, the energy output efficiency can be increased and the heat exchange pipe can be firmly In addition, the heat-exchanging pipe provided in this manner allows the heat to be uniformly dispersed over the entire surface of the outer surface of the roller, thereby improving the use efficiency. Lt; / RTI >

1 is an exploded perspective view of an induction heating roller having a uniaxial connecting structure according to the present invention.
2 is a sectional view of the induction heating roller coupled state having a uniaxial connecting structure according to the present invention
Fig. 3 is an installation state diagram of the induction heating roller having the uniaxial connecting structure according to the present invention
4 is a sectional view of an induction heating roller having a uniaxial connecting structure according to the present invention

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of an induction heating roller having a uniaxial connecting structure according to the present invention will be described in detail with reference to the accompanying drawings.

Referring now to the drawings, a schematic configuration of the present invention will be described with reference to the accompanying drawings. It is composed of a roller outer tube 1, a heat exchange pipe 2, and a bobbin 3.

Here, the roller outer casing 1 is a metal material of a magnetic material having a good thermal conductivity, which has a cylindrical structure with a predetermined length in which both left and right side surfaces pass through and a space portion is provided therein, 1 and 2, when the roller outer casing 1 is applied to the present invention, the inner periphery of the outer wall of the roller outer casing 1 having a cylindrical structure is drilled in a regular and repetitive arrangement structure And a final plate 12 in the form of a disk, which is coupled to the outside surface of the roller outer cylinder 1 by a fastening means N such as a screw or bolt, Of the roller outer cylinder 11 spaced apart from the finishing plate 12 by a predetermined distance so as to come close to the inner space portion of the roller outer cylinder 1 such as the direction in which the finishing plate 12 is engaged, 2 or 4 It is indicated, preferably the installation further form a diaphragm (13) having a shaft coupling hole 131 of the female thread structure integrally as described.

The heat exchange pipe (2) is a form in which a liquid heat induction medium (100) is injected into a pipe having a predetermined length and has a structure in which, when heat is generated by an electromagnetic induction action of a bobbin And the heat is transferred to the roller outer cylinder 1 in a uniform manner in a secondary form to maintain the set temperature. The heat exchange pipe (1) 2 is applied to the present invention, the horizontal pipe members 21 in the form of a vacuum tube having a predetermined length are spaced and arranged in a regular and repetitive circular array structure as shown in Fig. 1, A plurality of horizontal pipe members 21 are integrally connected to each other in a circular comb structure as shown in FIG. 1, for example, by means of an annular pipe member 21 at one end of the horizontal pipe member 21 22) Conformity is desirable.

At this time, the annular pipe member 22 has a connection relationship integrated with the horizontal pipe member 21, so that the annular pipe member 22 also has a vacuum structure like the horizontal pipe member 21, And the heat induction medium 100, which is a liquid,

Alternatively, in the present invention, the liquid-phase heat induction medium 100 injected into the heat exchange pipe 2 may have a filling amount in a range of 70% of the internal space range of the heat exchange pipe 1 having a vacuum structure And the material is also limited to materials having thermal stability, high heat capacity per unit volume, high heat transfer coefficient, and low corrosion resistance, such as distilled water, methanol, and mercury, It is preferable that any one substance is selectively injected.

The bobbin 3 is a conventional heating means for generating an eddy current by an electromagnetic induction action to generate heat energy. This is because the bobbin 3 has an outer diameter surface of a bobbin 3 having a cylindrical structure And the induction coil 32 is wound around the outer surface of the coupled core 31. When such a bobbin 3 is applied to the present invention, And the core 31 connected to the bobbin 3 is made of a silicon steel sheet having a high magnetic property and a high resistivity as a base material and the bobbin 3 is made of a steel material corresponding to a permanent magnet, The bobbin 3 and the core 31 are integrally welded together by an impregnation process and the induction coil 32 is wound around the outer surface of the core 31 thus formed (Reference numeral 33 denotes an insulating material, and reference numeral 34 denotes a coupling flange)

The impregnation process described above is a process method for impregnating and solidifying a liquid insulating material in a gap between a conductor and a conductor in order to improve the insulation property of an electric device and having a kind of adhesive function. , A resin or a varnish (paint forming a film) or the like is used.

Accordingly, the mutual coupling relation of the induction heating roller having the uniaxial connecting structure according to the present invention as described above will be described.

This is achieved by first forming a circular comb-like structure (not shown) on the pipe buried hole 11 formed in the outer wall of the roller outer cylinder 1, on the basis of the roller outer cylinder 1 provided with the finishing plate 11, 1 or 2, and the bobbin is accommodated and coupled to the inside of the roller outer tube 1 in which the heat exchange pipe 2 is embedded as described above. Thus, the induction heating roller having the uniaxial connecting structure according to the present invention can be realized.

At this time, when the coupling relationship is established as described above, the coupling flange 34 of the bobbin 3 is in contact with the end of the roll outer tube 1 and exposed to the outside.

3, the induction heating roller having the unidirectional connection structure according to the present invention having the above-described combination structure is installed and connected to the power motor M in a single shaft structure. As shown in FIG. 3, 4, the shaft S of the power motor M is horizontally inserted into the inner diameter of the bobbin 3 having a cylindrical structure, and the inserted shaft S Is fastened to the shaft connecting hole 121 of the mounting diaphragm 12 formed on the inner diameter portion of the roller outer cylinder 1 by fastening means N such as bolts and nuts And the coupling flange 34 of the bobbin 3 is engaged with the front face portion of the body of the power motor M by fastening the bolts B to complete a series of installation relationships.

At this time, the connection structure of the power supply line for supplying the electric energy to the bobbin 3 is not different from that of the conventional one. Therefore, the description of the power supply connection relationship will be omitted.

Thus, the induction heating roller having the uniaxial connecting structure according to the present invention, which has been installed in the coupling relation as described above, is capable of performing the electromagnetic induction action between the bobbin 3 and the roller outer cylinder 1, The heat exchanging pipe 2 buried in the roller outer cylinder 1 at this time is located at the center of the roller outer cylinder 1. The heat exchanging pipe 2 buried in the roller outer cylinder 1 is located at the center of the roller outer cylinder 1, The heated heat induction medium 100 is heated by the convection phenomenon to heat the heat induction medium 100. The heat induction medium 100 is heated by the convection phenomenon, 2) and distributes the heat evenly to the roller outer cylinder 1 to maintain the set temperature.

Therefore, the roller outer tube 1, which generates heat as described above, is rotated by the driving of the power motor M. By using the roller outer tube 1 to be rotated, the yarn is tensioned, A work, such as a fabric, paper, leather, or film, is spread evenly without wrinkles, and glossiness is imparted to the surface.

1: roller outer tube 2: heat exchange pipe 3: bobbin
11: Pipe burial hole 12: Finishing plate 13: Installation diaphragm
21: horizontal pipe member 22: annular pipe member 31: core
32: induction coil 131: shaft connecting hole 122: pipe connecting hole

Claims (3)

A heat exchange pipe 2 in which a heat induction medium 100 is packed and a core 31 are laminated on an outer diameter surface of the roller outer tube 1 having a left and right through- The induction heating roller is configured to receive the bobbin (3) wound thereon.
The roller outer cylinder 1 is provided with a pipe buried hole 11 drilled in the inside of the outer wall and a finishing plate 11 which is detachably attached to the outer end of the roller outer cylinder 1 by fastening means N, And a mounting diaphragm 12 having an axial connection hole 121 formed on the inner surface of the roller outer tube 1 in the direction in which the finishing plate 11 is coupled,
The heat exchange pipe (2) comprises a plurality of horizontal pipe members (21) spaced apart in a circular arrangement, an annular pipe member (21) supporting one end of the arranged plurality of horizontal pipe members 22. The induction heating roller according to claim 1,
The method of claim 1, further comprising:
Wherein the heat induction medium (100) filled in the heat exchange pipe (2) is made of any one of liquid materials such as distilled water, methanol, and mercury.
The method of claim 1, further comprising:
The bobbin 3 is formed of magnetite and the core 31 is formed of a silicon steel sheet;
Wherein the bobbin (3) and the core (31) are combined in a single body structure by impregnation molding, and the induction heating roller has a single shaft connection structure.

Images