KR101857905B1 - Hot-wind welder for synthetic resin - Google Patents

Abstract

The present invention relates to a hot air welding machine for continuously forming a sheet on a synthetic resin by a high temperature hot air heater. More particularly, a direction of a lower roller from a worktable of the hot air welding machine can be switched, thereby enabling appropriate response according to a working environment or method. The present invention relates to a hot air welding machine for welding machine for a synthetic resin having a direction switching structure of a lower roller unit for enhancing efficiency of the hot air welding machine such as preventing cost loss due to a construction of a plurality of devices and eliminating inconveniences including securement of device construction places.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a hot-wind welder for synthetic resin,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a hot air welding apparatus for continuously forming a sheet on a synthetic resin by a high-temperature hot air heater, and more particularly to a hot air welding apparatus for improving a lower roller unit in which a waterproof fabric is seated for thermal fusion, To a synthetic resin hot air blowing machine having a direction switching structure of a lower roller unit for improving working efficiency by facilitating appropriate handling in accordance with a working environment.

As the leisure activities and hobbies are actively carried out in recent years, various functional clothes and cloths are widely used. Such various types of coatings are generally required to have a waterproof function basically, and a waterproof coating is produced through a waterproof fabric.

Accordingly, clothes which are required to be waterproof such as a mountain climbing suit, a ski suit, a right wing, a jumper, and a hat are manufactured by using the waterproof fabric described above so as to faithfully perform the function of the cloth,

The applicant of the present invention is a person who is registered with the registration of a waterproof tape hot air blower such as a synthetic resin hot air blowing machine such as a utility model registration No. 165952 and a 0221140 and a patent registration No. 876906, The waterproof tape is welded to the sewing portion, so that the sewing portion which is vulnerable to waterproofing is completely waterproofed.

The waterproof tape hot air welder as described above heats the waterproof tape supplied together with the waterproof fabric by the hot air nozzle for ejecting the hot air to melt the waterproof tape in the molten state to the sewing portion of the waterproof fabric.

However, in the conventional hot air welding apparatus, since the lower roller formed to be opposed to the upper roller is fixed by the arm formed vertically, it is necessary to provide each hot air welder according to the working environment or environment, There is a problem that the efficiency of use of the hot air blowing apparatus, such as cost loss and securing the facility construction site, is considerably lowered.

Korea Utility Model Registration No. 20- No. 165952. Korea Utility Model Registration No. 20-0221140. Korean Patent Registration No. 10-876906.

SUMMARY OF THE INVENTION The present invention has been devised to solve the above problems, and it is an object of the present invention to provide a hot air blower capable of changing the direction of a lower roller from a work table of a hot air blower, The present invention provides a hot air welder for a synthetic resin having a direction switching structure of a lower roller unit for improving the efficiency of a hot air blowing machine, such as eliminating inconveniences such as securing a facility construction site, It is.

In order to achieve the above-mentioned object, a workbench is formed on an upper part of the main body, a support arm is formed on an upper part of an upper part of the control box and its control box on an upper part of the workbench, A tape winding roll is mounted on the upper portion of the support arm, and a lower roller is formed on the upper portion of the work table so as to be opposed to the upper roller unit and having a heating structure in the upper portion thereof In the hot air welding apparatus for a synthetic resin in which the lower roller unit is formed,

A roller unit mounting groove is formed in the upper part of the work table, a roller unit mounting groove is formed in the center of the work unit, and front and rear through holes,

A lower roller driving part communicating with the front and rear through holes is formed in the lower part of the work table,

In the lower roller unit,

A mounting plate that is seated in the roller unit mounting groove and has a coupling bolt to be fastened to the nut body at its center;

A lower roller arm slantingly projected from one side of the mounting plate toward a central upper portion of the mounting plate and having a lower roller formed at an upper end thereof;

A roller shaft which is formed on an inner upper side of the lower roller arm and on which a lower roller and an upper sprocket are formed;

And an interlocking shaft formed on an inner lower portion of the lower roller arm and having a lower sprocket and an interlocking gear connected to the upper sprocket by an interlocking chain,

And the interlocking gear is interlocked with the lower roller driving part through one of the front through hole and the rear through hole to drive the lower roller driving part.

As described above, in the hot air welding apparatus for a synthetic resin having the direction switching structure of the roller unit according to the present invention, the lower roller is constituted as a unit, and is detachable from the workbench so that the lower arm protrudes from the front to the rear, It is possible to change the direction according to the working environment or work method. Thus, it is possible to reduce the cost of equipment construction by eliminating the need to construct each equipment, It is possible to obtain an effect of further improving the efficiency of the hot air welder.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an overall view of a hot air welding apparatus for a synthetic resin having a direction switching structure of a lower roller unit according to the present invention. FIG.
FIG. 2 is a perspective view of a hot air blowing apparatus for a synthetic resin having a direction switching structure of a lower roller unit according to the present invention. FIG.
Fig. 3 is a front sectional view of the hot air blowing apparatus for a synthetic resin having a direction switching structure of the lower roller unit of the present invention. Fig.
4 is a cross-sectional side view of a hot-air welding apparatus for a synthetic resin having a direction switching structure of a lower roller unit of the present invention.
5 is a first embodiment of a hot air welding apparatus for a synthetic resin having a direction switching structure of a lower roller unit according to the present invention.
6 is a second embodiment of a hot air welder for a synthetic resin having a direction switching structure of a lower roller unit of 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.

2 is a perspective view of a hot air welding apparatus for a synthetic resin having a direction switching structure of a lower roller unit according to the present invention, and Fig. 3 is a perspective view of a lower portion of the lower roller unit according to the present invention. 4 is a cross-sectional side view of a hot-air welding apparatus for a synthetic resin having a direction switching structure of a lower roller unit according to the present invention.

1 to 4, a hot air welding apparatus 1 for a synthetic resin having a direction switching structure of a lower roller unit according to the present invention comprises a work table 20 formed on a main body 10, A support arm 40 is formed on one side of the upper part of the control box 30 and the control box 30. A hot air generating unit 50 and an upper roller 61 And a tape winding roll 70 is mounted on the upper portion of the support arm 40. An upper portion of the work table 20 is opposed to the upper roller unit 60, The lower roller unit 800 having a heating structure in which the lower roller unit 80 is formed is formed in the lower roller unit 800 so that the lower roller unit 800 can be used in the forward and backward directions.

To this end, a rectangular roller unit mounting groove 100 having a front and a rear length is formed on an upper portion of the work table 20.

The roller unit mounting groove 100 is formed with a nut body 110 at the center thereof and the front and rear through holes 120 and 120 'communicating with the lower portion of the work table 20 are respectively passed through the front and rear .

A lower roller driving part 200 is formed in the lower part of the work table 20 to communicate with the front and rear through holes 120 and 120 '.

At this time, the lower roller driving unit 200 first includes a pair of support plates 210 and 210 'that are opposed to both sides of the bottom surface of the work table 20.

The lower roller driving unit 200 includes a driving motor 220. The driving motor 220 is horizontally disposed on the outer side of the supporting plate 210 on one side, A drive shaft 221 protrudes and is supported on the other side support plate 210 'and a drive sprocket 222 is formed in the middle of the drive shaft 221.

The lower roller driving unit 200 includes a guide shaft 230 disposed below the drive shaft 221. Both ends of the guide shaft 230 are formed on both the support plates 210 and 210 ' A guide sprocket 231 corresponding to the drive sprocket 222 is formed.

A front drive shaft 240 is formed on a lower portion of the front through hole 120 of the work table 20 and both ends of the front drive shaft 240 are formed on both sides of a lower portion of the front through hole 120 And a front drive gear 243 is formed in the front drive shaft 240 in a state in which the front drive shaft 243 enters the front drive shaft 240 in a predetermined direction.

The front drive shaft 243 and the front sprocket 242 are disposed adjacent to the front drive shaft 240. The forward sprocket 242 may be smaller than the front drive gear 243.

A rear drive shaft 250 is formed at a lower portion of the rear through hole 120 'of the work table 20 in the lower roller driving unit 200. Both ends of the rear drive shaft 250 are disposed on both sides of the lower portion of the rear through hole 120' And a rear drive shaft 253 is formed in the rear drive shaft 250 in a state in which the rear drive shaft 253 enters the front drive shaft 120 in a predetermined direction.

The rear drive shaft 253 and the rear sprocket 252 are adjacent to the rear drive shaft 253 and the rear sprocket 252 is preferably smaller than the diameter of the rear drive gear 253.

The front drive shaft 240 and the rear drive shaft 250 are configured to be interlocked with each other when the drive motor 220 is driven.

At this time, the driving chain 260 is configured to connect the front sprocket 242 and the rear sprocket 252. In the process of connecting the upper sprocket 242 and the rear sprocket 252, the driving chain 260 passes the lower portion of the driving sprocket 222, V "via the lower portion of the drive shaft 220. The drive motor 220 is driven by driving the drive chain 260 when the drive shaft 221 is driven.

The front drive gear 243 and the rear drive gear 253 may be disposed on opposite sides of the drive chain 260.

In addition, the lower roller unit 800 includes a mounting plate 810 of a rectangular shape that is first fitted into the roller unit mounting groove 100.

At this time, the mounting plate 810 is formed with a coupling bolt 811 which is fastened to the nut body 110 of the roller unit mounting groove 100 at the center thereof in order to be fixed to the roller unit mounting groove 100.

A lower roller arm 820 is formed in the mounting plate 810 so as to be inclined from the longitudinal direction of the mounting plate 810 toward the upper center of the mounting plate 810.

At this time, the lower roller arm 820 is configured such that its center is hollow and its lower end passes through the mounting plate 810 and is opened.

A lower roller 80 and an upper sprocket 831 are formed in the roller shaft 830 so that the lower roller 80 and the upper sprocket 831 are axially extended.

A lower sprocket 841 is disposed in the lower portion of the lower roller arm 820 so as to be opposed to the upper sprocket 831, And the interlocking gear 843 is configured to selectively engage with the forward driving gear 243 or the rear driving gear 253. In this case,

The upper sprocket 831 and the lower sprocket 841 are connected to each other by an interlocking chain 842 to be interlocked with each other.

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

First, the hot air welding machine 1 for a synthetic resin having the direction switching structure of the lower roller unit according to the present invention is capable of switching directions depending on the working environment and working method in constituting the lower roller unit 800, The lower roller arm 820 on which the lower roller 80 is formed can be installed so as to protrude from the front or to protrude from the rear.

1 to 4, when the lower roller arm 820 protrudes from the front, the lower end of the lower roller arm 820 is positioned in front of the mounting plate 810, And the coupling bolt 811 is fastened to the nut body 110. In this case,

At this time, the interlocking gear 843 formed on the inner lower side of the lower roller arm 820 is engaged with the forward driving gear 243 of the lower roller driving part 200, so that the driving force of the lower roller driving part 200 is transmitted to the interlocking gear (843).

The drive chain 260 is connected to the drive sprocket 222 of the drive shaft 221. The drive chain 260 is connected to the drive sprocket 222 of the drive shaft 221, A front drive gear 243 formed on the same front drive shaft 240 as that of the front sprocket 242 rotates and is coupled to the front drive shaft 243 coupled to the front drive shaft 243, The driving force of the interlocking gear 843 is transmitted to the upper sprocket 831 connected to the lower sprocket 841 and the interlocking chain 842 by the rotation of the roller shaft 800, The lower roller 80 can be rotated by rotating the roller 830.

6, when the lower roller arm 820 is protruded from the rear, the coupling bolts 811 are disengaged in the reverse order of assembly of the mounting plate 810, The mounting plate 810 may be rotated by 180 ° and the roller unit mounting groove 100 may be seated with the lower end thereof positioned rearward and the coupling bolt 811 may be fastened to the nut body 110.

At this time, the interlocking gear 843 formed at the lower inner side of the lower roller arm 820 is engaged with the rear driving gear 253 of the lower roller driving part 200, so that the driving force of the lower roller driving part 200 is transmitted to the interlocking gear (843).

The drive chain 260 is connected to the drive sprocket 222 of the drive shaft 221. The drive chain 260 is connected to the drive sprocket 222 of the drive shaft 221, A rear drive gear 253 formed on the same rear drive shaft 250 as that of the rear sprocket 252 rotates and is coupled to the rear drive sprocket 252, The driving force of the interlocking gear 843 is transmitted to the upper sprocket 831 connected to the lower sprocket 841 and the interlocking chain 842 by the rotation of the roller shaft 800, The lower roller 80 can be rotated by rotating the roller 830.

That is, in the hot air welding machine 1 for a synthetic resin having the direction switching structure of the lower roller unit according to the present invention, the lower roller arm 820 is installed so as to protrude from the front by the direction of the mounting plate 810, When the lower roller arm 820 is installed so as to protrude from the front, a space is formed behind the work table 20, and a rear space can be utilized, and the lower roller arm 820 is installed so as to protrude from the rear A space is formed in front of the work table 20, and a rear space can be utilized.

As described above, the hot air welding apparatus for a synthetic resin having the direction switching structure of the lower roller unit according to the present invention enables the directional replacement of the lower roller unit, which is made possible by a simple operation of the coupling bolt. It can be applied variously according to the work environment and work method.

10: Body 20: Workbench
30: control box 40: support arm
50: hot air generating means 60: upper roller unit
61: upper roller 70: tape winding roll
80: Lower roller
100: roller unit mounting groove 110: nut member
120,120 ': front and rear opening
200: lower roller driving part 210, 210 ': supporting plate
220: drive motor 221: drive shaft
222: drive sprocket 230: guide shaft
231: Guide sprocket 240: Front drive shaft
241: front axle portion 242: front sprocket
243: front drive gear 250: rear drive shaft
251: rear spindle portion 252: rear sprocket
253: rear drive gear 260: drive chain
800: lower roller unit 810: mounting plate
811: Coupling bolt 820: Lower roller arm
830: roller shaft 831: upper sprocket
840: Interlocking shaft 841: Lower sprocket
842: Interlocking chain 843: Interlocking gear

Claims (2)

A workbench 20 is formed on the upper portion of the main body 10. A support arm 40 is formed on an upper portion of the control box 30 and the control box 30 at an upper portion of the workbench 20, An upper roller unit 60 having a hot air generating means 50 and an upper roller 61 which is operated to move up and down is formed at the end of the support arm 40. A tape winding roll 70 is mounted on the upper portion of the support arm 40 And a lower roller unit 800 having a lower roller 80 formed on an upper portion of the work table 20 so as to face the upper roller unit 60 and having a heat generating structure therein,
A roller unit mounting groove 100 having front and rear through holes 120 and 120 'communicating with a lower portion is formed at the upper portion of the work table 20 at the center,
A lower roller driving part 200 communicating with the front and rear through holes 120 and 120 'is formed in the lower part of the work table 20,
The lower roller unit 800,
A mounting plate 810 which is seated in the roller unit mounting groove 100 and has a coupling bolt 811 formed at the center thereof to be fastened to the nut body 110;
A lower roller arm 820 slantingly protruding from one side of the mounting plate 810 toward a central upper portion of the mounting plate 810 and having a lower roller 80 formed at an upper end thereof;
A roller shaft 830 which is formed on the inner upper side of the lower roller arm 820 and on which the lower roller 80 and the upper sprocket 831 are formed;
A lower sprocket 841 connected to the upper sprocket 831 and an interlocking chain 842 and an interlocking shaft 840 formed on the lower inner side of the lower roller arm 820 and formed with an interlocking gear 843, ,
The interlocking gear 843 is connected to the lower roller driving part 200 through one of the front through hole 120 and the rear through hole 120 'to be interlocked with the lower roller driving part 200 when the lower roller driving part 200 is driven A hot air welder for a synthetic resin having a direction switching structure of a lower roller unit.
The method according to claim 1,
The lower roller driving part 200,
Supporting plates 210 and 210 'formed on opposite sides of the lower portion of the work table 20;
A drive motor 220 formed on one support plate 210 and having a drive shaft 221 having a drive sprocket 222 at the intermediate portion thereof installed on the other support plate 210 ';
A guide shaft 230 formed on both side support plates 210 and 210 'at a lower portion of the drive shaft 221 and having a guide sprocket 231 formed at an intermediate portion thereof;
A front drive shaft 240 formed on both sides of the lower portion of the front through hole 120 and formed on the front axle portion 241 and having a front drive gear 243 selectively engaged with the front sprocket 242 and the interlock gear 843;
A rear drive shaft 250 formed on both sides of the lower portion of the rear through hole 120 'and formed on the rear axle 251 and formed with a rear drive gear 253 selectively meshing with the rear sprocket 252 and the interlock gear 843; And
And a driving chain 260 connecting the front sprocket 242 and the rear sprocket 252,
The drive chain 260,
And the upper row is passed through a lower portion of the drive sprocket 222 and the lower row is formed in a "V" shape passing through a lower portion of the guide sprocket 231. [ Hot wind welder.

Images