KR20030089794A - connecting structure of heater of hot-blast welder for synthetic resin - Google Patents

Abstract

PURPOSE: A heater coupling structure of a hot air bonding machine for synthetic resin is provided to precisely bond synthetic resin sheets by minutely controlling the position of a heater. CONSTITUTION: In a hot air bonding machine for synthetic resin, a lift unit(11) is coupled with the inside of a placing unit(10) coupled with the end of a support(3) by a guide bar. A cylinder(13) is mounted at the top of the placing unit to move the lift unit up/down. A guide plate(15) is coupled with the bottom of the placing unit, and has a cam groove. A coupling guide is extended from the lift unit, and is hinged with the top of a heater(5). The bottom of the heater is hinged with the cam groove. The heater rotates and moves up/down simultaneously by the operation of the cylinder.

Description

Connecting structure of heater of hot-blast welder for synthetic resin}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hot air welder that continuously forms and forms a sheet of resin on a synthetic resin by a high temperature hot air heater, and in particular, improves the rotational structure of a heater for thermally welding a sheet on a synthetic resin and an operation structure of the heater unit to interfere with the heater and the sheet. It avoids and controls the smooth operation and fine operation of the heater part, and it is a heater part coupling structure that enables heat welding of more precise and fine synthetic resin sheet.

Hot air welding machine for synthetic resin is to make large size sheet paper by attaching and forming sheet paper on synthetic resin continuously. To make.

The hot air welding machine is composed of a pressurized rotary roller which is interviewed up and down and a heater that emits high temperature heat from the side of the roller. .

In addition, the bonded portions of the separated sheet paper are overlapped, and an adhesive tape is inserted therebetween, whereby the bonded portion of the sheet paper is fused and attached by melting the adhesive tape.

The adhesive tape is supplied with the progress of the fabric in a separate adhesive tape roll, the upper roller is formed with a pressing roller for continuously pressing the tape coming from the upper side.

However, the electric heater is a continuous release of high temperature heat, and when the sheet is not thermally welded, the heater must be spaced apart from the thermal bond portion. The conventional heater part entry and exit paths are mostly driven by rotation. Therefore, a problem arises that the sheet is in contact with the end portion of the heater portion heated to high temperature heat and high temperature to cause a defect of the sheet.

That is, the operation of the heater unit having the rotational or linear movement path is a state that the movement is large, causing contact or indirect heat contact with the sheet on the adjacent synthetic resin causes the fabric failure.

The present invention has been made to eliminate the problems described above, the heater portion is mounted to the end of the support by a plurality of fixed plates and moving knob, the heater portion is coupled to the lifting hole which is moved up and down by the rotating plate and the cylinder formed with the cam groove By configuring it as a heater,

Minimizes interference with the seat by three-dimensionalizing the moving path of the heater that discharges high temperature hot air, and finely adjusts the heater part to which the heater is fixed in the front, rear, left, and right directions by a plurality of moving knobs. It is an object of the present invention to provide a heater portion coupling structure of the synthetic resin hot air welding machine capable of thermal welding.

1 is an overall perspective view of a hot air welding machine for a synthetic resin according to the present invention

Figure 2 is a rear perspective view of the heater portion of the synthetic resin hot air welding machine according to the present invention

Figure 3 is a heater operation of the synthetic resin hot air welder according to the present invention

Figure 4 is a partial cross-sectional back view of the hot air welding machine for synthetic resin according to the present invention

Figure 5 is a moving block operation of the synthetic resin hot air welder according to the present invention

Explanation of symbols on the main parts of the drawings

1 Body 2 Control Unit

3: support stand 4,4 ': rotating roller

5: heater

10: settle 11: the hatch

12: guide rod 13: cylinder

14: cam groove 15: guide plate

16: coupling guide 17, 17 ': moving block

18,18 ': Jang 19: Bracket

20: moving knob 21, 21 ': coupling bolt

Hereinafter, preferred embodiments of the present invention will be described.

1 is an overall perspective view of a hot air welding machine for synthetic resin according to the heater unit coupling structure of the present invention, Figure 2 is an enlarged perspective view of the main portion showing the heater unit coupling structure of the present invention.

The upper part of the main body 1 is composed of a control part 2 and a support 3 extending laterally from the control part 2, and the support roller 3 and the lower portion of the support 3, the rotating roller ( In the known hot air welding machine for synthetic resins, which has a heater 5 which forms 4) (4 ') and has a heater 5 proximate and spaced apart from the sides of the rotary rollers 4, 4',

The inside of the settle 10 coupled to the end of the support 3 is shaft-engaged by the guide rod 12, and the elevating opening 11 is lifted on the upper portion of the support 10. Mounting the cylinder for the key 13, the lower one side of the mounting base 10 is coupled to the guide plate 15 formed with the cam groove 14,

The upper side of the heater 5 is hinged by a coupling guide 16 extending from the hatch 11, the lower side of the heater 5 is hinged to the cam groove 14 of the guide plate 15 described above By the operation of the cylinder 13 described above, the heater 5 is configured to simultaneously rotate and move up and down.

Further, the above-described support 3 and the rest 10 are cross-coupled by a plurality of moving blocks 17 and 17 ', and each of the moving blocks 17 and 17' has a long hole 18 and 18. ') Is formed and fixed to the coupling bolts 21 and 21', and the bracket 19 and the moving knob 20 are coupled to one end of each of the moving blocks 17 and 17 ', respectively. Only one moving block 17, 17 'is moved by the rotation of the knob 20, but the flow directions of the respective moving blocks 17, 17' are differently coupled to each other.

Referring to the heater unit operation structure of the synthetic resin hot air welding machine according to the above configuration in more detail as follows.

First, as shown in FIG. 2, a heater 5 for thermally welding the synthetic resin sheet is mounted on one end of the support 3 to which the upper rotary roller 4 is coupled, and the heater 5 is a synthetic resin sheet. If the preliminary preparation work or the heat welding work is to be temporarily stopped, the heater 5, which generates continuous hot air from the heater, must be rotated to one side and the hot air must be discharged to a part other than the welding space of the sheet.

The heater 5 must always repeat approach and separation from the seat.

Therefore, in order to operate the electric heater 5, in the present invention, the cylinder 13 and the guide plate 15 are used to allow the heater 5 to perform three-dimensional rotation by simultaneously rotating and lifting up and down. To induce a safe departure and entry.

That is, although not shown by the heater 5 on the front side as shown in FIG. 3, the cylinder 13 at the rear of the heater 5 is operated to guide the hatch 11 on the inside of the set 10. When the rod 12 is vertically raised, the upper portion of the heater 5 is coupled to the coupling guide 16 coupled to the hatch 11 and simultaneously with the lifting of the hatch 11 and the coupling guide 16. The heater 5 is raised.

The heater 5 that is raised in this way is inserted into the cam groove 14 of the guide plate 15 and the hinge is fixed. When the heater 5 rises, the heater lower portion moves along the cam groove 14. The cam groove 14 is formed so that the lower portion of the heater 5 is easily spaced apart from the sheet welded between the rotary rollers 4 and 4 '.

That is, when the hatch 11 starts to rise, the lower portion of the heater 5 is gradually rotated in the retreating direction, and after being retracted for a certain period, it is rapidly rotated. To get away from the sheet.

In addition, after the preliminary preparation work such as fixing and mounting of the seat is completed, the end portion of the rotated heater 5 is brought closer to the seat to be heated, and the cylinder 13 behind the heater 5 is operated to operate the hatch ( At the same time as the 11 is lowered and the heater 5 is pushed downward, the lower part of the heater 5 located at the other upper portion of the cam groove 14 is returned to the initial position along the cam groove 14 again. This state is a position where the outlet of the heater is close to the sheet to be thermally welded, and the sheet separated by the heating of the heater 5 and the pressing of the rotary rollers 4 and 4 'is thermally welded.

In addition, the heater unit operated in this way should be finely adjusted to the left and right and the front and rear according to the size and type of the sheet, such a fine adjustment of the heater unit is connected to the support 3 and the rest 10 as shown in FIG. A plurality of moving blocks 17 and 17 'are formed to cross and overlap each other, and the moving blocks 17 and 17' are mutually formed by the long holes 18 and 18 'and the coupling bolts 21 and 21'. When the coupling bolts 21 and 21 'are loosened to each other, the movable blocks 17 and 17' can flow in the left, right, front, and up and down directions by the width of the long holes 18 and 18 '. will be.

The coupling block 19 and the moving knob 20 are coupled to each of the moving blocks 17 and 17 'side ends, and the bracket 19 is formed on one moving block 17 and 17'. The movable knob 20 is screwed to the adjacent fixed blocks 17 and 17 ', and the movable block 17 is screwed by the rotation of the movable knob 20 which rotates in place in the bracket 19. 17 'is to be moved a certain distance.

That is, as shown in FIG. 5, when the moving knob 20 is rotated, the moving knob 20 is caught by the bracket 19 so that the moving knob 20 does not move up and down but only rotates in place. The moving blocks 17 and 17 'screwed to each other are to flow up and down.

Therefore, when the plurality of brackets 19 and the moving knob 20 are formed in a plurality of adjacent moving blocks 17 and 17 'to face different directions, each of the moving knobs 20 rotates. Since the above-mentioned heater part flows in the front, rear, up, down, left and right directions, fine adjustment of the heater part is possible, and thus more precise and detailed sheet thermal welding is possible.

The heater part coupling structure of the present invention synthetic resin hot air welding machine as described above minimizes the interference with the seat by three-dimensional moving path of the heater for discharging the hot air wind, and the front and rear of the heater by which the heater is fixed by a plurality of moving knobs Since fine adjustment is possible in the left and right and up and down directions, there is an effect capable of thermal welding of a more precise and fine sheet.

Claims (2)

The upper part of the main body 1 is composed of a control part 2 and a support 3 extending laterally from the control part 2, and the support roller 3 and the lower portion of the support 3, the rotating roller ( In the known hot air welding machine for synthetic resins, which has a heater 5 which forms 4) (4 ') and has a heater 5 proximate and spaced apart from the sides of the rotary rollers 4, 4', The inside of the settle 10 coupled to the end of the support 3 is shaft-engaged by the guide rod 12, and the elevating opening 11 is lifted on the upper portion of the support 10. Mounting the cylinder for the key 13, the lower one side of the mounting base 10 is coupled to the guide plate 15 formed with the cam groove 14, The upper side of the heater 5 is hinged by a coupling guide 16 extending from the hatch 11, the lower side of the heater 5 is hinged to the cam groove 14 of the guide plate 15 described above By the operation of the cylinder 13, the heater (5) is coupled to the heater portion of the synthetic resin hot air welder, characterized in that at the same time to perform the rotation and up and down. The method according to claim 1, wherein the support 3 and the rest 10 are joined by a plurality of movable blocks 17, 17 ', each of which is cross-coupled with a long hole ( 18 and 18 'are formed and fixed to the coupling bolts 21 and 21', and the bracket 19 and the moving knob 20 are attached to one end of each of the movable blocks 17 and 17 '. Combined to allow only one moving block 17, 17 'is moved by the rotation of the moving knob 20, the flow direction of each of the moving block 17, 17' is formed differently coupled to each other Heater part coupling structure of synthetic resin hot air welding machine.