KR20120066871A - Structure for controlling heater postion of hot-air welder for synthetic resin - Google Patents

Abstract

PURPOSE: A structure for regulating an interval of a heater unit for a hot blast fusion device for synthetic resin is provided to prevent faulty seats by preventing a contact between a heater unit and sheet because a sufficient space is obtained. CONSTITUTION: A structure for regulating a interval of a heater unit for a hot blast fusion device for synthetic resin comprises a supporting plate(100), a first moving block, a second moving block(300), a supporting block(400), and a third moving block(500). One side of the first moving block is joined to a first guide rail of the supporting plate and a screw rod of a first drive motor(220) is longitudinally slid. One side of the second moving block is joined to a second guide rail of the first moving block and the upper part of one side of the second moving block and one side of the upper surface are projected so that a projection unit is formed. The second moving block is vertically slid by driving a second driving motor(320). The second moving block is joined to one side end part of the supporting block by the projection unit at right angle to each other. The third moving block is longitudinally slid by driving a third driving motor(520). A heater unit(40) is joined to the other side of the third moving block by a fixing body(30) and the third moving block is driven with the heater unit.

Description

Structure for controlling heater post gap of hot air welding machine for synthetic resins {Structure for controlling heater postion of hot-air welder for synthetic resin}

The present invention relates to a hot air welding machine for continuously attaching and forming a sheet of resin on a synthetic resin by a high temperature hot air heater, and more particularly, by improving the operating structure of the heater unit for thermally welding the sheet on the synthetic resin, while ensuring worker safety. The present invention relates to a heater portion adjusting structure of a synthetic resin hot air welder which facilitates adjustment of a gap between a heater and a rotating roller, and in particular, controls fine operation of the heater portion, thereby enabling thermal welding of a more precise and fine synthetic resin sheet.

Hot air welding machine for synthetic resin is to produce large sized sheets by continuously attaching and forming sheet paper on synthetic resin. It is to make.

The hot air welding machine is composed of a pressurized rotary roller which is interviewed with upper and lower sides and a heater that emits hot heat from the side of the roller, and is produced by joining both ends of the synthetic resin sheet passing through the rollers by high temperature heat. Device.

In addition, the bonded portion of the separated sheet of paper is superimposed, and an adhesive tape is inserted therebetween, whereby the bonded portion of the sheet of 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.

Accordingly, the present applicant, as shown in Patent Registration No. 460988 and FIG. 1, mounts the heater unit 12 at the end of the support 11 formed laterally from the main body 1, and the heater unit 12. Is composed of a heater 16 coupled to the hatch (15) to move up and down by the rotary plate 13 and the cylinder 14, the cam groove is formed,

Minimize the interference with the seat by three-dimensional moving path of the heater 16 for discharging the high temperature hot air, and the heater unit 12 to which the heater 16 is fixed by a plurality of moving knobs As it allows fine adjustment, the heater part coupling structure of the hot air welding machine for synthetic resin, which enables the heat welding of more precise and fine sheets, has been proposed.

However, as described above, the heater part coupling structure of the synthetic resin hot air welder has the driving means of the heater exposed to the rear side of the heater, that is, the side of the hot air welder, so that the heater is driven at an interference position with the operator. As a means is provided, unexpected safety problems occur frequently, and the nozzle at the heater end allows rotation and lifting to be performed simultaneously through the coupling structure as described above. Even in the state of rotating away from the operator is a problem that is still exposed to risks such as burns.

Accordingly, the applicant of the present invention forms a heater rod having a hot air nozzle on the front end of the support end of the hot air welder as in Patent Registration No. 0830606, and the upper side end portion of the heater block for coupling the heater rod is protruded to one side of the support. The hinge is coupled in the induction hole on the upper side, the lower end side of the heater block is hinged to one end of the crank axially coupled to the support side end, the other end of the crank is hingedly coupled to the lower end of the oscillator shaft of the actuator, the actuator It is coupled and fixed to rotate by a fixing pin of the rear side of the, so that the heating rod and the lower hot air nozzle in the front by the operation of the actuator to lift and rotate,

One side of the heater block combines the rotating plate and the elevating plate in sequence, and forms an extension at the tip of the elevating plate, but for the synthetic resin that allows the rotary operation and the up and down lifting operation by the adjustment of the fixing bolt and the adjustment bolt. The heater structure of the hot air welding machine has been proposed.

However, the rotary operation structure of the heater portion of the synthetic resin hot air welder as described above has the advantage of adjusting the gap in various directions, but is to be adjusted by manual adjustment of the fixing bolt and the adjustment bolt fixing the rotating plate and the elevating plate However, it did not completely solve the safety problem caused by the exposed heater during adjustment.

In addition, the operation by the manual adjustment, the fine operation of the heater portion is impossible, the problem that the heat welding of the precise and fine synthetic resin sheet is not made.

The present invention has been made to solve the above problems, the first moving block capable of operating the heater means up and down, the second moving block operable before and after, and the third moveable left and right operation Consists of blocks, each movable block is connected by a guide rail and enabled by driving the drive motor,

Heater spacing of the synthetic resin hot air welder, which prevents sheet defects by preventing the sheet contacting by the hot wind nozzles of the heater to safely and quickly separate the heater from the rollers without the operator's access when the heater is not used. It is an object of the present invention to provide a control structure.

In addition, when adjusting the distance between the heater and the seat, the adjustment of the heater part of the synthetic resin hot air welder, which enables the operator to prevent the risk of burns caused by the heater part, is possible by the simple operation without the operator approaching. It is an object of the present invention to provide a structure.

In addition, fine operation control of the heater part is possible by the motor-driven operation, which enables easy correspondence adjustment according to the type and thickness of the sheet, thereby enabling a heater of the synthetic resin hot air welder, which enables more precise and fine quality heat welding. It is an object of the present invention to provide a sub-gap adjusting structure.

Specific means for achieving the above object, the support plate is coupled to the transverse end surface of the support, the horizontal first guide rail is formed on one side;

One side is coupled to the first guide rail of the support plate, the screw rod of the first drive motor is coupled to slide forward and backward by the drive of the first drive motor, the second vertical guide rail is formed on the other side A first moving block;

One side is coupled to the second guide rail of the first moving block, a protrusion is formed on one side of the upper end and one side of the upper surface is formed, and the screw rods of the second driving motor are coupled to each other by driving of the second driving motor. A second moving block sliding up and down;

A support block having a horizontal third guide rail formed at one side thereof, and having the second moving block coupled at right angles to each other by a protrusion at one end thereof; And

One side is coupled to the third guide rail of the support block, the screw rod of the third drive motor is coupled to the left and right sliding movement by the drive of the third drive motor, the heater is coupled to the other side by the fixing rod And it can be achieved by including a third moving block driven together.

As described above, the heater portion spacing control structure of the synthetic resin hot air welder of the present invention enables rapid and sufficient separation space of the heater portion to prevent the sheet from contacting by the hot wind nozzle of the heater portion, thereby preventing defects of the sheet. You can get the effect.

In addition, since it has a motor-driven structure, it is possible to simply adjust without the operator approaching the heater to obtain the effect that the operator can prevent the risk of burns and the like caused by the heater.

In addition, fine operation control is possible by the motor drive, and thus, the corresponding correspondence can be easily adjusted according to the type and thickness of the sheet, thereby obtaining a more precise and detailed heat welding effect.

Figure 1 is an overall view showing the operation structure of the heater portion of the conventional synthetic resin hot air welder.
Figure 2 is a perspective view of a heater block coupled state of the heater portion spacing control structure of the present invention synthetic resin hot air welder.
Figure 3 is a rear perspective view of a heater block coupled state of the heater portion spacing control structure of the present invention synthetic resin hot air welder.
Figure 4 is a rear exploded perspective view of the heater spacing control structure of the present invention synthetic resin hot air welding machine.
Figure 5 is a bottom perspective view of the heater spacing control structure of the present invention synthetic resin hot air welding machine.
Figure 6 is a perspective view showing the operation state before, after, up, down, left, right of the heater gap adjustment structure of the hot-air welding machine for synthetic resin of the present invention.
Figure 7 is a bottom view showing the operation state before and after the heater portion spacing control structure of the present invention synthetic resin hot air welder.
Figure 8 is a rear view showing the up and down operating state of the heater spacing control structure of the present invention synthetic resin hot air welding machine.
Figure 9 is a rear view showing the left and right operating state of the interval adjustment structure of the heater portion of the hot-air welding machine for synthetic resin of the present invention.

The terms or words used in this specification and claims are not to be construed as limiting in their usual or dictionary meanings, and the inventors may appropriately define the concept of terms in order to best explain their invention in the best way possible. It should be interpreted as meaning and concept corresponding to the technical idea of the present invention based on the principle that 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.

Figure 2 is a perspective view of the heater spacing control structure of the synthetic resin hot air welder of the present invention, Figure 3 is a rear perspective view of the heater portion spacing control structure of the synthetic resin hot air welder, Figure 4 is a heater of the synthetic resin hot air welder Figure 5 is a bottom exploded perspective view of the spacing control structure, Figure 5 is a bottom perspective view of the heater portion coupled state of the heater spacing control structure of the hot air welding machine for synthetic resin of the present invention.

2 to 5, the heater portion spacing control structure of the present invention hot air welder, as shown in the upper portion of the main body 1 is formed with a support 10 extending laterally, the lower portion of the support 10 is interlocked with each other The rotating rollers 11 and 11 'are formed, and the heater block 20 to which the heater rod 22 having the hot air nozzles 21 is fixed so as to be proximate and spaced apart from the sides of the rotating rollers 11 and 11'. And a heater unit 40 which is connected to the heater block 20 and has a guide plate 31 for guiding rotation of the heater block 20 and an actuator 32 formed with an actuator 32 at an end thereof. In hot air welding machine,

A support plate 100 coupled to the support 10, a first movable block 200 coupled to the support plate 100, and a second movable block 300 coupled to the first movable block 200. , The support block 400 coupled to the second move block 300, the third move block 500 coupled to the support block 400, and the respective .2.3 move blocks 200 and 300. (500) is composed of a plurality of first 1.2.3 drive motors 220, 320, 520 for the drive key.

At this time, the support plate 100 is configured in a plate shape having a predetermined thickness, and is coupled to the end surface of the support 10 formed to extend laterally from the hot air welder main body 1, and is exposed in the horizontal direction on the upper side of one side. A plurality of first guide rails 110 are formed.

In addition, the lower side of one side of the support plate 100 is formed with a fixing bracket (220a), the fixing bracket 220a, the first drive motor 220 having a screw rod 221, the screw rod 221 is the main body ( It is fixed horizontally in the same direction as the first guide rail 110 to the front of 1).

The first moving block 200 is configured in a plate-shaped block shape having a predetermined thickness, is coupled to the first guide rail 110 of the support plate 100 by one side, the first drive motor 220 It is configured to slide in the front and rear direction of the main body (1).

Here, the first moving block 200 is formed with a plurality of guide members 211 on one side thereof, the guide member 211 is slidably joined to the first guide rail 110 by the guide member 211 and thereby The sliding block 200 is configured to be movable.

In addition, a support piece 240 having a shaft hole 241 is formed on both sides of a lower surface of the first moving block 200, and a moving member 222 having a square nut shape is formed between the divided support pieces 240. ) Is interposed, the screw rod 221 of the first driving motor 220 fixed to the support plate 100 passes through the shaft hole 241 of the support plate 100 to the napping and moving parts 222 to the moving member 222. The movement of the moving member 222 and the front and rear movement of the first moving block 200 along the screw rod 221 by the drive of the motor 220 is configured to be made.

In addition, a plurality of second guide rails 210 are formed on the other side of the first moving block 200 in the vertical direction, and a fixing bracket 220a is formed on an upper end of the first moving block 200, and the fixing bracket 220a is The second driving motor 320 having the four rods 221 is vertically fixed in the same direction as the second guide rail 210 so that the screw rods 221 face the lower portion of the main body 1.

The second movable block 300 is formed in a plate-shaped block shape having a predetermined thickness, and is formed with a protrusion 330 protruding from one side of the upper end and one side of the upper surface, and the first side of the support plate 100 by one side. Coupled to the two guide rails 210, the second drive motor 320 is configured to slide in the vertical direction of the main body (1).

Here, the second moving block 300 is formed with a plurality of guide members 311 on one side thereof, the guide member 311 is slidably joined to the second guide rail 210 by the guide member 311 and thereby The sliding block 300 is configured to be capable of sliding.

In addition, a support piece 340 having a shaft hole 341 is formed to protrude to one side so as to be divided up and down in the lower portion of the protrusion 330 of the second moving block 300, that is, one side end. A moving member 322 having a rectangular nut shape is interposed between the support pieces 340, and the screw rod 321 of the second driving motor 320 fixed to the first moving block 200 is formed in the shaft hole 341. ) Through the screw rod 321 and the movement of the moving member 321 and the up and down movement of the second moving block 300 by the drive of the screwdriver 321 and the second drive motor 320 through the moving member 322. This is configured to be done.

The support block 400 is formed in a plate-shaped block shape having a predetermined thickness, and is planar to the protrusion 330 of the second movable block 300 by one side, that is, one end of the front side of the main body 1. It is combined to form a "b" shape.

Here, a plurality of third guide rails 410 are formed on one side of the support block 400 in the horizontal direction, and a fixing bracket 520a is formed on one side of the upper surface, and a screw rod (1) is provided on the fixing bracket 520a. The third driving motor 520 having the 521 is horizontally fixed in the same direction as the third guide rail 410 so that the screw rod 521 faces the support 10 of the main body 1.

The third moving block 500 is configured in a plate-shaped block shape having a predetermined thickness, is coupled to the third guide rail 410 of the support block 400 by one side, the third drive motor 520 It is configured to slide in the left and right directions of the main body (1).

Here, the third movable block 500 is formed with a plurality of guide members 511 on one side thereof, that is, the rear side of the main body 1, and the third guide rail 410 by the guide member 511. It is configured to be slidable to and thereby the sliding of the third movable block 500 is configured.

In addition, the support piece 550 having the shaft hole 541 is formed on one side of the upper surface of the third movable block 500 so as to be divided into both sides, and the square nut shape is moved in the middle of the divided support piece 540. The member 522 is interposed, and the threaded rod 521 of the third driving motor 520 fixed to the support block 400 penetrates the shaft hole 541 to insert the screw into the moving member 522. The movement of the movable member 522 and the left and right movements of the third movable block 500 are performed along the screw rod 521 by the driving of the motor 520.

In addition, the third movable block 500 is the heater portion 40 of the hot air welder is bolted to the other side, that is, the front side of the main body 1 by the fixing table 30, the third movable block 500 It is possible to move with).

On the other hand, each of the 1.2.3 drive motors 220, 320, 520 applied to the present invention is preferably to use a forward and reverse motor capable of rotating in the forward and reverse directions.

Hereinafter, with reference to the accompanying drawings, the action of the heater portion spacing control structure of the hot air welding machine for synthetic resin according to the present invention having the configuration as described above will be described in detail.

First, the hot-air welding machine of the present invention has a support 10 protruding horizontally from one side of the main body 1, as is well-known, the lower portion of the support 10, the rotary roller 11 to rotate in conjunction with each other ( 11 ') is provided.

At this time, when the hot air is discharged through the hot air nozzle 21 at the lower end from the heater rod 22 that is rotated to the support 10, the rotary rollers 11 and 11 'of the upper and lower interview states. The sheet paper inserted in between is melt-bonded by adhesive tape or the like.

Here, the heater rod 22 has a rotational operation structure to be close to or spaced from the rotary rollers (11) (11 ') by the operation of the actuator 32 and the guide plate 31 for the insertion or removal of sheet paper. In addition, the heater rod 22 is a rotary roller 11 (the position of the hot air nozzle 21 of the heater rod 22 according to the type, thickness and material of the sheet to be welded, etc.). 11 ') is to be provided with a separate control means that can be appropriately varied.

Therefore, in the present invention, a heater block 20 having a heater rod 22 installed therein, a guide plate 31 and an actuator 32 connected to the heater block 20 and guiding rotation of the heater block 20 at an end thereof. The heater unit 40 is made of a fixed base 30 is formed to operate electrically fine, yet stable.

That is, the heater 40 is movable by the first driving motor 220 before and after the main body 1, by the second driving motor 320 to be moved up and down, and the third The distance between the hot air nozzle 21 and the rotary rollers 11 and 11 'of the heater rod 22 as shown in FIG. 6 is adjusted by three-dimensional operation such as left and right movement by the driving motor 520. It is fast and finely adjustable.

The operation state will be described in detail.

First, a look at the before and after operating state of the heater unit 40, Figure 7 is a bottom view showing the before and after operating state of the heater unit spacing control structure of the synthetic resin hot air welding machine, hot air of the heater rod 22 The nozzle 21 moves forward and backward from the rotating rollers 11 and 11 'and is capable of adjusting proximity and separation distance.

As illustrated in FIG. 7, the first driving motor 220 may be operated at the time of front and rear operation of the heater unit 40. When the first driving motor 220 is operated, the rotation of the screw rod 221 may be performed. In this case, the moving member 222 inserted into the screw rod 221 is moved by the rotational force of the screw rod 221.

That is, at the same time as the movement of the movable member 222, the movable member 222 acts to push the pushing force to one side of the divided support piece 240 of the first movable block 200, by the pressing force The first moving block 200 also moves along the first guide rail 110 of the support plate 100 in the moving direction of the moving member 22, and according to the rotational direction of the first driving motor 220, the main body. The movement forward or backward of (1) is made.

On the other hand, when moving the front and rear of the first moving block 200 as described above, the second moving block 300 and the third moving block 500 that are sequentially connected from the first moving block 200 is also moved together, At this time, before and after the movement of the heater unit 40 coupled to the third moving block 500 is made.

In addition, looking at the upper and lower operating state of the heater unit 40, Figure 8 is a rear view showing the upper and lower operating state of the heater unit gap control structure of the synthetic resin hot air welding machine of the present invention, the hot air of the heater rod 22 The nozzle 21 is moved up and down from the rotary rollers 11 and 11 'and the proximity and the separation distance can be adjusted.

As shown in FIG. 8, when the heater unit 40 is operated up and down, the second driving motor 320 may be operated. When the second driving motor 320 is operated, the screw rod 321 is rotated. In this case, the moving member 322 inserted into the screw rod 321 is moved by the rotational power of the screw rod 321.

That is, at the same time as the movement of the moving member 322, the moving member 322 acts to push the pushing force to one side of the divided support piece 340 of the second moving block 300, by the pressing force The second moving block 300 is also moved along the second guide rail 210 of the first moving block 200 in the moving direction of the moving member 322, and in the rotation direction of the second driving motor 320. Therefore, the movement to the upper part or the lower part of the main body 1 is made.

Meanwhile, the support block 400 coupled to the second move block 300 and the third move block 500 connected to the support block 400 also move when the second move block 300 moves forward and backward as described above. By moving together, at this time, the up and down movement of the heater unit 40 coupled to the third moving block 500 is made.

In addition, when looking at the left and right operating state of the heater unit 40, Figure 9 is a rear view showing the left and right operating state of the heater section spacing control structure of the present invention synthetic resin hot air welding machine, the hot air of the heater rod 22 The nozzle 21 moves left and right from the rotating rollers 11 and 11 ', and the proximity and the separation distance can be adjusted.

As shown in FIG. 9, when the heater unit 40 operates left and right, the third driving motor 520 may be operated. When the third driving motor 520 is operated, the screw rod 521 is rotated. In this case, the moving member 522 inserted into the screw rod 521 is moved by the rotational force of the screw rod 521.

That is, at the same time as the movement of the movable member 522, the movable member 522 acts to push the pushing force to one side of the divided support piece 540 of the third movable block 500, and by the pressing force The third moving block 500 is also moved along the third guide rail 410 of the support block 400 in the moving direction of the moving member 522, and according to the rotation direction of the third driving motor 520, The movement to the left side or the right side of the main body 1 is performed.

On the other hand, when the left and right movement of the third moving block 500, as described above, the left and right movement of the combined heater unit 40 of the third moving block 500 is made.

Here, each of the 1.2.3 mobile blocks 200, 300, 500 can be selectively adjusted at the same time, and three first, 2.3 mobile blocks 200, 300, 500 if necessary. It can be operated at the same time and can be easily used according to the working conditions.

As described above, the present invention automatically adjusts each moving block in the front, rear, up, down, left and right directions by the respective driving motors, so that the operator approaches when adjusting the distance between the hot air nozzle of the heater rod and the rotating roller. While preventing injuries such as burns that occur, it is possible to adjust the most suitable position according to the material and characteristics of the sheet by adjusting the speed and minute spacing, such as to provide the optimal thermal welding conditions and efficient work is made.

100: support plate 110: first guide rail
200: first moving block 210: second guide rail
220: first driving motor 300: second moving block
320: second drive motor 330: protrusion
400: support block 410: third guide rail
500: third moving block 520: third driving motor

Claims (3)

A support 10 extending laterally on the upper part of the main body 1 is constituted, and below the support 10, rotation rollers 11 and 11 'are formed to be interlocked with each other, and rotation rollers 11 and 11 are formed. A heater block 20 having a hot air nozzle 21 fixed to the heater block 20 to be proximate and spaced apart from a side of the side of the '), and connected to the heater block 20 and rotating the heater block 20 at an end thereof. In the hot air welding machine for synthetic resin having a heater plate 40 made of a guide plate 31 and an actuator 32 formed with a guide plate 31 for guiding the
A support plate 100 coupled to the transverse end surface of the support 10 and having a horizontal first guide rail 110 formed on one side thereof;
One side is coupled to the first guide rail 110 of the support plate 100, the screw rod 221 of the first drive motor 220 is coupled to the front by the drive of the first drive motor 220. A first movable block 200 which is slidably moved and has a vertical second guide rail 210 formed on the other side thereof;
One side thereof is coupled to the second guide rail 210 of the first moving block 200, and a protrusion 330 is formed to protrude one side and one side of the upper surface, and the second of the second driving motor 320. A second moving block 300 coupled to the four rods 321 and slidably moved up and down by driving the second driving motor 320;
A support block 400 having a horizontal third guide rail 410 formed at one side thereof, and having the second moving block 300 at right angles thereof coupled at right angles to each other by the protrusion 330; And
One side is coupled to the third guide rail 410 of the support block 400, the screw rod 521 of the third drive motor 520 is coupled to the left by the drive of the third drive motor 520. . The heater of the synthetic resin hot air welder, comprising: a third movable block 500 which is slidably moved and the heater unit 40 is bolted and driven together by the fixing unit 30 on the other side. Division spacing control structure.
The method of claim 1,
Each of the first 1.2.3 moving blocks 200, 300, 500 is formed with a guide member 211, 311, 511 on one side thereof, the guide member 211, 311 ( 511 is slidably coupled to the respective 1.2.3 guide rails (110) (210) (410) heater spacing control structure of the synthetic resin hot air welder.
The method of claim 1,
The first driving motor 220 is horizontally fixed in the longitudinal direction to the lower portion of the support plate 100 by the fixing bracket 220a, the moving member 222 is inserted in the middle of the lower surface of the first movable block 200. To form a support piece 240 having a shaft hole 241, the screw rod 221 is screwed into the moving member 222 through the shaft hole 241 to move the front and rear of the first moving block 200. Crackdown,
The second driving motor 320 is vertically fixed to the upper portion of the first moving block 200 by the fixing bracket 320a, and the moving member 322 in the middle of the lower portion of the one side of the second moving block 300. Is formed in the support piece 340 having a shaft hole 341, the screw rod 321 is screwed into the moving member 322 through the shaft hole 341, the upper and lower of the second movable block 300. To crack down on movement
The third driving motor 520 is horizontally horizontally fixed to the upper surface of the support block 400 by the fixing bracket 520a, and the moving member 522 is intermediate to the upper surface of the third moving block 500. A support piece 540 having a shaft hole 541 is formed, the screw rod 321 is screwed into the moving member 522 through the shaft hole 541, the left and right of the third movable block 500. Spacing control structure of the heater portion of the synthetic resin hot air welder, characterized in that the movement is intermittently configured.

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