KR20130106573A - Rotation system of hot-air nozzle of hot-air wellder for synthetic resin - Google Patents

Abstract

PURPOSE: A hot-blast welder for synthetic resin with a hot-blast nozzle rotating structure is provided to prevent a cutting waterproof tape from being attached to the top of an upper roller as a hot-blast nozzle is arranged adjacent to the top of the upper roller in a temporary stop of a task. CONSTITUTION: A hot-blast welder for synthetic resin with a hot-blast nozzle rotating structure includes a guide unit (100), a heater unit (200), and an elevation operating unit (300). The heater unit includes a heater rod joining unit (211), in which a heater rod is joined, on the front side. A movable block (210) includes a sliding unit (212) fixated to a guide shaft (230) inserted between both guide plates (123) and penetrated through an inductive long-hole (122). The movable block is formed on the rear side of the heater unit. The movable block is vertically moved along the inductive long-hole by the operation of an actuator (330).

Description

Rotation system of hot-air nozzle of hot-air nozzle of synthetic resin

The present invention relates to a hot air welding machine for adhering a waterproof tape to a sewing portion of a waterproof fabric by high temperature hot air, and more particularly, to improve an operation structure of a hot air nozzle for thermally welding a waterproof tape to a sewing portion of a waterproof fabric. However, the hot air nozzle of the heater that rotates along the guide groove formed in the cam groove is operated to rotate up and down along the curvature of the upper roller in a state spaced apart from the upper roller, so that the operation is performed again at the beginning of the initial work or after a pause. Hot air can be applied efficiently by applying hot air from the beginning of the waterproof tape, enabling the close adhesion of the waterproof tape.In particular, when cutting the waterproof tape according to the pause, the waterproof tape rolls upwards. Hot air furnace of synthetic resin hot air welding machine which prevents the damage and brings convenience to work again. It relates to a blade rotation operation structure.

In recent years, as leisure activities and hobby activities are actively performed, various functional clothes, cloths, tents and tents are widely used.

Such various types of coating are generally to be provided with a waterproof function, and is produced through a waterproof fabric having a waterproof function.

Accordingly, fabrics that require waterproofing, such as functional clothing or cloth, tents, tents, etc. are to be prepared for rainy weather due to the waterproof function while performing the original function faithfully by using the above-described waterproofing fabric.

Accordingly, the applicant of the present invention is a person registered and registered a synthetic resin hot air welding machine such as Utility Model Registration No. 116595 and 0221140 and a waterproof tape hot air welding machine such as Patent Registration No. 876906, which is a waterproof fabric using high temperature hot air. As the waterproof tape is welded to the sewing part of the bar, the waterproof part is made to be completely waterproof.

According to this, the waterproof tape hot air welding machine as described above, as shown in Figure 1 to form a work table 11 on the upper portion of the main body 10, the vertical support portion 12 and the upper portion of the work table 11 It consists of a support arm 13 protruding to the upper side of the support 12, the rotatable hot air generating means 14 is mounted to the end of the support arm (13).

In addition, the lower roller 21 is installed on the upper side of the work table 11 is installed upside, the upper end of the support arm portion 13 is formed with an upper roller 22 fixed to the lower side, the upper portion The roller 22 is configured to be able to flow upward and downward, and the tape winding roll 15 on which the waterproof tape is wound is mounted on the upper side of the support arm 13.

Accordingly, the hot air welding machine as described above heats the waterproof tape supplied with the waterproof fabric by the hot wind nozzle for discharging high temperature heat, and the waterproof tape in the molten state is welded to the sewing portion of the waterproof fabric by pressing the upper and lower rollers. To make it happen.

On the other hand, the hot air generating means (heater) is a continuous discharge of high-temperature heat, when the heat-resistant fabric is not thermally welded to the position away from the heat joint, but the waterproof fabric is in contact with the hot air nozzle It prevents the failure of the waterproof fabric by preventing it.

Therefore, the applicant of the present invention, by the patent registration No. 460988 and 830606 by the left and right rotation operation of the heater unit when the non-operation by the heater unit and hot air nozzles to escape from the waterproof fabric to protect the waterproof fabric as well as the safety of the operator. It was.

However, the heater operation structure as described above is that the upper and lower rollers rotate and heat is supplied through the hot air nozzles at the same time as the waterproof fabric enters the thermal welding process. There was a very serious problem that partial defects occur such that the adhesion is made before the heat is applied and the adhesion of the waterproof fabric is lowered.

In addition, when the work is paused, the cut waterproof tape is completely rolled up to the upper part, there was a hassle in working due to the resetting of the waterproof tape during the work again.

The present invention has been made to solve the above problems, the heater portion of the hot air nozzle during the rotation operation of the heater portion along the guide hole formed by the cam groove from the top of the upper roller to the bottom in a state spaced apart from the upper roller by a predetermined distance By rotating along the curvature, the waterproof tape joins the initial waterproof fabric by heating and heating the nozzle along the waterproof tape that enters the joint at the top of the upper roller when it is restarted after the initial operation or pause. It is an object of the present invention to provide a hot air nozzle rotating operation structure of a synthetic resin hot air welder which is made to be intimately bonded at the same time by a waterproof tape to which sufficient adhesive heat is applied.

In addition, the hot air nozzle formed at a predetermined distance from the upper roller prevents the cut waterproof tape from being completely rolled up even when the work is paused, so that the work can be performed quickly and again during work. It is another object of the present invention to provide a hot air nozzle rotating operation structure of the welder.

As a specific means for achieving the above object, a support extending in the horizontal direction is formed on the upper portion of the main body, the end of the support is formed with a gap adjusting portion that flows up, down, left and right, the gap adjusting portion cam groove In the well-known synthetic resin hot air welding machine formed by rotating the operating rod is mounted to the heater rod is rotated left and right, the upper roller is formed in the gap adjusting portion and the lower roller protruding from the main body in the vicinity of the lower hot air nozzle of the heater rod ,

A guide member formed of a guide member coupled to a front surface of the rotary operation unit, a guide member coupled to a front surface of the support plate, and having a long hole-type through hole formed at a center thereof and a guide plate having a guide hole opposed to each other at both sides;

A heater rod having a heater block coupled to the heater rod at a front side thereof, and having a sliding block formed at a rear thereof with a sliding portion fixed to a guide shaft penetrating through the inboard and guide holes between the two guide plates; And

A fixed plate coupled to one end of the support plate, a support bracket protruding from one side of the fixed plate, and an upper end of the actuator is hingedly coupled to the support bracket, and an elevating actuator having a lower end shaft of the actuator hinged to the flow block. Including but not limited to

By the operation of the actuator is to achieve the flow block is configured to flow up and down along the guide hole.

As described above, the hot air nozzle rotating operation structure of the synthetic resin hot air welding machine, the flow block surrounding the heater rod according to the actuator operation is rotated up and down along the curvature of the induction hole, the hot air nozzle formed at the end of the heater rod By being rotated up and down along the circumference of the upper roller, it is possible to obtain an effect of enabling close adhesion from the beginning of the waterproof fabric by entering the state where sufficient heat of adhesion is given when the first waterproof tape enters the joint.

In addition, the hot air nozzle is located close to the upper part of the upper roller when the work is suspended, thereby preventing the cutting waterproof tape from completely escaping to the upper part of the upper roller, thereby enabling the quick setting of the waterproof tape when the work is performed again. Will be obtained.

1 is an overall view showing a conventional hot air welding machine for synthetic resin.
Figure 2 is a perspective view of the hot air welding machine of the hot air nozzle rotary operation structure of the hot air welding machine for synthetic resins of the present invention.
Figure 3 is a combined perspective view of the hot air nozzle rotating operation structure of the present invention synthetic resin hot air welder.
Figure 4 is an exploded perspective view of the main part of the hot air nozzle rotating operation structure of the hot air welding machine for synthetic resins of the present invention.
Figure 5 is a side view of the hot air nozzle rotating operation structure of the present invention synthetic resin hot air welder.
6a and 6b is an operating state diagram of the hot air nozzle rotating operation structure of the present invention synthetic resin hot air welding machine,
Figure 6a is a state in which the hot air nozzle is located on top of the upper roller.
6B is a state diagram in which the hot air nozzle has entered the junction.
Figure 7 is a cross-sectional view showing the main portion of the lifting width adjustment state of the hot air nozzle rotary operation structure of the hot air welding machine for synthetic resins 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.

Figure 2 is a perspective view of the hot air nozzle rotary operation structure of the hot air nozzle rotary operation structure of the present invention synthetic resin, Figure 3 is a combined perspective view of the hot air nozzle rotary operation structure of the hot air welding machine for the present invention, Figure 4 is a hot air for synthetic resin hot air Main part exploded perspective view of the hot air nozzle rotating operation structure of the welding machine, Figure 5 is a side view of the hot air nozzle rotating operation structure of the hot air welding machine for synthetic resin of the present invention.

2 to 5, the hot air nozzle rotating operation structure of the hot air welding machine for synthetic resin of the present invention,

A support 10 extending laterally on the upper portion of the main body 1 is formed, and an end portion of the support 10 is formed with a space adjusting portion 20 that flows up, down, left, and right, and a space adjusting portion thereof. The cam groove is provided with a rotary actuator 30 in which the heater rod 32 is rotated left and right by the cam groove, and the gap adjusting unit 20 is disposed near the lower hot air nozzle 33 of the heater rod 32. In the well-known synthetic resin hot air welding machine in which the upper roller 21 and the lower roller 22 protruding from the main body are formed,

Guide unit 100 formed on the front surface of the rotary operation unit 30, the heater unit 200 flowing in accordance with the guide of the guide unit 100, and the lifting operation unit for operating the heater unit 200 It is composed of 300.

Here, the guide unit 100 is formed on the front surface of the rotary operation unit 30, it is preferable to be configured to be coupled to the conventional moving block 31 to move along the cam groove of the rotary operation unit 30. will be.

That is, the plate-shaped support plate 110 having a predetermined thickness is formed on the movable block 31, and the guide member 120 is formed on the front surface of the support plate 110.

At this time, the guide member 120 has a long hole-type through-hole 121 is formed in the center in the vertical direction in the center, the guide plate 123 (123 ') in front of both sides of the through-hole 121 Each is formed to protrude.

In addition, the guide plates 123 and 123 'are formed with guide holes 122 and 122' opposed to each other.

In this case, the guide field 122, 122 'is configured to have the same curvature as the outer circumference of the upper roller 21, and composed of a plurality of upper, lower in each of the guide plate 123, 123'. Preferably, the flow block 210 to be described below when the hot air nozzle 33 formed at the end of the heater rod 32 when the up and down flow along the induction hole 122, 122 'is the outer of the upper roller 21 It is configured to rotate up and down along the circumferential curvature.

The heater unit 200 includes a flow block 210 that is embedded between the guide plates 123 and 123 'to be slidable, and a hot air nozzle 33 at a lower end coupled to the flow block 210. It is composed of a heater rod 32 having.

Here, the flow block 210, the heater rod coupling portion 211 for fixing the heater rod 32 is formed in the front, the rear is embedded between the two guide plates (123, 123 '). Sliding part 212 is formed, the heater rod coupling portion 211 is composed of a common split piece is preferably configured to be pressure-coupled to the heater rod 32 by the inner material and the bolt, etc., the sliding portion 212 is an internal portion between the guide plates 123 and 123 'by the guide shaft 230 penetrating through the guide holes 122 and 122', and an end of the guide shaft 230 is formed by a bolt or the like. It is configured to be closed.

The lifting operation unit 300 is a fixing plate 310 coupled to protrude to the front to form a right angle with the support plate 110 at the right end of the support plate 110, and the heater rod (top) of the fixing plate 310 It is composed of an actuator 330 having a support bracket 320 and protruding shaft 331 at the lower end formed to protrude toward the 32.

Here, the actuator 330, the upper end of the hinge (H) rotatably coupled to the support bracket 320, the lower end of the shaft 331, the end of the heater rod coupling portion of the flow block 210 ( It is configured to be coupled to the hinge (H) rotatably to 211, the lifting and lowering of the flow block 210 and the guide hole 122, 122 'by the appearance of the chulcha shaft 331 of the actuator 330. Therefore, rotational flow is possible.

On the other hand, the electric motor 410 is fixed to the bracket 411 on the upper portion of the guide member 120, the lower portion of the electric motor 410 by the power of the electric motor 410 or manually by the operator's hand Rotating body 420 is formed by rotation, the lower end surface of the rotating body 420 is formed with a female threaded portion 421 is configured to be screwed to the adjustment bolt 430 having a square head 431,

The adjustment bolt 430 is inserted into the upper portion of the sliding block 212 of the floating block 210 to prevent the rotation of the head 431 and the fixing groove 213 to the end surface of the head 431 is further interviewed. Including but not limited to

Up and down the lifting width of the flow block 210 due to the appearance of the adjustment bolt 430 by the rotation operation of the rotating body 420 is configured to be adjusted.

On the other hand, the organic coupling relationship of each of the components to achieve the configuration as described above is preferred to apply the conventional bolting method.

Hereinafter, with reference to the accompanying drawings the action of the hot air nozzle rotating operation 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.

6a and 6b is a state diagram of the operation structure of the hot air nozzle rotation of the hot air welding machine for synthetic resin of the present invention, Figure 6a is a state diagram in which the hot air nozzle is located on the upper roller, Figure 6b is a hot air nozzle enters the junction State of the State is also.

First, the hot air nozzle rotating operation structure of the hot air welding machine for synthetic resin of the present invention is configured to be mounted left and right by the rotary operating unit 30 in the same manner as the heater unit of the conventional hot air welding machine.

That is, when the bonding operation of the waterproof fabric is not performed, the hot air nozzle 33 is completely out of the upper and lower rollers 21 and 22 to the left side. In the preparation step for performing the bonding operation, the hot air nozzle ( 33) is entered into and mounted to the right close to the upper and lower rollers 21 and 22, and this operating relationship is applied to various operating structures including patent registration 0830606 filed by the present applicant. There is a bar.

However, the hot air nozzle rotating operation structure of the hot air welding machine for synthetic resin of the present invention, as shown in Figure 6a, the hot air nozzle 33 is not located at the joint portion when the upper and lower rollers 21, 22 are approaching close, It is initially prepared to be positioned above the roller 21.

Subsequently, the adhesive work may be performed on the sewing unit of the waterproof fabric 60 using the waterproof tape 50. In this case, the waterproof tape 50 may be supplied from the upper portion of the upper roller 21 and the upper roller 21. Along with the lower roller 22 is entered between the upper and lower rollers 21, 22 is bonded to the sewing portion of the waterproof fabric 60 by the pressing of the lower.

In detail, the hot air nozzle 33 is positioned on the upper front of the upper roller 21, and the end of the waterproof tape 50 is positioned at the position thereof, and the waterproof tape 50 is illustrated in FIG. 6B. When the hot air nozzle 33 enters along the upper roller 21, the hot air nozzle 33 also moves along the waterproof tape 50 from the upper part of the upper roller 21 to the joint between the upper and lower rollers 21 and 22 to be waterproofed. The tape 50 is continuously heated.

That is, when the bonding operation is performed, the actuator 330 of the elevating operation unit 300 is operated, the actuator 330 is pushed down the flow block 210 with the withdrawal of the wandering shaft 331. At this time, the flow block 210 to move to the lower side, since both sides of the guide shaft 230 is moved along the guide field hole (122, 122 '), the hot air nozzle with the rotation operation of the heater rod (32) 33) is to move downward along the curvature of the upper roller (21).

In this case, the linear movement of the actuator 330 is converted into a rotational movement, since the end portions of the actuator 330 and the projection shaft 331 are connected to the hinge H, thereby securing the fluidity.

Therefore, when the bonding operation is started, the first waterproof tape 50 is adhered since the hot water nozzle 33 continuously applies sufficient hot air until it enters the joint from the end of the waterproof tape 50 which has not yet entered. Since the stable adhesive force is secured from the point to be able to closely adhere to the sewing portion of the waterproof fabric (60).

On the other hand, the hot air nozzle 33 entered into the sewing unit as described above is to apply the hot air to the joint continuously to perform the bonding operation, the hot air with the cutting of the waterproof tape 50 at the time of suspension of the bonding operation The nozzle 33 is also to move upward in the reverse order of the entry as shown in Figure 6a, the cut waterproof tape 50 is caught by the hot air nozzle 33 located close to the upper portion of the upper roller 21 Because it does not roll up, it is possible to proceed smoothly again.

In addition, the hot air nozzle rotation operation structure of the present invention synthetic resin hot air welding machine is capable of adjusting the operating width of the rotating heater unit 200, which is to operate the electric motor 410 as shown in FIG. What is necessary is just to adjust the rotation rotator 420 by it.

That is, when the rotating body 420 is rotated in one direction, the adjustment bolt 430 is fixed to the fixing groove 213 by the square head 431 is not rotated, the rotating body 420 It is made to go out from the female thread of the, and when the adjusting bolt 430 is pulled out to push the flow block 210 according to the extraction degree of the adjusting bolt, the hot air nozzle 33 also the curvature of the upper roller 21 Accordingly, the movement width of the hot air nozzle 33 and the narrow movement adjustment to the lower side are shortened.

On the contrary, in order to increase the moving width of the hot air nozzle 33, when the rotating body 420 is rotated in the other direction, the adjusting bolt 430 enters the female thread part 421 of the rotating body 420. Accordingly, the hot air nozzle 33 also has a narrow movement control upward and a moving width of the hot air nozzle 33 along the curvature of the upper roller 21.

The adjustment of the moving width of the hot air nozzle 33 can be appropriately adjusted according to various working environments such as the thickness of the waterproof fabric or the temperature of the hot air.

As described above, the hot air nozzle rotating operation structure of the hot air welding machine for synthetic resin according to the present invention applies sufficient hot air until the first waterproof tape reaches the joint at the time of entry, so that the adhesive force is improved and stable and close adhesion is possible from the initial adhesion. Even if the work is paused, the waterproof tape does not deviate from the upper roller, so it is possible to proceed quickly when the work is performed again.

1 body 10 support
20: gap adjusting portion 21: upper roller
22: lower roller 30: rotary operation unit
31: moving block 32: heater rod
33: hot air nozzle
100: guide portion 110: support plate
120: guide member 121: through hole
122,122 ': guided hole 123,123': guide plate
200: heater 210: flow block
211: heater rod coupling portion 212: sliding portion
213: fixing groove 230: guide shaft
300: lifting operation unit 310: fixed plate
320: support bracket 330: actuator
331: shaft shaft 410: electric motor
411: bracket 420: rotating body
421: female thread 430: adjusting bolt
431 head

Claims (3)

A support 10 extending laterally on the upper portion of the main body 1 is formed, and an end portion of the support 10 is formed with a space adjusting portion 20 that flows up, down, left, and right, and a space adjusting portion thereof. The cam groove is provided with a rotary actuator 30 in which the heater rod 32 is rotated left and right by the cam groove, and the gap adjusting unit 20 is disposed near the lower hot air nozzle 33 of the heater rod 32. In the well-known synthetic resin hot air welding machine in which the upper roller 21 and the lower roller 22 protruding from the main body are formed,
The support plate 110 is coupled to the front surface of the rotary operation unit 30, the induction hole 122 is coupled to the front surface of the support plate 110, the long hole-type through hole 121 is formed in the center and opposed to each other on both sides A guide portion (100) made of a guide member (120) having a guide plate (123, 123 ') having a protrusion 122';
Heater rod coupling portion 211 to which the heater rod 32 is coupled to the front is formed, and through the inboard and guide holes 122, 122 'between the two guide plates 123, 123' in the rear. A heater part 200 having a flow block 210 having a sliding part 212 fixed to the guide shaft 230 penetrating therethrough; And
A fixing plate 310 coupled to one end of the support plate 110, a support bracket 320 protruding from one side of the fixing plate 310, and an upper end of the actuator 330 are hinged to the support bracket 320. ) Is coupled, and the lower rake shaft 331 of the actuator 330 is configured to include a lifting operation unit 300, which is hinged to the flow block (210),
The hot air nozzle rotating operation structure of the synthetic resin hot air welder, characterized in that the flow block 210 is configured to flow up and down along the induction hole (122) (122 ') by the operation of the actuator (330).
The method of claim 1,
Induction hole 122, 122 ',
It is configured to have the same curvature as the outer circumference of the upper roller 21, and composed of a plurality of upper and lower in each guide plate 123, 123 ',
When the flow block 210 flows up and down along the guide holes 122 and 122 ′, the hot air nozzle 33 formed at the end of the heater rod 32 moves up and down along the curvature of the upper roller 21. Hot air nozzle rotating operation structure of the synthetic resin hot air welding machine, characterized in that configured to rotate.
The method of claim 1,
The electric motor 410 is fixed to the bracket 411 on the upper part of the guide member 120, and the lower part of the electric motor 410 is rotated by either power or manual of the electric motor 410, A rotating body 420 having a female threaded portion 421 is formed, and the adjusting bolt 430 having a square head 431 is screwed to the female threaded portion 421,
The sliding block 212 of the flow block 210 further includes a fixing groove 213 to prevent the rotation of the adjustment bolt 430 is inserted and the head 431,
Hot air nozzle rotation operation structure of the synthetic resin hot air welder, characterized in that the up and down lifting width of the flow block 210 is adjusted by the appearance of the adjustment bolt 430 by the rotation control of the rotating body (420).

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