KR100830607B1 - Tension regulator of roller driving chain of hot-blast welder for synthetic resin - Google Patents

Abstract

A structure for regulating tension of a roller driving chain in a hot-blast welder for synthetic resin is provided to allow a driving shaft for the chain and an upper roller to be maintained more securely in a fixed state such that the tension for the chain is effectively maintained. A structure for regulating tension of a roller driving chain in a hot-blast welder for synthetic resin comprises an outer cylinder(20) having an elongation hole(21) formed on the inside end of a strut(11) horizontally protruding from a body, an actuator(12) installed on the top of the bode and fixed to the strut, and a regulating cylinder(22) screw-coupled with a protrusion shaft(13) of the actuator. The outer cylinder is provided at an inside thereof with an inner cylinder(23) in which a chain connected with a transversal driving shaft(15) and an upper roller is housed. The inner cylinder is provided at both sides thereof with an additional fixture(30) extending through the elongation hole of the outer cylinder.

Description

Tension regulator of roller driving chain of hot-blast welder for synthetic resin

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

Figure 2 is an enlarged perspective view of the main portion of the hot air welding machine for synthetic resin according to the present invention

Figure 3 is an enlarged cross-sectional view of the main portion of the hot air welding machine for synthetic resin according to the present invention

4 is an explanatory view of the main parts of the synthetic resin hot air welding machine according to the present invention, the actuator stroke operation diagram

5 is an explanatory view of the main parts of the synthetic resin hot air welding machine according to the present invention, the inner and outer cylinder lifting degree

6 is an explanatory view of the main parts of the synthetic resin hot air welding machine according to the present invention, the tension control using a fixture

7 is an explanatory view of the main portion of the synthetic resin hot air welding machine according to the present invention, the tension control using the adjustment bolt

Figure 8 is another embodiment of the inner cylinder straightening means of the hot air welding machine for synthetic resin according to the present invention

Explanation of symbols on the main parts of the drawings

10: main body 11: support

12: Actuator 13: Haunting shaft

14: upper roller 15: power shaft

16: chain 17: guide plate

18: LM Guide 19: Guide Rail

20: outer cylinder 21: long hole

22: control cylinder 23: inner cylinder

24: adjustment hole 25: screw hole

30: fixture

32: bearing 33: slit ball

34: fixing bolt 35: adjustment bolt ball

36: tip 37: adjustment bolt

38,38 ': Guide block 39: Lift guide

The present invention is to adjust the tension of the chain for driving the upper roller in the hot air welding machine for continuously attaching and forming the sheet paper on the synthetic resin by a high temperature hot air heater, in particular an upper rotary roller for thermal welding the sheet on the synthetic resin By simply adjusting the tension of the drive chain, the roller driving chain of the synthetic resin hot air welder can prevent the various noises and failures caused by the looseness of the chain as well. Tension control structure.

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 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 paper is superposed, and the adhesive portion is inserted therebetween by fusion of the adhesive tape by fusion of 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, among the upper and lower interview rollers of the hot air welder described above, the upper rotary roller rotates by receiving power transmitted from the main body, and the upper roller rotates by being connected by a rotating shaft and a chain drawn out from the main body. Since the tension of the chain is relaxed by use, the power is transmitted in a stretched state, and various noises are generated, as well as the loosened chain may be separated from the sprocket during the operation, which may cause work interruption.

Accordingly, the applicant of the present invention, as in Utility Model Registration No. 286263, inserts the housing of the chain into the hoist which is lifted by the cylinder, and fixes the position by a separate fixing bolt, and forms a long hole on one side of the housing. By screwing the adjusting bolt having the inclined surface at the end from the side of the hatch in which the long hole is located,

As the adjustment bolt rotates, the inclined surface and the long hole of the housing are interviewed, and the housing is lowered, so that the chain tension between the spaced sprockets is easily adjusted to prevent the looseness of the chain in advance, preventing various noises and preventing the chain from breaking and failing. The tension control structure of the roller drive chain of the synthetic resin hot air welding machine was proposed.

However, the tension control structure of the chain as described above is not only weak in its adjustment and fixing structure, but also exposed to the screw portion and the adjustment bolt for adjusting the tension as it may be loosened by mutual interference, and adjust the tension The fixing force in one state is weak and the fixing force is easily lost by repetitive vibration or shock, and the whole adjustment and fine adjustment parts are separated separately, and it is troublesome to reciprocate between the side and the rear side of the device to adjust the whole. Is there.

In addition, the operating width of the actuator for raising and lowering the upper roller cannot be changed, so if the upper roller is to be lifted upward to insert or set the sheet paper, the rising height cannot be changed according to the type and characteristics of the sheet paper. Discomfort was also significant.

The present invention has been made to improve the problems as described above, having an outer cylinder having both side holes inside the end of the support protruding horizontally from the main body, the upper portion of the outer cylinder forms a support and a fixed actuator, The inner cylinder is coupled to the inside of the outer cylinder,

Separate fasteners are fastened to both sides of the inner cylinder, and the power shaft is coupled to the center of the fastener by a bearing, and the fastener and the inner cylinder are separated from each other by forming a slit hole on both sides of the fastener. It is fastened to the end of the fixture by screwing the adjustment bolt is located at the tip of the adjustment hole of the inner cylinder body, it is possible to more easily adjust the tension of the chain for rotating the upper roller, as well as the chain and the upper roller The drive shaft for rotating the roller maintains a more stable fixed state, so the chain tension is maintained even after long-term use. The stroke of the actuator for lifting the upper roller is easy to adjust, which maximizes the convenience of use. To provide the tension control structure of the drive chain It is an object of the present invention.

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

1 is an overall perspective view of a hot air welder for synthetic resin according to the present invention, Figure 2 is an enlarged perspective view of the main portion of the hot air welder for synthetic resin according to the present invention.

An outer cylinder 20 having both long holes 21 is provided inside the end of the support 11 protruding horizontally from the main body 10, and an upper portion of the outer cylinder 20 has a support 11 fixed to an actuator ( 12), screwing the control cylinder 22 to the projection shaft 13 of the actuator 12,

Inside the outer cylinder 20, the front end is coupled to the output shaft 13 and the upper roller 14 is coupled to the lower end, the upper roller 14 and the transverse power shaft 15 inside the support (11) ) And the inner cylinder 23 having the chain 16 connected to each other is coupled,

On both sides of the inner cylinder 23, so that the separate fixture 30 is inserted through the long hole 21 of the outer cylinder 20 is fastened,

The power shaft 15 is coupled to the center of the fixture 30 by a bearing 32, and both sides of the fixture 30 form slit holes 33, respectively, and correspond to the inner cylinder ( 23 is formed in each of the screw holes 25 so that the fixture 30 and the inner cylinder 23 are fastened to each other by a separate fixing bolt 34 inserted into the slit hole 33,

One end of the fixing tool 30 is formed with a control bolt hole 35, and a separate adjustment bolt 37 is inserted thereto, but one end portion 36 of the adjustment bolt 37 is one side of the inner cylinder 23. It is configured to be latched on one side of the adjustment hole 24 formed in.

In addition, a guide plate 17 having a vertical LM guide 18 is mounted at the end of the support 11, and a guide rail mated with the LM guide 18 at the rear surface of the inner cylinder 23. 19 may be formed to be coupled to each other, and the guide rail 19 of the inner cylinder 23 may slide upward and downward along the LM guide 18 so that the lifting linearity is improved.

Guide blocks 38 and 38 ', which are spaced apart from both sides, are mounted at ends of the support 11, and are inserted between the guide blocks 38 and 38' and one end of the inner cylinder 23. By forming an elevating guide (39) coupled to the outer surface, the elevating guide (39) of the inner cylinder 23 is configured to slide up and down along the guide blocks (38) (38 ') to improve its elevating straightness. It could be.

At this time, the straight means is coupled to form a lifting guide 39 horizontally formed on the rear outer surface of the inner cylinder 23, as shown in Figure 8, located on both sides of the lifting guide 39 and the support ( By forming the guide blocks 38 and 38 'which are spaced apart from each other on the rear surface of 11), the inner cylinder 23 is guided when the inner cylinder 23 is elevated by the operation of the actuator 12 described above. The elevating guide (39) guided between the blocks (38) (38 ') to move vertically ensures better straightness, so that the upper roller (14) can always be elevated to the correct position. will be.

The action of the tension control structure of the roller drive chain of the synthetic resin hot air welding machine according to the present invention as described above in more detail by the accompanying drawings as follows.

As shown in FIG. 3, the hot air welding machine for synthetic resin of the present invention has a transverse support 11 formed from an upper one side of the main body 10, similar to a general apparatus, from a power shaft 15 located inside the support 11. Receives power to rotate the upper roller 14 located below the end of the support (11).

As the upper roller 14 rotates as described above, the lower roller interviewed on the lower side of the upper roller 14 moves the sheet paper while correspondingly rotating, and there is a separate hot air fan between the upper roller 14 and the lower roller. It is positioned to melt the end of the sheet of paper supplied by the roller so that the sheet of paper divided by the adhesive tape or the like is fused together.

This rotation of the upper roller 14 and the means for transmitting power to the upper roller 14 is typically used by connecting the power shaft 15 and the rotation axis of the upper roller 14 by the chain 16 and That is, the chain 16 should always have a certain level of tension, the power transmission is accurate, and when used for a long time, the tension of the chain is lost or relaxed, so that the tension should be properly adjusted as necessary. In addition, in order to feed sheet paper between the upper roller 14 and the lower roller, it is necessary to temporarily maintain the upper roller 14 in a raised state from the lower roller.

Therefore, in the present invention, the lifting means of the upper roller 14 is made by the actuator 12 mounted downward on the end of the support 11, the rotational force of the upper roller 14 is the support 11 inside It is to be transmitted through the chain 16 from the power shaft 15 of the, and a more detailed power transmission structure will be described.

As shown in FIG. 4, the outer cylinder 20 having the long hole 21 is positioned inside the end of the support 11, and the inner cylinder 23 embedded inside the outer cylinder 20 is positioned. The front end is coupled to the lower end of the projecting shaft 13 of the actuator 12, the lower end of the projecting shaft 13 of the actuator 12 forms a thread, the outer shaft 20 on the projecting shaft (13) By rotatably coupling the separate control cylinder 22 so as to be positioned above the stroke, the stroke of the actuator 12 projecting shaft 13, that is, the inner cylinder 23, according to the rotational position of the control cylinder 22. It is possible to adjust the lifting width of the through this adjustment of the stroke is used to adjust the close pressing force between the upper roller 14 and the lower roller.

At this time, a separate guide plate 17 is mounted at the end of the support 11, but the inner plate 23 is formed by forming a vertical LM guide 18 on the guide plate 17. It is to be able to move up and down along the guide 18 in a vertical direction, the rear surface of the inner cylinder 23 is coupled to the separate guide rail 19 corresponding to the LM guide 18 and they slide together. When the actuator 12 at the tip is operated to cause the inner cylinder 23 to be lifted and lowered, the guide rail 19 of the inner cylinder 23 secures the lifting straightness along the LM guide 18. Stable operation, as well as a solid state operation without flow from the pressure or impact from the outside is achieved.

In addition, as shown in FIG. 5, the inner cylinder 23 is embedded inside the outer cylinder 20, and separate threaded holes 25 are formed on both sides of the inner cylinder 23. By using the threaded hole 25 of the inner cylinder 23, the separate fasteners 30 are fastened to both sides, and the slit balls into which the fixing bolts 34 are inserted at both sides of the fasteners 30 ( 33) is formed so that when the fixing bolt 34 is inserted into the slit hole 33 so that the end of the fixing bolt 34 is fastened to the screw hole 25 of the inner cylinder 23, these inner cylinders As the 23 and the fastener 30 are mutually fastened,

The fastener 30 is inserted into the inside of the long hole 21 of the outer cylinder 20, and the fastener 30 is inserted into the long hole 21 of the outer cylinder 20 by using the slit hole 33. Since the fixed position can be determined by freely sliding within the range, the inner cylinder 23 is adjusted from the inside of the outer cylinder 20 through the slit hole 33 to adjust its fastening position to be mutually coupled. It becomes possible.

In particular, the fastener 30 is a bearing 32 is inserted and fixed in the middle portion, the power shaft 15 inside the support 11 is the fastener 30 and the fixed shaft 30 by the bearing 32 described above. Is connected to the fixture 30 is coupled to the inner cylinder 23 and at the same time is coupled to the power shaft (15).

Accordingly, the tension of the chain 16 connecting the upper roller 14 and the power shaft 15 at the lower end of the inner cylinder 23 is variable according to the position of the fixture 30 having the power shaft 15. As shown in FIG. 6, when the fastener 30 is fixed to the upper side of the inner cylinder 23 by using the slit hole 33 of the fastener 30, the power shaft 15 and the upper roller may be used. Since the distance between the (14) is far away is a considerable tension is increased accordingly, when the fixed fixture 30 is fixed down using the slit hole 33, the tension applied to the chain 16 is weakened conversely .

Accordingly, the slit hole 33 of the fixture 30 is used as a means for adjusting the standard tension applied to the chain 16, the hot air welder in a state where the tension of the universal state is applied In the case of long-term use, the tension of the chain 16 becomes weaker than the initial setting state. At this time, the inner cylinder 23 is slightly raised by using a separate adjustment bolt 37 to give the lost tension. will be.

That is, as shown in Figure 7, one end of the fixture 30 is a separate adjustment bolt 37 is screwed, the adjustment bolt hole 35 is formed on one side of the inner cylinder 23, the corresponding position The tip portion 36 formed at the end of the adjusting bolt 37 is locked to the lower end of the adjusting bolt hole 35.

Accordingly, in the state in which the tension of the chain 16 is loosened, loosening the fixture 30 and then rotating the adjusting bolt 37 to move forward causes the tip portion 36 of the adjusting bolt 37 to move forward. The inner cylinder 23 that can be lowered by the interference between the tip portion 36 and the adjustment bolt hole 35 is slightly moved downward while being inserted into the adjustment bolt hole 35, and the movement width is the tip portion 36. It is only within the range of), so the width is quite small.

However, even if only the falling width by the tip portion 36 can be obtained in sufficient tension increase effect, when the relaxed tension is loosened beyond the width of the tip portion 36 of the adjustment bolt 37 As described above, the fixing device 30 can be released to artificially raise the power shaft 15 to impart sufficient tension.

Therefore, since the tension of the chain for rotating the upper roller as well as the close pressing force between the upper roller and the lower roller can be easily adjusted, it is possible to transmit a more reliable and accurate driving force.

The tension control structure of the roller drive chain of the synthetic resin hot air welding machine as described above can more easily adjust the tension of the chain for rotating the upper roller, as well as more robust drive shaft for rotating the chain and the upper roller. Since it maintains a fixed state, the effect of maintaining the tension of the chain is excellent even if it is used for a long time, and the stroke of the actuator for elevating the upper roller is simple to maximize the convenience of use.

Claims (5)

An outer cylinder 20 having both long holes 21 is provided inside the end of the support 11 protruding horizontally from the main body 10, and an upper portion of the outer cylinder 20 has a support 11 fixed to an actuator ( 12), screwing the control cylinder 22 to the projection shaft 13 of the actuator 12, Inside the outer cylinder 20, the front end is coupled to the output shaft 13 and the upper roller 14 is coupled to the lower end, the upper roller 14 and the transverse power shaft 15 inside the support (11) ) And the inner cylinder 23 having the chain 16 connected to each other is coupled, On both sides of the inner cylinder 23, so that the separate fixture 30 is inserted through the long hole 21 of the outer cylinder 20 is fastened, The power shaft 15 is coupled to the center of the fixture 30 by a bearing 32, and both sides of the fixture 30 form slit holes 33, respectively, and correspond to the inner cylinder ( 23, characterized in that the fastener 30 and the inner cylinder 23 are fastened to each other by a separate fixing bolt 34 is formed into each of the screw holes 25 are inserted into the slit hole 33 The tension control structure of the roller drive chain of the synthetic resin hot air welder. The method of claim 1, One end of the fixture 30 to form a control bolt hole 35, to insert a separate control bolt 37, one end of the control bolt 37, one end 36 of the inner cylinder 23 Tension control structure of the chain for the roller drive chain of the hot-air welding machine for synthetic resin, characterized in that configured to be latched on one side of the adjustment hole (24) formed in the. The method of claim 1, The shaft 12 of the actuator 12 is screwed into the regulating cylinder 22 located at the tip of the outer cylinder 20 and the shaft of the actuator 12 is rotated by the rotation of the regulating cylinder 22. (13) The tension control structure of the roller drive chain of the synthetic resin hot air welder, characterized in that the operating stroke is adjusted. The method of claim 1, A guide plate 17 having a vertical LM guide 18 is mounted at the end of the support 11, and a guide rail 19 coupled to the LM guide 18 is coupled to the rear surface of the inner cylinder 23. And a guide rail 19 of the inner cylinder 23 slides up and down along the LM guide 18 so that the lifting linearity of the inner cylinder 23 is improved. Tension control structure. The method of claim 1, Guide blocks 38 and 38 ', which are spaced apart from both sides, are mounted at the ends of the support 11, and are inserted between these guide blocks 38 and 38', and one end of which is disposed on the outer surface of the inner cylinder 23. By forming the combined elevating guide 39, the elevating guide 39 of the inner cylinder 23 is configured to slide up and down along the guide blocks 38, 38 'and improve the elevating straightness. The tension control structure of the roller driving chain of the synthetic resin hot air welding machine.

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