KR100870953B1 - Remaining fiber cutting device of bobbin for textile - Google Patents

Abstract

An apparatus for removing residual yarn of a bobbin for fiber is provided to maximize an efficiency of removing, separating and collecting the residual yarn by ascending and descending the bobbin supported to a wasted yarns tub and maintaining a high temperature nozzle into a regular interval. An apparatus for removing residual yarn of a bobbin for fiber comprises a bobbin feeding table(10), a quantity of residual yarn sensor(15), a bobbin feed port(20), a residual yarn removing part(30), a wasted yarns tub(40), an exhaustion transport unit(50). The bobbin feeding table has an incline(11) for loading and feeding in order the bobbin(1) in which residual yarn remains. The quantity of residual yarn sensor senses the quantity of remained thread of the bobbin supplied from the feeding table. The bobbin feed port successively supplies the bobbin supplied from the feeding table by an air cylinder(25) for inputting. The residual yarn removing part is ascended and descended according to the quantity of remained thread of the bobbin and remove the residual yarn by controlling a cutting speed of a high temperature nozzle and maintaining the high temperature nozzle into a constant interval. The wasted yarns tub absorbs and collects the residual yarn cut down in the bobbin.

Description

REBAINING FIBER CUTTING DEVICE OF BOBBIN FOR TEXTILE}

The present invention relates to a residue removing apparatus for removing residues remaining in a fiber bobbin, and more particularly, a plurality of bobbins are sequentially supplied, and the process of efficiently discharging and collecting the residue after removing the residue of the held bobbin is efficiently provided. However, by controlling the cutting speed of the hot air nozzle according to the amount of residue of the bobbin as well as lifting and lowering the separate jet suction inlet, the bobbin supported by the jet suction inlet to maintain a constant interval with the hot air nozzle removal efficiency, separation collection efficiency It relates to a residue removing device of the bobbin for the fiber to maximize the.

In general, the fiber bobbin for supplying thread to a loom circular knitting machine, etc., after use, the yarn wound around the bobbin outer circumference is not completely supplied, and the remaining residue remains.

As such, the bobbin in which the residue remains is difficult to reuse, so that the bobbin can be reused only by removing the residue wound on the bobbin.

In order to remove such residues of bobbin, the applicant has applied for a number of residue removal devices in Utility Model Registration Nos. 20-3313581 and 20-320953.

Such a device includes a supply unit for loading and supplying a plurality of bobbins sequentially, a bobbin holding unit for holding the supplied bobbins to remove residues, a residue cutting unit, a residue collection unit for collecting and collecting the cut residues, and a bobbin treated with residues It consists of a bobbin discharge unit for recovering the discharge.

Such a device was to cut and remove the residue of the bobbin while supplying the remaining bobbin in sequence, the residue removed from the bobbin is collected in a separate pail of the lower portion, and the bobbin from which the residue was removed was collected and reused.

However, the residue removing device previously filed by the present applicant to perform the cutting process by hot air without removing the residual amount of the bobbin in removing the residue of the bobbin by hot air injected from the hot air nozzle. As a result, defects in which the residues of the bobbins are not cut cleanly, and defects such as the residues melting onto the surface of the bobbins due to hot air when the hot air and the bobbins are too close to each other, are caused.

In addition, depending on the type of residue, there is a problem in that a fire occurs because the residue is burned in the cutting process by the hot air.

In addition, the residue removed from the bobbin is sucked into the lower pail bucket, the residue is not sucked into the lower pail bucket and scattered in small pieces, the collection efficiency of the residue is lowered, as well as the scattered residue is sandwiched between the various parts There was a problem that causes a failure of the device.

On the other hand, the present applicant detects the residual amount of the bobbin supplied to the residue cutting portion in the form of a partial improvement of the above device, and adjusts the bobbin lift position, so that the gap between the bobbin and the hot air nozzle is constantly controlled to control the residue of the bobbin by hot air. It has been applied for a technique to effectively cut the cutting edge, but the structure is complicated, and it takes a long time for supplying, injecting, and discharging the bobbin, and controlling the lifting and lowering of the bobbin according to the residue amount, and thus the work efficiency is improved. Of course, there was still a problem in that the efficiency was lowered due to the fact that the technology for solving the problem was not added.

The present invention was created in order to solve the problems of the prior art and the technology previously filed by the present applicant, and efficiently removes and collects a plurality of bobbins after sequential feeding, grasping, and removal of the residues of the held bobbins. Providing, but controlling the cutting speed of the hot air nozzle according to the amount of residue of the bobbin, as well as separate the intake suction port, lifting the bobbin supported by the intake suction port to maintain a constant interval with the hot air nozzle removal efficiency, separate collection The goal is to maximize efficiency.

The present invention is to remove the residue of the bobbin neatly without damage to the bobbin to maximize the efficiency of reuse, as well as to efficiently collect the removed residue to prevent problems such as damage to the device caused by the residue, reliability and work The goal is to maximize efficiency.

The present invention has a purpose to maximize the safety of the device by preventing the risk of fire accidents caused by hot air because it selectively sprays the moisture of the bobbin removed by the hot air.

This invention,

A bobbin feeder for loading and supplying the remaining bobbins sequentially, a residual amount sensing unit for detecting the residual amount of the supplied bobbin, a bobbin supply unit for sequentially forwarding the supplied bobbin, and the supplied bobbin To adjust the cutting speed of the hot air nozzle according to the residual amount of the gripping and bobbin, the residue removal unit for cutting and removing the residue, the pail bucket to collect the cut residue and the bobbin from which the residue was removed Consists of discharge transfer section,

By installing a wave suction inlet for supplying the bobbin with a support rod that is equilibrated between the residue removing unit and the lower barrel barrel, the bobbin is constantly lowered and operated by an air cylinder while maintaining the bobbin with a hot air nozzle. By means of cutting off and collecting the cut residue.

The present invention is characterized in that the anti-collision bracket for preventing the collision with the hot air nozzle when the bobbin is raised at the upper position of the wave suction suction port.

According to the present invention, the rail guide of the bobbin supply unit is formed to be at least higher than the center of the bobbin so that the flanges of the bobbin are prevented from intertwining with each other. It is characterized in that it extends upwardly to the position of the hot air nozzle to guide the inflow.

The present invention is characterized in that each part is covered with a cover to prevent the pinch of the residue cut in the upper portion of the discharge transfer.

The present invention is characterized in that the installation of the water spray nozzle to prevent the occurrence of fire of the residue cut into the hot air in the inside of the pail barrel.

The present invention efficiently provides a process of collecting and discharging a plurality of bobbins sequentially after removal of the residue of the bobbin supplied, gripped and gripped, and controlling the cutting speed of the hot air nozzle according to the residual amount of the bobbin. As the bobbin supported by the jet suction port and the jet suction port is raised and lowered to maintain a constant distance from the hot air nozzle, the removal efficiency and separation collection efficiency of the residue are maximized, and the residue of the bobbin is neatly removed without damaging the bobbin, thereby increasing the efficiency of reuse. In order to effectively collect the removed residues and prevent damage to the apparatus by the residues, and to prevent fire accidents due to the residues, the reliability and the work efficiency are maximized.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of the present invention will be described in detail.

That is, the apparatus of the present invention, as shown in Figs. 1 to 6, the bobbin supply table 10 having an inclined surface 11 for loading and sequentially supplying the bobbin 1 with residual residue, and the supply table ( Residual amount detection unit 15 for detecting the residual amount of the bobbin (1) supplied from 10) and the bobbin (1) supplied from the supply table 10 in order to the air cylinder 25 for input The bobbin supply unit 20 to be advanced forward and the bobbin supply unit 1 supplied by the bobbin supply unit are lifted and lowered according to the remaining amount of the gripping and the bobbin to maintain a predetermined distance from the hot air nozzle 35 while maintaining the cutting speed of the hot air nozzle. Recovering the residue removal portion 30 to remove the residue while adjusting, the pail bucket 40 for collecting and collecting the residue cut from the bobbin in the lower portion of the residue by the brower, and the bobbin 1 from which the residue was removed In the configuration consisting of a discharge transfer unit 50 for discharging to the table 60,

Between the residue removing unit 30 and the lower barrel barrel 40, a wave suction suction port 100 having an upper and lower shape is installed and connected to the rod of the air cylinder 150 to guide the guide 130 on both sides. Guided along the rod (135) and operates constantly up and down,

Support rods 120 and 120 ′ which are equilibrated to supply the opening 110 and the bobbin 1 supplied to and from the front and rear of the jet suction port 100 to be seated back and forth. It is provided so that the bobbin is cut off while maintaining a predetermined distance from the hot air nozzle by the wave suction suction port to collect the cut residue.

In addition, at the upper position of the wave suction suction opening 100, an anti-collision bracket 140 is installed to prevent a collision with the hot air nozzle 35 when the bobbin 10 supported by the wave suction suction opening 100 rises. do.

In addition, the bobbin feeder 10 is formed at least above the center of the bobbin 1 so that the rail guides 10a on both sides prevent the flanges of the bobbin from tangling with each other, and the residue removing part 30 ) Is formed by extending the upper portion to the position of the hot air nozzle 35 so that the cutting guide 31 guides the hot air of the hot air nozzle 35 to the inlet suction side.

In addition, the bobbin supply table 10 constitutes a residue control piece 12 for separating such bobbins because it is difficult to cut the residue when there are too many residues of the bobbin 1.

In addition, the residue detection unit 15 is to support the rotation of the support piece in accordance with the outer diameter of the bobbin (1) to be supplied to detect the residual amount by a normal encoder, according to the detected residual amount information of the bobbin control unit ( Not shown) is configured to control the reciprocating movement speed of the hot air nozzle 35 of the air cylinder 150 and the residue removing unit 30.

The residue removing unit 30 is provided with hot air nozzles 35 and 35 opposite to both sides of the timing belt 32 reciprocating by the motor M, but the residue of the bobbin while reciprocating the hot air nozzles It is configured to cut.

In addition, a peak tail heater 36 for removing side residues of the bobbin 1 is provided on the side of the hot air nozzle 35.

The discharge transfer unit 50 is a basket 51 for accommodating the bobbin (1) from which the residue is removed and moved back and forth by the air cylinder 52 on one side, the roller 53 guides to the guide 54 Is configured to discharge the bobbin to the recovery table 60 while the basket 51 is rotated forward.

In addition, the present invention is configured to cover each of the cover (55, 55 ') to protect the respective components on the upper portion of the discharge conveying portion 50 is installed to prevent the pinched residue.

Next will be described the operation and action of the present invention configured as described above.

In the present invention, the bobbin 1 to remove the residue is sequentially supplied to the inclined surface 11 on the supply table 10.

At this time, since both rail guides 10a of the supply stand are formed at least at an upper position higher than the center of the bobbin 1, the flange of the supplied bobbin is slightly deformed to prevent the flanges from tangling with each other, so that the bobbin can be smoothly supplied. will be.

The bobbin 1 supplied as described above detects the amount of residue remaining in the bobbin 1 in the residue amount sensing unit 15 in front of the supply table 10.

This is to detect the residue amount by the encoder while the support piece is rotated by the bobbin (1) supplied.

When the bobbin 1 supplied in this way is forwardly supplied by the air cylinder 25 for input of the bobbin supply part 20, the support bar is constantly guided by the cutting part guide 31 and provided in parallel with the jet suction port 100. It is seated on and supported by 120 and 120 '.

At this time, the bobbin 1 previously supplied on the supporting rods 120 and 120 'and the residue is already cut is pushed by the newly supplied bobbin 1 to be discharged forward.

In this way, when the bobbin 1 to cut the residue is seated and supplied to the support rods 120 and 120 ′ of the wave suction suction port 100, the air cylinder 150 raises and lowers the jet suction suction hole 100.

At this time, the wave suction suction opening 100 has a constant lifting operation along the guide rods 135 on both sides.

In particular, when the upper portion of the wave suction suction opening 100 is blocked by the residue and the bobbin 1 is separated from the upper portions of the support rods 120 and 120 ', the residue of the bobbin 1 when the bobbin is raised is heated by the air nozzle 35. The bobbin 1 is limited by the collision preventing bracket 140 to prevent the collision with the end portion is to prevent the above problems.

In addition, the lifting and lowering of the jet suction inlet 100 controls the air cylinder 150, so that the bobbin 1 and the hot air nozzle 35 are lifted and controlled to maintain a constant interval.

That is, the bobbin 1 and the hot air nozzle 35 are elevated to form a predetermined interval, and at the same time, the wave suction suction port 100 is raised and positioned to cover the bobbin.

In this state, the hot air nozzle 35 is reciprocated to remove and remove the residue of the bobbin 1 by hot air.

At this time, the hot air nozzle 35 controls the moving speed according to the amount of residue of the bobbin 1, thereby efficiently removing the residue.

As described above, the residues cut and removed from the bobbin 1 are collected by being smoothly sucked into the lower barrel 40 through the wave suction suction opening 100.

Particularly, the residues cut and removed from the bobbin 1 do not fall to other parts of the apparatus, but are collected by suction force sucked by the blower (not shown) of the pasade tube 40 through the passivating suction opening 100. The collection efficiency will be maximized.

At this time, since the hot air of the hot air nozzle 35 is guided by the cutting guide 31 to the inlet suction port 100 side, the heat is not transmitted to the guide rod 135 or the guide 130, and thus the elevating of the jet suction port. It will provide a smoother operation.

In this manner, when all the residues of the bobbin 1 are removed, the wave suction suction opening 100 is lowered by the air cylinder 150, and is again supplied by the air cylinder 25 for feeding the bobbin supply unit 20. The bobbin from which the residue was removed by the new bobbin 1 to be pushed back is discharged.

The bobbin 1 discharged as described above is discharged to the basket 51 of the discharge transfer part 50, and the basket 51 moves back and forth by the one side air cylinder 52 while the roller 53 of the basket 51 moves. Is guided to the guide 54 is to be rotated forward to recover the bobbin discharged to the recovery table (60).

At this time, if the bobbin is overloaded on the recovery table 60, it is detected by the stop of the device, the operator is to restart the device after removing the bobbin loaded on the recovery table 60.

On the other hand, Figure 7 shows another embodiment of the present invention, by installing a plurality of water spray nozzles 42 for spraying water on one side of the inner barrel 40, the residue cut by the hot air to generate a fire To prevent it.

This kind of residue is selectively used when there is a risk of fire due to hot air.

That is, water is injected into the residue cut from the bobbin 1, thereby preventing the risk of fire due to the hot air.

1 is an overall perspective view of the present invention.

2 is an overall front view of the present invention.

3 is a side view of the present invention.

4 is an enlarged view illustrating main parts of FIG. 2;

5 is a perspective view of main parts of the present invention;

6 is a plan view of main parts of the present invention;

Figure 7 is a perspective view of the main portion showing another embodiment of the present invention.

Claims (5)

Residual amount for detecting the residual amount of the bobbin supply stage 10 having an inclined surface 11 for loading and sequentially supplying the residual bobbin 1 and the bobbin 1 supplied from the supply stage 10. The bobbin supply unit 20 for forwardly supplying the sensing unit 15 and the bobbin 1 supplied from the supply table 10 sequentially by the air cylinder 25 for inputting, and the bobbin supply unit Lifting and lowering the bobbin (1) in accordance with the residual amount of the gripping and the bobbin to maintain a certain distance from the hot air nozzle 35, while removing the residue while adjusting the cutting speed of the hot air nozzle and the residue removing unit In the lower part of the bobbin cut in the bobbin cut by the bobbin by the suction, and the discharge bobbin (1) for discharging the bobbin (1) from which the residue is removed to the recovery table (60) , Between the residue removing unit 30 and the lower barrel barrel 40, a wave suction suction port 100 having an upper and lower shape is installed and connected to the rod of the air cylinder 150 to guide the guide 130 on both sides. Guided along the rod (135) and operates constantly up and down, Support rods 120 and 120 ′ which are equilibrated to supply the opening 110 and the bobbin 1 supplied to and from the front and rear of the jet suction port 100 to be seated back and forth. And a bobbin for removing the residue of the bobbin for textiles, while maintaining a predetermined distance from the hot air nozzle by the wave suction suction port to collect the cut residue. The method of claim 1, At the upper end position of the wave suction suction port 100, an anti-collision bracket 140 is installed to prevent a collision with the hot air nozzle 35 when the bobbin 1 supported by the wave suction suction hole 100 is raised. Residual removal device for bobbins for textiles. The method of claim 1, The bobbin feeder 10 is formed at a position higher than at least the center of the bobbin 1 so that the rail guides 10a on both sides prevent the flanges of the bobbin from tangling with each other, and the residue removing unit 30 is The cutting guide 31 is removed from the bobbin for textiles, characterized in that formed by extending upward to the position of the hot air nozzle 35 so as to guide the hot air of the hot air nozzle (35) to the inlet suction side. The method of claim 1, The upper portion of the discharge conveying unit 50, the cover removal unit of the bobbin for textiles, characterized in that the cover 55, 55 'respectively installed to protect each part to prevent the pinched cut. The method of claim 1, A plurality of water spray nozzles 42 for spraying water on one side are formed inside the pail barrel 40 to prevent the occurrence of fire of residues cut by hot air. .

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