CN210029590U - Straight pipe integrated yarn cutting machine - Google Patents

Abstract

The utility model mainly relates to a straight tube integrated yarn cutting machine, which comprises a platform frame, wherein the upper end of the platform frame is provided with a conveying mechanism and a control box, the conveying mechanism comprises a conveying belt, the conveying belt is used for conveying residual bobbins, two sides of the conveying belt are provided with adjustable limiting plates, the limiting plates are used for limiting the distance of the diameter direction of the residual bobbins, the output end of the conveying belt is connected with a guide rail frame, and the guide rail frame is used for receiving the residual bobbins conveyed by the conveying belt; the yarn cutting mechanism is arranged above the guide rail frame, the machine head support is arranged on the platform frame, the yarn cutting mechanism is installed on the machine head support in a sliding fit mode, the yarn cutting mechanism comprises an air flow spray gun, the air flow spray gun can spray high-temperature and high-pressure air flow, the air flow spray gun is used for cutting off yarns of residual bobbins, a yarn dropping opening is formed in the guide rail frame below the air flow spray gun, the lower end of the yarn dropping opening is connected with a suction fan, and the suction fan is used for absorbing the yarns collected with the yarn. This project organization is ingenious, replaces artifical automation to cut the yarn, cuts yarn efficient, can not damage the spool, has improved the economic benefits of enterprise.

Description

Straight pipe integrated yarn cutting machine

Technical Field

The utility model relates to a cutting yarn machine, concretely relates to integrative cutting yarn machine of straight tube.

Background

Spinning is roughly divided into two procedures of spinning and weaving, raw material fibers are spun into yarns in the spinning process and wound on bobbins, and the yarns on different bobbins are pulled out and woven into cloth through a textile machine in the weaving process. The existing industrial production mostly adopts an automatic textile machine to weave, a large number of bobbins are needed in the production process, however, in the spinning or weaving process, the last two layers of tail yarns wound on the bobbins cannot be completely used, and the residual yarns on the bobbins have to be cut off for recycling the bobbins.

At present, the traditional method for processing the residual yarn tubes (yarn tubes with residual yarns) in the textile industry is mainly completed by manually cutting the residual yarns on the residual yarn tubes in turn by means of grinding wheels or blades. However, the traditional cutting process has low efficiency, high labor intensity and low safety factor, the cut yarn is easy to scatter around, the bobbin is easy to be cut, the production requirement is difficult to meet, and the economic benefit of an enterprise is influenced.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides an integrative yarn cutting machine of straight tube, this project organization is ingenious, replaces artifical automation to cut the yarn, cuts yarn efficiently, can not damage the spool, has improved the economic benefits of enterprise.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a straight tube integrated yarn cutting machine comprises a platform frame, wherein a conveying mechanism and a control box are arranged at the upper end of the platform frame, the conveying mechanism comprises a conveying belt, the conveying belt is used for conveying residual bobbins, adjustable limiting plates are arranged on two sides of the conveying belt and used for limiting the distance of the residual bobbins in the diameter direction, the output end of the conveying belt is connected with a guide rail frame, and the guide rail frame is used for receiving the residual bobbins conveyed by the conveying belt; the yarn cutting mechanism is arranged above the guide rail frame, the machine head support is arranged on the platform frame, the yarn cutting mechanism is installed on the machine head support in a sliding fit mode, the yarn cutting mechanism comprises an air flow spray gun, the air flow spray gun can spray high-temperature and high-pressure air flow, the air flow spray gun is used for cutting off yarns of residual bobbins, a yarn dropping opening is formed in the guide rail frame below the air flow spray gun, the lower end of the yarn dropping opening is connected with a suction fan, and the suction fan is used for absorbing the yarns collected with the yarn.

The feeding mechanism comprises a feeding plate, the feeding plate is used for placing residual yarn tubes to be processed, and two ends of the feeding plate are obliquely arranged up and down; the side of the feeding plate is provided with an adjusting plate which is fixed and adjusted through screws and used for limiting the width direction of the residual bobbin.

The feeding plate is characterized in that a control mechanism is arranged on a blanking end of the feeding plate, the control mechanism comprises a first control block and a second control block, the first control block and the second control block are respectively and independently connected with an air cylinder for pushing, the first control block is used for controlling the first residual bobbin on the feeding plate to drop, the second control block is used for limiting the rest residual bobbins on the feeding plate, and the first control block and the second control block are matched to realize the independent blanking of the residual bobbins.

A movable pressing wheel is arranged above the conveying belt, and the movable pressing wheel can prevent residual yarn tubes on the conveying belt from tilting upwards; the conveyer belt is including fast conveyer belt and slow conveyer belt, and fast conveyer belt and slow conveyer belt are installed in succession, and what be close to the input is fast conveyer belt, and what be close to the output is slow conveyer belt.

The rear side of the yarn cutting mechanism is connected with an air cylinder which is used for pushing the yarn cutting mechanism to slide on the handpiece bracket.

The side edge of the conveying belt is provided with a first sensor, a second sensor and a third sensor, the first sensor is used for sensing residual yarn tubes at the input end of the conveying belt, and when no residual yarn tube is monitored, the blanking mechanism performs blanking; and the second sensor and the third sensor are arranged in parallel, the second sensor and the third sensor are used for sensing residual bobbins on the conveyor belt, and when the residual bobbins are not monitored at the second sensor and the third sensor, the yarn cutting mechanism is automatically lifted by the cylinder.

The tail end of the air flow spray gun is connected with an air compressor, the air compressor is used for realizing the high-pressure air flow sprayed by the air flow spray gun, an electric heating wire is arranged in the air flow spray gun and used for heating the temperature of the air flow.

The protection plate is installed in the air current spray gun outside, the protection plate side is equipped with the balancing piece, the balancing piece is used for blocking the remaining spool of restriction.

An adjustable backer is rotatably arranged on the machine head support below the yarn cutting mechanism and comprises a plurality of ejector rods, and the ejector rods are used for limiting the downward movement distance of the yarn cutting mechanism.

The guide rail frame other end be connected with receiving agencies, receiving agencies includes guide rail frame extension section and material collecting plate, the extension section passes through the cylinder and promotes, the extension section side is equipped with sensor four, when sensor four detects the spool, the cylinder promotes the extension section and makes the spool drop to the material collecting plate.

The utility model discloses following beneficial effect has:

a straight pipe integrated yarn cutting machine comprises a platform frame, wherein a conveying mechanism is arranged at the upper end of the platform frame, the conveying mechanism comprises a conveying belt, the conveying belt is used for conveying residual bobbins, adjustable limiting plates are arranged on two sides of the conveying belt, the limiting plates are used for limiting the distance of the residual bobbins in the diameter direction and ensuring that the residual bobbins can only pass singly, a guide rail frame is connected to the output end of the conveying belt and used for receiving the residual bobbins conveyed by the conveying belt, and the residual bobbins on the guide rail frame are conveyed by means of the thrust of the residual bobbins on the conveying belt; guide rail frame top is equipped with cuts yarn mechanism, cut yarn work and go on guide rail frame, be equipped with the aircraft nose support on the platform frame, cut yarn mechanism sliding fit and install on the aircraft nose support, cut yarn mechanism and include the air current spray gun, the air current spray gun can spray the highly compressed air current of high temperature for cut off the yarn of remaining spool, be located and be equipped with the doff mouth on the guide rail frame of air current spray gun below, the yarn that cuts off can fall into the doff mouth, doff mouth lower extreme is connected with the suction fan, the suction fan is used for absorbing and collects the yarn that the doff mouth dropped off. This project organization is ingenious, replaces artifical automation to cut the yarn, cuts yarn efficient, can not damage the spool, has improved the economic benefits of enterprise.

Drawings

FIG. 1 is a three-dimensional structure of the present invention;

FIG. 2 is a partial perspective structural view of the present invention;

fig. 3 is a perspective view of the present invention from another perspective shown in fig. 2.

Reference numbers in the figures: 1. a platform frame; 11. residual yarn tubes; 12. a control box; 2. a conveying mechanism; 21. a conveyor belt; 22. a limiting plate; 23. an output end; 24. an input end; 25. a movable pinch roller; 26. a first sensor; 27. a second sensor; 28. a third sensor; 3. a guide rail bracket; 4. a yarn cutting mechanism; 41. an air flow spray gun; 42. an air compressor; 43. a protection plate; 44. a counterbalance; 45. adjustable backer; 46. a top rod; 5. a handpiece support; 51. a doffing opening; 6. a suction fan; 7. a blanking mechanism; 71. a feeding plate; 72. an adjusting plate; 9. a control mechanism; 91. a first control block; 92. a second control block; 93. a material receiving mechanism; 931. an extension section; 932. a material collecting plate; 934. a fourth sensor; 10. and a cylinder.

Detailed Description

As shown in fig. 1, 2 and 3, a straight tube integral yarn cutting machine comprises a platform frame 1, wherein a conveying mechanism 2 and a control box 12 are arranged at the upper end of the platform frame 1, the conveying mechanism 2 comprises a conveying belt 21, the conveying belt 21 is used for conveying residual yarn tubes 11, adjustable limiting plates 22 are arranged on two sides of the conveying belt 21, the limiting plates 22 are used for limiting the distance in the diameter direction of the residual yarn tubes 11 and ensuring that the residual yarn tubes 11 can only pass through singly, an output end 23 of the conveying belt 21 is connected with a guide rail frame 3, the guide rail frame 3 is used for receiving the residual yarn tubes 11 conveyed by the conveying belt 21, and the residual yarn tubes 11 on the guide rail frame 3 are conveyed by means of the; guide rail frame 3 top is equipped with cuts yarn mechanism 4, cut yarn work and go on guide rail frame 3, be equipped with nose support 5 on the platform frame 1, cut yarn mechanism 4 sliding fit and install on nose support 5, cut yarn mechanism 4 and include air current spray gun 41, air current spray gun 41 can spray the highly compressed air current of high temperature, a yarn for cutting off remaining spool 11, be equipped with doff 51 on the guide rail frame 3 that is located air current spray gun 41 below, the yarn that cuts off can fall into doff 51, doff 51 lower extreme is connected with suction fan 6, suction fan 6 is used for absorbing the yarn that collects doff 51 and drop. This project organization is ingenious, replaces artifical automation to cut the yarn, cuts yarn efficient, can not damage the spool, has improved the economic benefits of enterprise.

The blanking mechanism 7 is arranged at the input end 24 of the conveyor belt 21, the blanking mechanism 7 comprises a feeding plate 71, the feeding plate 71 is used for placing the residual yarn tubes 11 to be processed, two ends of the feeding plate 71 are arranged in an up-and-down inclined mode, and the residual yarn tubes 11 can automatically roll onto the conveyor belt 21 by means of the gravity of the residual yarn tubes 11; an adjusting plate 72 is arranged on the side edge of the feeding plate 71, the adjusting plate 72 is fixed and adjusted through screws, and the adjusting plate 72 is used for limiting the width direction of the residual bobbins 11 and ensuring that the residual bobbins 11 are arranged orderly.

The control mechanism 9 is arranged at the blanking end of the feeding plate 71, the control mechanism 9 comprises a first control block 91 and a second control block 92, the first control block 91 and the second control block 92 are respectively and independently connected with the air cylinder 10 for pushing, the first control block 91 is used for controlling the first residual bobbin 11 on the feeding plate 71 to fall, the second control block 92 is used for limiting the residual bobbin 11 on the feeding plate 71, and the first control block 91 and the second control block 92 are matched to realize independent blanking of the residual bobbin 11.

The movable pinch roller 25 is installed above the conveyor belt 21, and the movable pinch roller 25 can prevent the residual bobbin 11 on the conveyor belt 21 from upwards tilting, so that the residual bobbin 11 is guaranteed to be stably conveyed. The conveying belts 21 comprise a fast conveying belt 21 and a slow conveying belt 21, the fast conveying belt 21 and the slow conveying belt 21 are continuously installed without gaps, the fast conveying belt 21 is close to the input end 24, the slow conveying belt 21 is close to the output end 23, and the residual yarn tubes 11 are circularly conveyed on the conveying belts 21 without gaps through the differential speed of the fast conveying belt 21 and the slow conveying belt 21.

The rear side of the yarn cutting mechanism 4 is connected with an air cylinder 10, and the air cylinder 10 is used for pushing the yarn cutting mechanism 4 to slide on the handpiece support 5.

A first sensor 26, a second sensor 27 and a third sensor 28 are arranged on the side edge of the conveyor belt 21, the first sensor 26 is used for sensing the residual yarn bobbin 11 at the input end 24 of the conveyor belt 21, and when no residual yarn bobbin 11 is detected, the blanking mechanism 7 performs blanking; the second sensor 27 and the third sensor 28 are arranged in parallel, the second sensor 27 and the third sensor 28 are used for sensing the residual yarn tubes 11 on the conveyor belt 21, and when the residual yarn tubes 11 are not detected at the positions of the second sensor 27 and the third sensor 28, the yarn cutting mechanism 4 is automatically lifted by the air cylinder 10; because the residual yarn tubes 11 on the guide rail frame 3 are conveyed by means of the thrust of the residual yarn tubes 11 on the conveyor belt 21, when the residual yarn tubes 11 are not monitored at the two positions of the sensor II 27 and the sensor III 28, the conveying interruption of the conveyor belt 21 is meant, a long gap is formed in the conveyor belt 21, the residual yarn tubes 11 on the guide rail frame 3 cannot be pushed, and at the moment, the air flow spray guns 41 of the yarn cutting mechanism 4 spray high-temperature high-pressure air flow towards the same residual yarn tubes 11 in a short distance for a long time, so that the residual yarn tubes 11 are easily burnt, potential safety hazards are caused, the yarn cutting mechanism 4 needs to be lifted, the distance is lengthened, the temperature of the air flow contacting the residual yarn tubes 11 is rapidly reduced.

The tail end of the air flow spray gun 41 is connected with an air compressor 42, the air compressor 42 is used for realizing that the air flow spray gun 41 sprays high-pressure air flow, and an electric heating wire is arranged in the air flow spray gun 41 and used for heating the temperature of the air flow.

The protection plate 43 is installed in the air flow spray gun 41 outside, and the protection plate 43 side is equipped with the balancing piece 44, and air flow spray gun 41 is when cutting the yarn, and remaining spool 11 can be blown to highly compressed air, leads to remaining spool 11 one end upwarping, and balancing piece 44 is used for blocking remaining spool 11, prevents that remaining spool 11 upwarps.

An adjustable backer 45 is rotatably mounted on the machine head bracket 5 below the yarn cutting mechanism 4, the adjustable backer 45 comprises a plurality of ejector rods 46, and the ejector rods 46 are used for limiting the downward movement distance of the yarn cutting mechanism 4. The distance between the yarn cutting mechanism 4 and the residual yarn tube 11 influences the yarn cutting effect, the ejector rods 46 with different lengths are arranged according to the diameters of different residual yarn tubes 11, and when the residual yarn tube 11 with another diameter is replaced, the best yarn cutting distance can be adjusted only by using the corresponding ejector rod 46 to abut against the yarn cutting mechanism 4 to move downwards, so that the best yarn cutting effect is obtained.

The guide rail frame other end is connected with receiving agencies 93, and receiving agencies 93 includes guide rail frame extension section 931 and material collecting plate 932, and extension section 931 promotes through cylinder 10, and extension section 931 side is equipped with four sensors 934, and when four sensors 934 detected there is the spool, cylinder 10 promoted extension section 931, and the spool is because gravity drops to material collecting plate 932, realizes receiving the material.

Above is the utility model discloses preferred embodiment the utility model discloses make a plurality of other simple replacements and changes under the design prerequisite, all should regard as belonging to the utility model discloses a protection category.

Claims (10)

1. A integrative cutting yarn machine of straight tube which characterized in that: the yarn winding machine comprises a platform frame, wherein a conveying mechanism and a control box are arranged at the upper end of the platform frame, the conveying mechanism comprises a conveying belt, the conveying belt is used for conveying residual bobbins, adjustable limiting plates are arranged on two sides of the conveying belt, the limiting plates are used for limiting the distance of the residual bobbins in the diameter direction, the output end of the conveying belt is connected with a guide rail frame, and the guide rail frame is used for receiving the residual bobbins conveyed by the conveying belt; the yarn cutting mechanism is arranged above the guide rail frame, the machine head support is arranged on the platform frame, the yarn cutting mechanism is installed on the machine head support in a sliding fit mode, the yarn cutting mechanism comprises an air flow spray gun, the air flow spray gun can spray high-temperature and high-pressure air flow, the air flow spray gun is used for cutting off yarns of residual bobbins, a yarn dropping opening is formed in the guide rail frame below the air flow spray gun, the lower end of the yarn dropping opening is connected with a suction fan, and the suction fan is used for absorbing the yarns collected with the yarn.

2. The straight tube integrated yarn cutting machine according to claim 1, wherein: the input end of the conveying belt is provided with a blanking mechanism, the blanking mechanism comprises a feeding plate, the feeding plate is used for placing residual yarn pipes to be processed, and two ends of the feeding plate are obliquely arranged up and down; the side of the feeding plate is provided with an adjusting plate which is fixed and adjusted through screws and used for limiting the width direction of the residual bobbin.

3. The straight tube integrated yarn cutting machine according to claim 2, wherein: the control mechanism is arranged at the blanking end of the feeding plate and comprises a first control block and a second control block, the first control block and the second control block are respectively and independently connected with an air cylinder for pushing, the first control block is used for controlling the first residual bobbin on the feeding plate to drop, the second control block is used for limiting the rest residual bobbins on the feeding plate, and the first control block and the second control block are matched to realize the independent blanking of the residual bobbins.

4. The straight tube integrated yarn cutting machine according to claim 1, wherein: a movable pressing wheel is arranged above the conveying belt, and the movable pressing wheel can prevent residual yarn tubes on the conveying belt from tilting upwards; the conveyer belt is including fast conveyer belt and slow conveyer belt, and fast conveyer belt and slow conveyer belt are installed in succession, and what be close to the input is fast conveyer belt, and what be close to the output is slow conveyer belt.

5. The straight tube integrated yarn cutting machine according to claim 1, wherein: the rear side of the yarn cutting mechanism is connected with an air cylinder which is used for pushing the yarn cutting mechanism to slide on the handpiece bracket.

6. The straight tube integrated yarn cutting machine according to claim 1, wherein: a first sensor, a second sensor and a third sensor are arranged on the side edge of the conveying belt, the first sensor is used for sensing residual yarn tubes at the input end of the conveying belt, and when no residual yarn tube is monitored, the blanking mechanism performs blanking; and the second sensor and the third sensor are arranged in parallel, the second sensor and the third sensor are used for sensing residual bobbins on the conveyor belt, and when the residual bobbins are not monitored at the second sensor and the third sensor, the yarn cutting mechanism is automatically lifted by the cylinder.

7. The straight tube integrated yarn cutting machine according to claim 1, wherein: the tail end of the airflow spray gun is connected with an air compressor, the air compressor is used for realizing the high-pressure airflow sprayed by the airflow spray gun, and an electric heating wire is arranged in the airflow spray gun and used for heating the temperature of the airflow.

8. The straight tube integrated yarn cutting machine according to claim 1, wherein: the guard plate is installed in the air current spray gun outside, and the guard plate side is equipped with the balancing piece, and the balancing piece is used for blocking the remaining spool of restriction.

9. The straight tube integrated yarn cutting machine according to claim 1, wherein: an adjustable backer is rotatably arranged on the machine head bracket below the yarn cutting mechanism and comprises a plurality of ejector rods, and the ejector rods are used for limiting the downward moving distance of the yarn cutting mechanism.

10. The straight tube integrated yarn cutting machine according to claim 1, wherein: the guide rail frame other end is connected with receiving agencies, and receiving agencies includes guide rail frame extension section and material collecting plate, and the extension section passes through the cylinder promotion, and the extension section side is equipped with sensor four, and when sensor four detected the spool, the cylinder promoted the extension section and made the spool drop to the material collecting plate.

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