CN212355461U - Cone yarn transfer device and cone winder - Google Patents

Abstract

The utility model relates to a section of thick bamboo yarn transfer device and cone winder. The cone yarn transfer device comprises a bracket, a yarn pushing piece, a transfer track and a first driving mechanism; the yarn pushing piece is movably connected to the support and can extend out of the support to be used for pushing the cone yarn to move along the transfer track; the first drive mechanism is connected with the support for driving the support closer to or away from the transfer track. The utility model discloses well section of thick bamboo yarn transfer device is close to or keeps away from the transportation track through a actuating mechanism drive support to and push away the motion of yarn spare on the support, be convenient for the adjustment push away the distance between yarn spare and the section of thick bamboo yarn, can satisfy the transportation of different diameter section of thick bamboo yarns. In the continuous production process, after the cheese is transferred to the corresponding target position, the cheese transferring device resets, the position of the yarn pushing piece is adjusted at the moment, and the problems that the subsequent cheese is damaged due to the fact that the cheese transferring device rubs with the subsequent cheese in the resetting process can be effectively avoided.

Description

Cone yarn transfer device and cone winder

Technical Field

The utility model belongs to the technical field of the weaving and specifically relates to a section of thick bamboo yarn transfer device and cone winder are related to.

Background

During the spinning process, it is often necessary to wind the yarn onto a bobbin to form a package. After the yarn is processed by the winding machine to form the cone yarn, the cone yarn needs to be transported to a corresponding target position for storage or continuous processing. Because the diameter variation range of the cone yarn is large in the production process, the traditional processing mode is difficult to meet the requirement of transferring the cone yarns with different diameters.

SUMMERY OF THE UTILITY MODEL

In view of the above, there is a need for a yarn package transfer device and a winding machine. The cone yarn transfer device can be suitable for transferring cone yarns with different diameters. The bobbin winder comprises the bobbin yarn transfer device, when the bobbin winder is used for processing bobbin yarns, the bobbin yarns with different diameters can be transferred to corresponding target positions, the production of subsequent bobbin yarns is not influenced in the transfer process of the bobbin yarns, and the processing efficiency of the bobbin yarns can be effectively improved.

For solving the above technical problem, the utility model discloses a technical scheme as follows:

an object of the utility model is to provide a cone yarn transfer device, which comprises a bracket, a yarn pushing piece, a transfer track and a first driving mechanism; the yarn pushing piece is movably connected to the support and can extend out of the support to be used for pushing the cone yarn to move along the transfer track; the first driving mechanism is connected with the bracket and used for driving the bracket to approach or depart from the transfer track.

In one embodiment, the transfer track has a plurality of sequentially connected sub-transfer tracks; each sub-transferring track is used for receiving the inward concave surface of the cone yarn to form a temporary storage area.

In one embodiment, in the direction extending from the bracket, one end of the yarn pushing piece away from the bracket is bent to form an abutting part.

In one embodiment, the package transferring device further comprises a stopper; the limiting part is fixed on the support, and the yarn pushing part is abutted to the limiting part to move along the limiting part.

In one embodiment, the package transferring device further comprises a second driving mechanism; the second driving mechanism is connected with the yarn pushing piece and used for driving the pushing piece to move along the limiting piece.

In one embodiment, the bracket is provided with a limiting groove; the limiting part is fixed on the outer side of the limiting groove, and the second driving mechanism is arranged on the inner side of the limiting groove.

In one embodiment, a sub-limiting groove is arranged on the side wall of the limiting groove; the side wall of the yarn pushing piece and the second driving mechanism penetrate through the sub-limiting groove through a fixing piece to be fixed with each other.

In one embodiment, the package transferring device further comprises a roller; the gyro wheel with push away the yarn piece and be connected, the gyro wheel can the butt in the transfer track is in order to be used for the guide push away yarn piece and promote the section of thick bamboo yarn follows the transfer track motion.

Another object of the utility model is to provide a cone winder, its characterized in that: comprises a bobbin winder main body and a cone yarn transfer device in any embodiment;

the bobbin winder main body and the cone yarn transfer device are correspondingly arranged so that the transfer track can receive cone yarns formed by the winder main body.

In one embodiment, the winder further comprises a first position sensor and a second position sensor; the first position sensor and the second position sensor are respectively connected to the bobbin winder main body and used for respectively detecting whether the bobbin yarn transfer device reaches a first preset position and a second preset position.

The middle bobbin yarn transferring device comprises a bracket, a yarn pushing piece, a transferring track and a first driving mechanism; the yarn pushing piece is movably connected to the support and can extend out of the support to be used for pushing the cone yarn to move along the transfer track; the first drive mechanism is connected with the support for driving the support closer to or away from the transfer track. During the processing of the yarn package, after the yarn is wound on the package to form the yarn package, the yarn package is required to be dropped onto the transfer track to be transferred to the corresponding target position. Due to the fact that the diameter of the cone yarn is large in variation range, for example, the diameter is 70mm-240mm, and at the moment, the traditional processing mode is difficult to meet the requirement of transferring cone yarns with different sizes. The utility model discloses well section of thick bamboo yarn transfer device is close to or keeps away from the transportation track through a actuating mechanism drive support to and push away the motion of yarn spare on the support, be convenient for the adjustment push away the distance between yarn spare and the section of thick bamboo yarn, can satisfy the transportation of different diameter section of thick bamboo yarns. Adopt the utility model provides a section of thick bamboo yarn transfer device can promote the section of thick bamboo yarn that the diameter is different to transporting orbital motion along pushing away the yarn piece. When in process of production, when the diameter of the section of thick bamboo yarn that obtains through processing changes, the utility model discloses well section of thick bamboo yarn transfer device can push away the position of yarn piece according to the diameter adjustment of section of thick bamboo yarn, and the messenger pushes away yarn piece and can release the section of thick bamboo yarn steadily. In addition, in the continuous production process, after the cheese is transferred to the corresponding target position, the cheese transferring device resets, the position of the yarn pushing piece is adjusted at the moment, and the problems that the subsequent cheese is damaged due to the fact that the cheese transferring device rubs with the subsequent cheese in the resetting process can be effectively solved. In the transfer process of the cone yarn, the production of the follow-up cone yarn is not influenced, and the processing efficiency of the cone yarn can be effectively improved.

The utility model discloses well cone winder includes cone winder main part and above-mentioned section of thick bamboo yarn transfer device, and the cone winder main part corresponds the setting so that the section of thick bamboo yarn that the cone winder main part formed can be accepted to the transportation track with section of thick bamboo yarn transfer device. After the cheese is formed by the main body of the bobbin winder, the cheese is doffed to one end of the transfer track, the support is driven to be close to the transfer track through the first driving mechanism, the position of the yarn pushing piece on the support is adjusted, the yarn pushing piece is enabled to be abutted against the cheese, and the cheese is pushed to move along the transfer track. In section of thick bamboo yarn course of working, can adapt to the transportation of the section of thick bamboo yarn of different diameters well to can not take place the friction with follow-up section of thick bamboo yarn and lead to the section of thick bamboo yarn to appear the quality problems in the transportation with follow-up section of thick bamboo yarn in the transportation, can not influence the production of follow-up section of thick bamboo yarn in the transportation simultaneously, can guarantee the section of thick bamboo yarn and transport the machining efficiency of quality improvement section of thick bamboo yarn.

Drawings

FIG. 1 is a schematic structural view of a part of a structure of a cone yarn transferring device in an embodiment of the present invention;

FIG. 2 is a left side view of the corresponding structure of FIG. 1;

FIG. 3 is a schematic structural diagram of a bobbin winder according to an embodiment of the present invention;

FIG. 4 is a schematic view of the corresponding winder of FIG. 3 from another angle;

FIG. 5 is a front view of the winder corresponding to FIG. 3;

fig. 6 is a left side view of the winder corresponding to fig. 3.

The notation in the figure is:

10. the structure of the bobbin yarn transfer device is partial; 101. a support; 1011. a limiting groove; 10111. a sub-limiting groove; 102. a yarn pushing piece; 1021. an abutting portion; 1022. a side wall of the yarn pushing member; 103. a second drive mechanism; 1031. a cylinder; 10311. a first air tap; 10312. a second air tap; 1032. a telescopic rod; 104. a limiting member; 105. a roller; 106. a mounting member; 1061. mounting holes; 107. a first fixing member; 108. a second fixing member; 109. a third fixing member; 110. a fourth fixing member; 20. a bobbin winder; 201. a winder main body; 2011. a bobbin; 2012. a grooved drum; 202. a transfer track; 2021. a sub-transfer track; 203. a first drive mechanism; 204. a connecting rod; 205. a first position sensor; 206. a second position sensor; 30. and (4) cone yarn.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying examples. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

In the description of the present invention, it should be understood that the terms used in the present invention are used in the description of the present invention, and it should be understood that the terms "center", "upper", "lower", "bottom", "inner", "outer" and the like used in the present invention are used as the terms of the orientation or the positional relationship shown in the drawings, and are only used for convenience of description and simplification of the description, but do not indicate or imply that the device or the element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be interpreted as limiting the present invention.

It should be understood that the terms "first", "second", etc. are used herein to describe various information, but the information should not be limited to these terms, and these terms are only used to distinguish one type of information from another. For example, "first" information may also be referred to as "second" information, and similarly, "second" information may also be referred to as "first" information, without departing from the scope of the present invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

An embodiment of the present invention provides a yarn package transfer device, wherein a partial structure 10 of the yarn package transfer device is shown in fig. 1-2. The transfer rail 202 and the first drive mechanism 203 are temporarily not shown in fig. 1-2. The transfer track 202 and the first drive mechanism 203 are shown in fig. 3-6.

The cheese transferring device in this embodiment comprises a bracket 101, a yarn pushing member 102, a transferring track 202 and a first driving mechanism 203; the yarn pushing piece 102 is movably connected to the bracket 101, and the yarn pushing piece 102 can extend out of the bracket 101 to be used for pushing the cone yarn 30 to move along the transfer track 202; a first drive mechanism 203 is connected to the carriage 101 for driving the carriage 101 towards or away from the transfer track 202. During the processing of the yarn package, after the yarn is wound on the package to form the yarn package, the yarn package is dropped onto the transfer track 202 and transferred to the corresponding target position. Due to the fact that the diameter of the cone yarn is large in variation range, for example, the diameter is 70mm-240mm, and at the moment, the traditional processing mode is difficult to meet the requirement of transferring cone yarns with different sizes. The utility model discloses well section of thick bamboo yarn transfer device is close to or keeps away from through first actuating mechanism 203 drive support 101 and transports track 202 to and push away the motion of yarn piece 102 on support 101, be convenient for the adjustment push away the distance between yarn piece 102 and the section of thick bamboo yarn, can satisfy the transportation of different diameter section of thick bamboo yarns. Adopt the utility model provides a section of thick bamboo yarn transfer device can promote the section of thick bamboo yarn that the diameter is different to move along transferring track 202 through pushing away yarn piece 102. When in process of production, when the diameter of the section of thick bamboo yarn that obtains through processing changes, the utility model discloses well section of thick bamboo yarn transfer device can push away the position of yarn piece 102 according to the diameter adjustment of section of thick bamboo yarn, and the messenger pushes away yarn piece 102 and can release the section of thick bamboo yarn steadily. In addition, in the continuous production process, after the cheese is transferred to the corresponding target position, the cheese transferring device resets, and the position of the yarn pushing piece 102 is adjusted at the moment, so that the problems that the subsequent cheese is damaged due to friction between the cheese transferring device and the subsequent cheese in the resetting process and the like can be effectively avoided. In the transfer process of the cone yarn, the production of the follow-up cone yarn is not influenced, and the processing efficiency of the cone yarn can be effectively improved.

The transfer track 202 has a plurality of sequentially connected sub-transfer tracks 2021; each sub-transfer track 2021 is recessed in the surface for receiving the package 30 to form a buffer. The plurality of sub-transferring tracks 2021 are connected in sequence, and each sub-transferring track 2021 is recessed in the surface for receiving the cone yarn to form a temporary storage area, at this time, the plurality of sub-transferring tracks 2021 are wavy, that is, the transferring track 202 is wavy. In the cheese transfer process, different sub-transfer tracks 2021 provide the temporary storage area for the cheese, can keep in a plurality of cheeses on transferring track 202, are convenient for improve the machining efficiency of cheese. Meanwhile, when the bobbin winder 20 breaks down, the bobbin yarns can be temporarily stored, and the accumulation of the bobbin yarns is relieved.

In a specific example, the area of the radial cross section of the yarn pushing member 102 is gradually increased in a direction protruding from the holder 101. In the direction extending from the bracket 101, the area of the radial section of the yarn pushing piece 102 is gradually increased, so that the contact area of the yarn pushing piece 102 and the cheese 30 is increased, the pressure action of the yarn pushing piece 102 on the cheese is reduced, and the adverse effect on the quality of the cheese caused by overlarge pressure is prevented. In addition, the contact area of the yarn pushing piece 102 and the cheese is increased, which is beneficial to the yarn pushing piece 102 to stably push out the cheese,

in a specific example, in a direction protruding from the bracket 101, an end of the yarn pushing member 102 away from the bracket 101 is bent to form an abutment 1021. During the transfer process of the cheese, the abutting part 1021 is in contact with the cheese, and the bent abutting part 1021 can enable the yarn pushing piece 102 to be in smooth contact with the cheese when in contact with the cheese, so that the adverse effect on the quality of the cheese when the yarn pushing piece 102 is in contact with the cheese is further reduced.

Further preferably, referring to fig. 1 and fig. 2 again, in the present embodiment, in the direction extending from the support 101, an end of the yarn pushing member 102 away from the support 101 is bent toward the support 101 to form an abutting portion 1021. In the direction of extending from the support 101, the end of the yarn pushing member 102 away from the support 101 is bent towards the support 101 to form an abutting part 1021, which is beneficial to the reasonable arrangement of the components of the yarn bobbin transferring device and the components of the bobbin winder 20 and saves the installation space.

In one particular example, the package transferring device further comprises a stopper 104; the limiting member 104 is fixed on the bracket 101, and the yarn pushing member 102 abuts against the limiting member 104 to move along the limiting member 104. Preferably, the side wall 1022 of the yarn pushing member abuts against the limiting member 104 to move along the limiting member 104. The limiting member 104 is fixed on the bracket 101, the side wall 1022 of the yarn pushing member abuts against the limiting member 104 to move along the limiting member 104, the motion track of the yarn pushing member 102 is limited by the limiting member 104 fixed on the bracket 101, and the motion stability of the yarn pushing member 102 is improved.

In a particular example, the package transferring device further comprises a second driving mechanism 103; the second driving mechanism 103 is connected to the yarn pushing member 102 for driving the yarn pushing member 102 to move along the limiting member 104. Specifically, the bracket 101 is provided with a limit groove 1011; the limiting member 104 is fixed to the outer side of the limiting groove 1011, and the second driving mechanism 103 is disposed on the inner side of the limiting groove 1011. Further, a sub-limiting groove 10111 is arranged on the side wall of the limiting groove 1011; the side wall 1022 of the yarn pushing member and the second driving mechanism 103 are fixed to each other by a fixing member passing through the sub-limiting groove 10111.

In a specific example, the yarn pushing member 102 is connected with the bracket 101 through a spring. During the movement of the yarn pushing cylinder along the transfer track 202, the position of the yarn pushing member 102 on the bracket 101 is adjusted by the deformation of the spring.

Referring again to fig. 1 and 2, the second driving mechanism 103 comprises an air cylinder 1031 and a telescopic rod 1032, the air cylinder 1031 is connected with the telescopic rod 1032 for driving the telescopic rod 1032 to move; the yarn pushing member 102 is fixed to the telescopic rod 1032; the telescopic rod 1032 is disposed inside the limit groove 1011. In the embodiment, the telescopic rod 1032 is driven by the air cylinder 1031 to move so as to drive the yarn pushing piece 102 to stably move along the bracket 101. The cylinder 1031 is fixed to the holder 101 by a third fixing member 109. The third fixing member 109 may be, but is not limited to, a screw, a rivet, and a pin. In this embodiment, the cylinder 1031 is fixed to the bracket 101 by a screw connection.

Specifically, the air cylinder 1031 has a first air tap 10311 and a second air tap 10312, and during the yarn pushing process, the telescopic link 1032 is driven by the action of the first air tap 10311 and the second air tap 10312. More specifically, actuation of the telescoping pole 1032 is effected by the suction and/or discharge action of the first air tap 10311, the suction and/or discharge air pressure of the first air tap 10311, the suction and/or discharge action of the second air tap 10312, and the suction and/or discharge air pressure action of the second air tap 10312.

Further, the yarn pushing member 102 is fixed to the telescopic rod 1032, and particularly, the yarn pushing member 102 is fixed to the telescopic rod 1032 by the first fixing member 107. The first fixing member 107 may be, but is not limited to, a screw, a rivet, and a pin. In this embodiment, the yarn pushing member 102 is fixed to the telescopic rod 1032 by a threaded screw connection.

In one particular example, the side walls 1022 of the yarn pusher are secured to the telescoping rod 1032. The yarn pushing piece 102 is driven to move by the action of the telescopic rod 1032. Specifically, the side walls 1022 of the yarn pushing member are fixed to the telescopic rod 1032 by the second fixing member 108. The second fastener 108 may be, but is not limited to, a screw, a rivet, and a pin. In this embodiment, the side wall 1022 of the yarn pushing member is fixed to the telescopic rod 1032 by a threaded screw connection.

Preferably, the number of the side walls 1022 of the yarn pushing member is 2, and the number of the limiting members 104 is 2. The 2 limiting members 104 are respectively fixed to two outer sides of the limiting groove 1011. Correspondingly, the side walls 1022 of the 2 yarn pushing members are disposed corresponding to the limiting members 104. Meanwhile, two side walls of the limiting groove 1011 are respectively provided with a sub-limiting groove 10111. The side walls 1022 of the 2 yarn pushing members are respectively located at two outer sides of the limit groove 1011, the side walls 1022 of the 2 yarn pushing members are respectively located at two ends of the yarn pushing member 102, and the second fixing member 108 sequentially penetrates through the side wall of one yarn pushing member, the sub-limit groove close to the side wall of the yarn pushing member, the telescopic rod 1032, the sub-limit groove close to the side wall of the other yarn pushing member and the side wall of the other yarn pushing member, so that the side walls 1022 of the 2 yarn pushing members are fixed to the telescopic rod 1032.

The side wall 1022 of the yarn pushing member in this embodiment forms an angle of 90 ° with the main body of the yarn pushing member 102. It is shown that the yarn pushing member 102 covers the side wall portion of the position-limiting groove 1011. It is understood that the included angle formed between the side wall 1022 of the yarn pushing member and the main body of the yarn pushing member 102 may not be limited to 90 °. Preferably, an included angle formed between the side wall 1022 of the yarn pushing member and the main body of the yarn pushing member 102 is an acute angle, such as 30 °, 45 °, 60 °, and the like, so that the yarn pushing member 102 can smoothly move on the limiting groove 1011.

In a particular example, the package transferring device further comprises a roller 105; the roller 105 is connected with the yarn pushing member 102, and the roller 105 can abut against the transfer track 202 to guide the yarn pushing member 102 to push the cheese 30 to move along the transfer track 202. The roller 105 is abutted with the transfer track 202 to guide the yarn pushing piece 102 to push the cone yarn 30 to move along the transfer track 202, so that the movement of the yarn pushing piece 102 is more stable and smooth.

In this embodiment, the roller 105 is connected to the yarn pushing member 102 through a side wall 1022 of the yarn pushing member. Specifically, the side walls 1022 of the 2 yarn pushing members are provided with mounting shafts (not shown in the figure), and the rollers 105 are mounted on the mounting shafts.

In one particular example, the package transfer device further includes a mount 106; the mounting member 106 is fixed to the bracket 101 for mounting the package transferring device on a preset apparatus. The cone yarn transfer device is arranged on preset equipment through a mounting part 106 in the production process. The yarn package transfer device is mounted to the winder 20, for example, by mounts 106.

Further, the mounting member 106 is provided with a mounting hole 1061. During the installation process, the connecting rod 204 of the bobbin winder 20 can be extended into the installation hole 1061, and the transfer device of the cone yarn 30 can be installed on the bobbin winder 20 through the fourth fixing member 110. The fourth fixing member 110 may be, but is not limited to, a screw, a rivet, and a pin. In this embodiment, the mounting member 106 and the connecting rod 204 are fixed to each other by a threaded screw connection.

Referring to fig. 3-6, another embodiment of the present invention provides a bobbin winder 20, the bobbin winder 20 includes a bobbin winder main body 201 and the above bobbin yarn transferring device. The winder body 201 is arranged in correspondence with the yarn package transferring device so that the transferring track 202 can receive the yarn package 30 formed by the winder body 201.

Further, the winder 20 further comprises a connecting rod 204, the connecting rod 204 is used for matching with the mounting hole 1061 to mount the yarn bobbin transferring device on the winder 20. The winder body 201 includes a bobbin 2011 and a grooved bobbin 2012, which is rotated during winding to rotate the bobbin 2011 to wind the yarn onto the bobbin 2011. The yarn package is completed to form the package 30. Then, the cone yarn 30 is stably and efficiently transferred to the corresponding target position through the cooperation of the bobbin winder main body 201 and the bobbin transfer device.

The number of neutron transport tracks 2021 in this embodiment is 2. During the transfer process, the yarn pushing piece 102 can automatically retract when the resistance of the yarn pushing piece is increased and automatically extend when the resistance of the yarn pushing piece is reduced during the transfer process by setting parameters of the second driving mechanism 103. In particular, when the yarn pushing member 102 is not subjected to a constant resistance while the package yarn 30 is transported on the wavy transport track 202, the parameters of the second driving mechanism 103 are set in a proper range, and when the resistance of the yarn pushing member 102 is increased, the yarn pushing member 102 automatically retracts; when the resistance of the yarn pushing piece 102 is reduced, the yarn pushing piece 102 automatically extends out, and the yarn pushing piece 102 is ensured to be in stable contact with the cone yarn 30 so as to stably transfer the cone yarn 30 to a corresponding target position.

In one particular example, winder 20 further includes a first position sensor 205 and a second position sensor 206; the first position sensor 205 and the second position sensor 206 are respectively connected to the winder main body 201 for respectively detecting whether the yarn package transferring device reaches a first preset position and a second preset position. In this embodiment, the position of the connecting rod 204 is sensed by the first position sensor 205 and the second position sensor 206, and the position of the transfer device for the package 30 is determined.

In this embodiment, when the first position sensor 205 senses the connecting rod 204, it indicates that the package transferring device is reset or in a position to be extended. At this time, the second driving mechanism 103 and the first driving mechanism 203 can be controlled by the PLC controller to operate so as to extend the yarn pushing member 102 and make the abutting portion 1021 contact with the yarn package 30, the roller 105 abuts against the transfer track 202, and then the yarn pushing member 102 pushes the yarn package 30 to move to a corresponding target position along the transfer track 202. When the second position sensor 206 detects the connecting rod 204, it indicates that the cheese transferring device transfers the cheese 30 to a corresponding target position, at this time, the second driving mechanism 103 and the first driving mechanism 203 can be controlled by the PLC controller to act so as to retract and reset the yarn pushing piece 102, and in the resetting process, the subsequent cheese can be normally produced, and the yarn pushing piece 102 cannot rub against the subsequent cheese, and the problems of scratching, scratching and the like of the subsequent cheese cannot occur.

In still another embodiment of the present invention, a method for processing a cone yarn is provided, wherein the cone yarn processing method employs the above-mentioned bobbin winder 20; the processing method of the cone yarn comprises the following steps:

forming a cone yarn 30 through the winder body 201;

doffing the cone yarn 30 to one end of the transfer track 202;

the bracket 101 is driven to approach the transfer track 202 through the first driving mechanism 203, the position of the yarn pushing piece 102 on the bracket 101 is adjusted to enable the yarn pushing piece 102 to abut against the bobbin yarn 30, and the bobbin yarn 30 is pushed to move along the transfer track 202.

Specifically, the yarn is wound on the bobbin 2011 by the grooved tube to form the package 30. Then, the bobbin yarn 30 is doffed to one end of the transfer track 202, the bracket 101 is driven to be close to the transfer track 202 through the first driving mechanism 203, the position of the yarn pushing piece 102 on the bracket 101 is adjusted through the second driving mechanism 103, the roller 105 is enabled to be abutted against the transfer track 202, the abutting part 1021 of the yarn pushing piece 102 is enabled to be abutted against the bobbin yarn 30, and the bobbin yarn 30 is pushed to move along the transfer track 202. When the second position sensor 206 detects the connecting rod 204, indicating that the package transferring device transfers the package 30 to the corresponding target position, the second driving mechanism 103 and the first driving mechanism 203 can be controlled by the PLC controller to act so as to retract and reset the yarn pushing member 102. When the first position sensor 205 detects the connecting rod 204, it indicates that the yarn package transfer device is reset. At this moment, the next cheese is wound, and the next cheese is transferred to a corresponding target position under the action of the first driving mechanism 203 and the cheese transferring device, so that continuous production is realized, and the production efficiency is improved.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. The utility model provides a section of thick bamboo yarn transfer device which characterized in that: comprises a bracket, a yarn pushing piece, a transferring track and a first driving mechanism; the yarn pushing piece is movably connected to the support and can extend out of the support to be used for pushing the cone yarn to move along the transfer track; the first driving mechanism is connected with the bracket and used for driving the bracket to approach or depart from the transfer track.

2. The package transfer device according to claim 1, wherein: the transfer track is provided with a plurality of sub transfer tracks which are connected in sequence; each sub-transferring track is used for receiving the inward concave surface of the cone yarn to form a temporary storage area.

3. The package transfer device according to claim 1, wherein: in the direction of extending from the support, one end of the yarn pushing piece far away from the support is bent to form an abutting part.

4. The package transfer device according to claim 1, wherein: the device also comprises a limiting piece; the limiting part is fixed on the support, and the yarn pushing part is abutted to the limiting part to move along the limiting part.

5. The package transfer device according to claim 4, wherein: the device also comprises a second driving mechanism; the second driving mechanism is connected with the yarn pushing piece and used for driving the yarn pushing piece to move along the limiting piece.

6. The package transfer device according to claim 5, wherein: the bracket is provided with a limiting groove; the limiting part is fixed on the outer side of the limiting groove, and the second driving mechanism is arranged on the inner side of the limiting groove.

7. The package transfer device according to claim 6, wherein: a sub-limiting groove is arranged on the side wall of the limiting groove; the side wall of the yarn pushing piece and the second driving mechanism penetrate through the sub-limiting groove through a fixing piece to be fixed with each other.

8. The package transfer device according to any one of claims 1 to 7, wherein: the device also comprises a roller; the gyro wheel with push away the yarn piece and be connected, the gyro wheel can the butt in the transfer track is in order to be used for the guide push away yarn piece and promote the section of thick bamboo yarn follows the transfer track motion.

9. A bobbin winder is characterized in that: comprising a winder body and a package transfer device according to any one of claims 1 to 8;

the bobbin winder main body and the cone yarn transfer device are correspondingly arranged so that the transfer track can receive cone yarns formed by the winder main body.

10. The winder of claim 9, wherein: the device also comprises a first position sensor and a second position sensor; the first position sensor and the second position sensor are respectively connected to the bobbin winder main body and used for respectively detecting whether the bobbin yarn transfer device reaches a first preset position and a second preset position.

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