CN216807582U - A roll up silk ware for glass fiber silk - Google Patents

Abstract

The utility model relates to the field of glass fiber production, in particular to a fiber winder for glass fiber yarns, which comprises a shell, a rotating shaft, a roller and a driving device, wherein the interior of the shell is of a hollow structure; the shell is also provided with a transposition device, the transposition device comprises a rotary table, a rack and a first linear driver, the rotary table is arranged on the shell, the outer surface of the back of the rotary table is provided with a uniform first tooth surface, and the first tooth surface is positioned in a house; the rack is arranged in the shell and positioned on one side of the first tooth surface, and the rack can be meshed with the first tooth surface; the first linear driver is arranged on the shell in a penetrating mode and connected with the rack. According to the filament winder for glass fiber filaments, the rotating wheels are driven by the driving device to rotate, and then the two rotating shafts are changed into the working end and the dismounting end through the rotating table, so that the functions of convenience in dismounting and mounting are realized, and the defects that the dismounting is difficult and too much time is wasted in the dismounting process are overcome.

Description

A roll up silk ware for glass fiber silk

Technical Field

The utility model relates to the field of glass fiber production, in particular to a fiber winder for glass fiber yarns.

Background

The glass fiber yarn is an inorganic non-metallic material with excellent performance, is usually used as a reinforcing material, an electrical insulating material, a heat insulation material, a circuit substrate and the like in a composite material, and is widely applied to various fields of national economy. The glass fiber yarn is required to be wound through a yarn winding machine after being produced from a production line, so that later storage and transportation are facilitated.

The existing wire winding device, such as the wire winding machine for glass fiber production disclosed in patent No. CN202022434196.9, can simply and effectively complete the wire winding process, can also be convenient for take out the wound paper tube and adjust the width, but it needs to be disassembled multiply in the replacement process, greatly increases the burden of workers, and simultaneously can waste a large amount of time due to the disassembly, thereby leading to the reduction of the working efficiency.

SUMMERY OF THE UTILITY MODEL

In view of the above, there is a need to provide a fiber winder for glass fiber yarns, which solves the problems of difficulty in disassembly and excessive time consumption in the disassembly process through a multi-station structure.

In order to solve the problems of the prior art, the utility model adopts the technical scheme that:

a fiber winder for glass fiber yarns comprises a shell, a rotating shaft, a roller and a driving device, wherein the inside of the shell is of a hollow structure; the plurality of rotating shafts are uniformly arranged on the shell; the number of the rollers is the same as that of the rotating shafts, the rollers correspond to the rotating shafts one by one, and the rollers are sleeved on the rotating shafts; the driving device is arranged in the shell and can be connected with the rotating shaft; the shell is also provided with a transposition device, the transposition device comprises a rotary table, a rack and a first linear driver, the rotary table is arranged on the shell, the outer surface of the back of the rotary table is provided with a uniform first tooth surface, and the first tooth surface is positioned in the shell; the rack is arranged in the shell and positioned on one side of the first tooth surface, and the rack can be meshed with the first tooth surface; the first linear driver is arranged on the shell in a penetrating mode and connected with the rack.

Preferably, the rotating shaft is provided with a detachable cap, the cap is in a circular ring shape, the radius of the cap is larger than or equal to that of the roller, a first thread is arranged inside the cap, and a second thread corresponding to the first thread is arranged on the rotating shaft.

Preferably, be provided with a plurality of first depressed parts that distribute around even block on the block, the edge of first depressed part is smooth cambered surface.

Preferably, each rotating shaft is in a cross shape, and one end of each rotating shaft, which is positioned at the turntable, is provided with a corresponding and fixedly connected buckle.

Preferably, the driving device comprises a rotating block, a rotating connecting block, a first motor and a connecting belt; the turning block sets up in the inside one side that is located the revolving stage of casing, turning block and casing swing joint, and swing joint piece sets up on the buckle and can support with the turning block and lean on, and first motor setting is in the one side of turning block and output shaft perpendicular to revolving stage setting, and the connecting band is connected with first motor output shaft and turning block respectively.

Preferably, the rotating block is composed of a plurality of first rods which are coaxially and uniformly distributed, the rotating connecting block is composed of a plurality of second rods which are coaxially and uniformly distributed, the top ends of the first rods and the second rods are provided with first protruding portions, second recessed portions are arranged below the first protruding portions, first protruding portions on the first rods correspond to the second recessed portions on the second rods, first protruding portions on the second rods correspond to the second recessed portions on the first rods, and extension rods are arranged at the lower ends of the second protruding portions of the first rods and the second rods.

Preferably, a first bearing is arranged between the shell and the rotary table, and a second bearing is arranged between the buckle and the rotary table.

Preferably, one end of the shell, which is positioned on the rotary table, is provided with a tension rod, an electromagnetic sliding table and a wire guide wheel; the tension rod is arranged on the shell and positioned on one side of the rotary table; the electromagnetic sliding table is arranged above the tension rod and forms an acute angle with the tension rod shell, and the wire guide wheel is movably arranged on the electromagnetic sliding table.

Compared with the prior art, the utility model has the beneficial effects that:

the utility model provides a fiber winder for glass fiber yarns, which realizes the functions of convenient disassembly and assembly by driving a rotating wheel to rotate through a driving device and changing two rotating shafts into a working end and a disassembly end through a turntable, and solves the defects of difficult disassembly and excessive time waste in the disassembly process.

2. According to the winder for glass fiber yarns, the function of locking the roller is achieved through the cap, and the defect that the winding yarns possibly slip off in the rotating process of the rotating shaft is overcome.

3. According to the winder for glass fiber yarns, the function of facilitating gripping is achieved through the first concave part on the cover cap, and the defect that the winder is inconvenient for workers to grip is overcome.

4. According to the filament winder for the glass fiber filaments, the function of preventing the rotation shaft and the buckle from sliding is achieved through the cross-shaped rotation shaft and the buckle corresponding to the cross-shaped rotation shaft, and the defect that the rotation shaft possibly slides is overcome.

5. According to the filament winder for glass fiber filaments, the function of driving the rotating shaft to rotate is realized through the connecting block arranged in the driving device and the rotating connecting block arranged on the buckle, and the defect that the rotating shaft is difficult to be connected with the driving device due to the rotation of the rotary table is overcome.

6. According to the filament winder for the glass fiber filaments, the function of how to connect the connecting blocks is realized through the first protruding parts, the second recessed parts and the extending parts which are arranged on the first rod and the second rod, and the defect that the rotating block is difficult to match with the rotating connecting block is overcome.

7. According to the filament winder for glass fiber filaments, the function of reducing friction force is achieved through the first bearing between the shell and the rotary table and the second bearing between the buckle and the rotary table, and the defect that the friction force between the shell and the rotary table and between the rotary table and the rotating shaft is large is overcome.

8. According to the winder for glass fiber yarns, the tensioning rod, the electromagnetic sliding table and the wire guide wheel are used for realizing the function of uniform winding, and the defects of non-uniform winding and non-fastening winding are overcome.

Drawings

FIG. 1 is a perspective view of a filament winder of an embodiment;

fig. 2 is a partial enlarged view at a of fig. 1;

FIG. 3 is a first perspective view of the embodiment of the filament winder after hiding a portion of the housing;

FIG. 4 is a second perspective view of the embodiment of the filament winder after hiding part of the housing;

FIG. 5 is a rear view of the embodiment of the filament winder with a portion of the housing hidden;

FIG. 6 is a partial enlarged view at B of FIG. 5 of the embodiment;

the reference numbers in the figures are:

1-a shell;

2-a rotating shaft; 2 a-a cap; 2a1 — first thread; 2a2 — first recess; 2 b-a second thread; 2 c-buckling;

3-a roller;

4-a drive device; 4 a-a turning block; 4a1 — first bar; 4a2 — first boss; 4a 3-second recess; 4a 4-extension rod; 4 b-rotating the connecting block; 4b1 — second bar; 4 c-a first motor; 4 d-connecting the tape;

5-a transposition device; 5 a-a turntable; 5a1 — first tooth flank; 5a2 — first bearing; 5a3 — second bearing; 5 b-a rack; 5 c-a first linear driver;

6-tensioning rod;

7-an electromagnetic slipway; 7 a-guide wheel.

Detailed Description

For further understanding of the features and technical means of the present invention, as well as the specific objects and functions attained by the present invention, the present invention will be described in further detail with reference to the accompanying drawings and detailed description.

As shown in fig. 1-6:

a fiber winder for glass fiber yarns comprises a shell 1, a rotating shaft 2, a roller 3 and a driving device 4, wherein the inside of the shell 1 is of a hollow structure; a plurality of rotating shafts 2 are uniformly arranged on the shell 1; the number of the rollers 3 is the same as that of the rotating shafts 2, and the rollers 3 correspond to the rotating shafts 2 one by one, and the rotating shafts 2 are sleeved with the rollers 3; the driving device 4 is arranged inside the shell 1 and can be connected with the rotating shaft 2; the shell 1 is further provided with a indexing device 5, the indexing device 5 comprises a rotary table 5a, a rack 5b and a first linear driver 5c, the rotary table 5a is arranged on the shell 1, the outer surface of the back of the rotary table 5a is provided with a uniform first tooth surface 5a1, and the first tooth surface 5a1 is positioned inside the shell 1; a rack 5b provided inside the housing 1 on one side of the first tooth face 5a1, the rack 5b being capable of meshing with the first tooth face 5a 1; the first linear driver 5c is inserted into the housing 1 and connected to the rack 5 b.

Based on the above embodiment, it should be noted that the first linear driver 5c is a structure similar to a screw sliding table, the structure of the roller 3 is a structure of a roller 3 assembly in a comparison document, so that it is not shown in detail in the figure, a winding drum (not shown in the figure) is further disposed on the roller 3 assembly, the roller 3 is firstly sleeved on the rotating shaft 2, the driving device 4 drives the roller 3 and the rotating shaft 2 to rotate for winding, when one roller 3 is fully wound, the first linear driver 5c drives the rack 5b to move up and down, because the rack 5b is meshed with the first tooth surface 5a1, the rack 5b is driven by the first linear driver 5c to move up and down, so that the rotating table 5a rotates, and the rotating shaft 2 on the rotating table 5a rotates along with the rotating table 5a, so that one of the rotating shafts 2 is separated from a state connected with the driving device 4, when the rack 5b moves to a certain distance, the rack can enter a limiting state to stop moving, so that the rotary table 5a stops moving to enable the other rotary shaft 2 to be connected with the driving device 4 to work, and the rotary shaft 2 at the other end can be convenient for a worker to detach and replace a winding drum wound with wires.

Further, the wire winder provided by the present application still has the defect that the wire winding may slip off during the rotation of the rotating shaft 2, and in order to solve the problem, as shown in fig. 1 and 2:

the rotating shaft 2 is provided with a detachable cap 2a, the cap 2a is circular and has a radius larger than or equal to that of the drum 3, a first thread 2a1 is arranged inside the cap 2a, and a second thread 2b corresponding to the first thread 2a1 is arranged on the rotating shaft 2.

Based on the above embodiment, the cap 2a provided by the present application enables the cap 2a to move on the rotating shaft 2 to squeeze one end of the drum 3 through the first thread 2a1 provided on the cap 2a and the second thread 2b corresponding to the rotating shaft 2, and since the radius of the cap 2a is greater than that of the drum 3, the cap 2a can effectively prevent the wound wires from slipping off, thereby solving the above problem.

Further, the cap 2a provided by the present application still has the defect of inconvenient gripping by workers, and in order to solve the problem, as shown in fig. 2:

the cap 2a is provided with a plurality of first concave parts 2a2 distributed around the uniform cap 2a, and the edges of the first concave parts 2a2 are all smooth cambered surfaces.

Based on the above-mentioned embodiment, the cap 2a provided by the present application provides a grasping point for the worker through the plurality of concave portions provided thereon so as to be convenient for the worker to use, and secondly the edge of the first concave portion 2a2 is smooth so as to reduce the injury of the worker and thus solve the above-mentioned problem.

Further, the rotating shaft 2 provided by the present application still has the defect of possible sliding, and in order to solve this problem, as shown in fig. 1:

each rotating shaft 2 is in a cross shape, and one end of each rotating shaft 2, which is positioned at the turntable 5a, is provided with a buckle 2c which is correspondingly and fixedly connected with the rotating shaft.

Based on above-mentioned embodiment, the axis of rotation 2 that this application provided also is cross and the buckle 2c that corresponds through inside for axis of rotation 2 is difficult to appear skidding when drive arrangement 4 drives, thereby above-mentioned problem has been solved to the condition that axis of rotation 2 dropped has also been prevented to appear to buckle 2c and 2 fixed connection of axis of rotation simultaneously.

Further, the rotating shaft 2 provided by the present application still has the defect that it is difficult to connect the driving device 4 due to the turntable 5a, and in order to solve this problem, as shown in fig. 4 and 5:

the driving device 4 comprises a rotating block 4a, a rotating connecting block 4b, a first motor 4c and a connecting belt 4 d; the turning block 4a is arranged inside the shell 1 and located on one side of the rotary table 5a, the turning block 4a is movably connected with the shell 1, the movable connecting block is arranged on the buckle 2c and can abut against the turning block 4a, the first motor 4c is arranged on one side of the turning block 4a, the output shaft of the first motor 4c is perpendicular to the rotary table 5a, and the connecting belt 4d is respectively connected with the output shaft of the first motor 4c and the turning block 4 a.

Based on above-mentioned embodiment, drive arrangement 4 that this application provided carries out work through its inside first motor 4c that sets up and makes connecting band 4d drive turning block 4a rotate, because revolving stage 5a can drive axis of rotation 2 and rotate, make rotation connecting block 4b can follow corresponding axis of rotation 2 and rotate, thereby make rotation connecting block 4b and turning block 4a break away from, when revolving stage 5a rotated spacing, the rotation connecting block 4b of the other end will be connected with turning block 4a, thereby make axis of rotation 2 rotate and solved above-mentioned problem.

Further, the present application still provides the driving device 4 with the defect that the rotating block 4a and the rotating connecting block 4b are difficult to be matched, and in order to solve the problem, as shown in fig. 4, 5 and 6:

the rotating block 4a is composed of a plurality of first rods 4a1 which are coaxially and uniformly distributed, the rotating connecting block 4b is composed of a plurality of second rods 4b1 which are coaxially and uniformly distributed, the top ends of the first rods 4a1 and the second rods 4b1 are both provided with first convex parts 4a2, second concave parts 4a3 are arranged below the first convex parts 4a2, the first convex parts 4a2 on the first rods 4a1 correspond to the second concave parts 4a3 on the second rods 4b1, the first convex parts 4a2 on the second rods 4b1 correspond to the second concave parts 4a3 on the first rods 4a1, and the lower ends of the second convex parts of the first rods 4a1 and the second rods 4b1 are both provided with extending rods 4a 4.

Based on the above-described embodiments, the present application provides that the rotary block 4a and the rotary connection block 4b enable the first rod 4a1 and the second rod 4b1 to make contact by the extension rod 4a4 provided on the first rod 4a1 and the second rod 4b1, and the above-described problems are solved by increasing the grasping force between the first rod 4a1 and the second rod 4b1 by the mutual first protrusion 4a2 and the second recess 4a3, thereby increasing the force provided by the rotary block 4 a.

Further, the wire winder provided by the present application still has the defect of large friction between the housing 1 and the rotary table 5a, and between the rotary table 5a and the rotating shaft 2, and in order to solve this problem, as shown in fig. 1:

a first bearing 5a2 is provided between the housing 1 and the turntable 5a, and a second bearing 5a3 is provided between the clip 2c and the turntable 5 a.

Based on the above-described embodiments, the present application provides that the housing 1 and the turntable 5a and the rotating shaft 2 reduce the frictional force between the housing 1 and the turntable 5a and the frictional force between the turntable 5a and the rotating shaft 2 through the first bearing 5a2 and the second bearing 5a3, respectively, which solves the above-described problems.

Further, the wire winder provided by the present application still has the defects of uneven winding and loose winding, and in order to solve the problem, as shown in fig. 1:

one end of the shell 1, which is positioned on the rotary table 5a, is provided with a tension rod 6, an electromagnetic sliding table 7 and a wire guide wheel 7 a; the tension rod 6 is arranged on the shell 1 and is positioned on one side of the rotary table 5 a; the electromagnetic sliding table 7 is arranged above the tension rod 6 and forms an acute angle with the shell 1 of the tension rod 6, and the wire guide wheel 7a is movably arranged on the electromagnetic sliding table 7.

Based on above-mentioned embodiment, the silk ware of rolling up that this application provided passes through wire wheel 7a seal wire, later compresses tightly the silk through tensioning lever 6 and prevents that the silk thread is lax, moves through wire wheel 7a on the electromagnetism slip table 7 controller at last and prevents the inhomogeneous above-mentioned problem of having solved of kinking.

The above examples, which are intended to represent only one or more embodiments of the present invention, are described in greater detail and with greater particularity, and are not to be construed as limiting the scope of the utility model. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (8)

1. A fiber winder for glass fiber yarns comprises a shell (1), a rotating shaft (2), a roller (3) and a driving device (4), wherein the inside of the shell (1) is of a hollow structure; the plurality of rotating shafts (2) are uniformly arranged on the shell (1); the number of the rollers (3) is the same as that of the rotating shafts (2) and the rollers correspond to one another, and the rollers (3) are sleeved on the rotating shafts (2); the driving device (4) is arranged in the shell (1) and can be connected with the rotating shaft (2); the gear rack is characterized in that the shell (1) is further provided with a transposition device (5), the transposition device (5) comprises a rotary table (5a), a rack (5b) and a first linear driver (5c), the rotary table (5a) is arranged on the shell (1), a uniform first tooth surface (5a1) is arranged on the outer surface of the back of the rotary table (5a), a uniform first tooth surface (5a1) is arranged on the outer surface of the back of the rotary table (5a), and the first tooth surface (5a1) is located inside the shell (1); a rack (5b) is arranged inside the housing (1) and located on one side of the first tooth face (5a1), the rack (5b) being capable of meshing with the first tooth face (5a 1); the first linear driver (5c) is arranged on the shell (1) in a penetrating way and is connected with the rack (5 b).

2. A winder for glass fibres, as claimed in claim 1, characterized in that the rotating shaft (2) is provided with a detachable cap (2a), the cap (2a) being circular and having a radius greater than or equal to the radius of the drum (3), the cap (2a) being internally provided with a first thread (2a1), the rotating shaft (2) being provided with a second thread (2b) corresponding to the first thread (2a 1).

3. A winder for glass fibres according to claim 2, characterised in that the cap (2a) is provided with a plurality of first recesses (2a2) distributed around the uniform cap (2a), the edges of the first recesses (2a2) being smoothly curved.

4. A winder for glass fibres, as claimed in claim 1, characterised in that each rotary shaft (2) is cross-shaped, and in that the end of each rotary shaft (2) located on the turret (5a) is provided with a corresponding and fixedly connected catch (2 c).

5. A winder for glass fibre filaments according to claim 4, characterised in that the drive means (4) comprise a rotary block (4a), a rotary connecting block (4b), a first motor (4c) and a connecting band (4 d); the rotating block (4a) is arranged inside the shell (1) and located on one side of the rotating table (5a), the rotating block (4a) is movably connected with the shell (1), the movable connecting block is arranged on the buckle (2c) and can abut against the rotating block (4a), the first motor (4c) is arranged on one side of the rotating block (4a) and the output shaft of the first motor is perpendicular to the rotating table (5a), and the connecting belt (4d) is connected with the output shaft of the first motor (4c) and the rotating block (4a) respectively.

6. A crimper for glass fibre filaments, according to claim 5, characterized in that said rotating block (4a) is formed by a plurality of first rods (4a1) coaxially and uniformly distributed, said rotating block (4b) is formed by a plurality of second rods (4b1) coaxially and uniformly distributed, said first rods (4a1) and said second rods (4b1) are provided at their top ends with first protrusions (4a2), said first protrusions (4a2) are provided at their lower ends with second recesses (4a3), said first protrusions (4a2) on said first rods (4a1) correspond to said second recesses (4a3) on said second rods (4b1), said first protrusions (4a2) on said second rods (4b1) correspond to said second recesses (4a3) on said first rods (4a1), said first rods (4a 636) and said second rods (3527) are provided at their lower ends with said second protrusions (4a 1).

7. A winder for glass fibres filaments according to claim 5, characterised in that a first bearing (5a2) is provided between the housing (1) and the turntable (5a) and a second bearing (5a3) is provided between the catch (2c) and the turntable (5 a).

8. The winder for glass fiber filaments according to claim 1, wherein one end of the housing (1) located at the turntable (5a) is provided with a tension rod (6), an electromagnetic sliding table (7) and a wire guide wheel (7 a); the tensioning rod (6) is arranged on the shell (1) and is positioned on one side of the rotary table (5 a); the electromagnetic sliding table (7) is arranged above the tension rod (6) and forms an acute angle with the shell (1) of the tension rod (6), and the wire guide wheel (7a) is movably arranged on the electromagnetic sliding table (7).

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