CN107555246B

CN107555246B - Coiling mechanism is used in chemical fiber production

Info

Publication number: CN107555246B
Application number: CN201710595813.3A
Authority: CN
Inventors: 徐永香
Original assignee: Yancheng Yu Soil And Water Engineering Materials Co Ltd
Current assignee: Yancheng Yu soil and water engineering materials Co., Ltd
Priority date: 2017-07-20
Filing date: 2017-07-20
Publication date: 2019-12-17
Anticipated expiration: 2037-07-20
Also published as: CN107555246A

Abstract

The invention discloses a winding device for chemical fiber production, which comprises a compression roller, a winding rack, a winding roller, chemical fibers and a winding roller sleeve, wherein the bottom of the winding rack is fixed on a base plate, the front side of the winding rack is rotatably provided with a rotating shaft, a winding core roller is welded on the rotating shaft, the winding roller sleeve is welded outside the winding core roller, the winding core roller is provided with a buffer slot, a compression spring is arranged in the buffer slot, and the bottom end of the compression spring is fixed on the winding core roller in the buffer slot; the assembly is convenient, and the device is suitable for the assembly of winding rollers with different diameters; the circumferential slipping phenomenon between the elastic friction supporting block and the winding roller is avoided when the rotating shaft rotates; the compression roller offsets with the winding drum bottom side all the time, is convenient for compress tightly the chemical fiber who convolutes in the winding drum, and the extension spring guarantees compressing tightly the effect of compression roller, is favorable to realizing the restoration of compression roller position, can evenly convolute chemical fiber on the winding drum.

Description

Coiling mechanism is used in chemical fiber production

Technical Field

The invention relates to the technical field of chemical fiber production equipment, in particular to a winding device for chemical fiber production.

Background

Chemical fiber is a generic name for chemical fiber, which is a fiber made from natural or synthetic polymer as raw material by chemical or physical processing. In order to promote the circular economy of environmental protection and development, after chemical fibers are processed by production equipment, winding and collecting are needed, and because the chemical fibers on the existing chemical fiber production line are easy to break, the chemical fibers are too loose during winding, so that the wound chemical fibers are not compact, and the wound chemical fibers are loose; the diameters of the chemical fiber winding drums are different, so that the chemical fiber winding drums with different diameters cannot be assembled and fixed during assembly, and the phenomenon that the chemical fiber winding drums do not slip on a rotating shaft cannot be avoided; and the chemical fiber needs to be uniformly wound on the winding drum, and the winding uniformity is difficult to ensure because a necessary reciprocating thread hooking mechanism is not needed to adjust the chemical fiber.

Disclosure of Invention

The invention aims to provide a winding device for chemical fiber production, which solves the problems in the prior art.

In order to achieve the purpose, the invention provides the following technical scheme:

A winding device for chemical fiber production comprises a compression roller, a winding rack, a winding roller, chemical fibers and a winding roller sleeve, wherein the bottom of the winding rack is fixed on a base plate, a rotating shaft is rotatably installed on the front side of the winding rack, a winding core roller is welded on the rotating shaft, the winding roller sleeve is welded outside the winding core roller, a buffer groove is formed in the winding core roller, a compression spring is installed in the buffer groove, the bottom end of the compression spring is fixed on the winding core roller in the buffer groove, the top end of the compression spring is fixedly connected with a baffle, the baffle is slidably installed in the buffer groove, a support rod is welded at the outer end of the baffle, the support rod penetrates through a through hole in the winding roller sleeve to be connected with an elastic friction support block, and a; the two sides of the bottom of the winding roller are respectively provided with a compression roller, the compression rollers are rotatably arranged on the movable arm through a roller shaft, the bottom end of the movable arm is arranged on the base through a shaft pin, the inner side of the movable arm is connected with the middle part of the upper end of the base through a tension spring, and a tension groove is arranged between the compression rollers; chemical fiber passes the inside through-hole of dust removing section of thick bamboo and winds on coiling cylinder around winding roller, winding roller installs at reciprocal hook wire cover front side, and reciprocal hook wire cover bottom side welding has T type slider on the sliding seat, prop up supporting bench top and install electric putter.

As a further scheme of the invention: the rear end of the rotating shaft penetrates through an upper shaft hole of the winding rack to be connected with a rotating shaft of a driving motor, and the driving motor is installed on the rear side of the winding rack.

As a further scheme of the invention: the winding roller sleeve below the elastic friction supporting block is welded with a limiting seat, and the outer side surface of the limiting seat is parallel to the bottom surface of the elastic friction supporting block.

As a further scheme of the invention: the number of the elastic friction supporting blocks on the same circumference of the outer side of the rotating shaft is 3-6 and the elastic friction supporting blocks are uniformly distributed.

As a further scheme of the invention: the outer side surface of the elastic friction supporting block is provided with anti-slip lines meshed with the inner wall of the winding roller, and the anti-slip lines are raised lines arranged along the radial direction of the rotating shaft.

As a further scheme of the invention: the base bottom welding is on the top of lift post, the lift cylinder is connected to the lift post bottom, and the lifting cylinder is fixed on the base plate of coiling frame front side.

As a further scheme of the invention: the dust removing cylinder is welded at the top of the fixed seat, and the fixed seat is fixed on the winding rack.

As a further scheme of the invention: the T-shaped sliding block is embedded in a sliding groove in the top end of the supporting table, and the damping plate is installed at the bottom end of the supporting table.

As a further scheme of the invention: the cylinder barrel of the electric push rod is welded at the top end of the supporting table, the end part of the push rod of the electric push rod is connected with the sliding seat, and the push rod of the electric push rod is parallel to the sliding groove direction at the top end of the supporting table.

Compared with the prior art, the invention has the beneficial effects that:

1. The winding device for chemical fiber production is stable in structure and convenient to assemble, the winding roller sleeve is arranged on the outer side of the winding roller sleeve by pressing the elastic friction supporting block, and the elastic friction supporting block is jacked up and abutted against the inner wall of the winding roller under the action of the elastic force of the compression spring, so that the winding device is suitable for assembling winding rollers with different diameters; the anti-slip lines on the outer side surface of the elastic friction supporting block avoid the occurrence of circumferential slipping between the elastic friction supporting block and the winding roller when the rotating shaft rotates.

2. During the coiling, the compression roller offsets with the coiling cylinder bottom side all the time, is convenient for compress tightly the chemical fiber who convolutes in the coiling cylinder, and along with the increase of the chemical fiber thickness of the outside coiling of coiling cylinder, the compression roller drives the digging arm and rotates around the roller axial tensioning groove outside, and the extension spring guarantees the effect that compresses tightly of compression roller, is favorable to realizing resetting of compression roller position.

3. When electric putter's the reciprocal concertina movement of push rod, the T type slider that drives sliding seat and sliding seat bottom slides in a supporting bench top spout to drive reciprocal hook line cover and the winding roller slides, thereby make the chemical fibre on the winding roller along the reciprocal slip of winding drum axial, evenly convolute the winding drum with chemical fibre on.

drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural view of the elastic friction stay of the present invention.

FIG. 3 is a schematic view showing the structure of the press roll of the present invention.

In the figure: 1-press roll, 2-movable arm, 3-axle pin, 4-base, 5-winder stand, 6-lifting column, 7-lifting oil cylinder, 8-base plate, 9-damping plate, 10-supporting table, 11-winding drum, 12-T type slide block, 13-electric push rod, 14-sliding seat, 15-reciprocating wire hooking cover and 16-winding roll, 17-chemical fiber, 18-elastic friction support block, 19-winding roller sleeve, 20-rotating shaft, 21-dust brushing cylinder, 22-fixed seat, 23-winding core roller, 24-limit seat, 25-supporting rod, 26-buffer groove, 27-compression spring, 28-baffle, 29-tension spring, 30-tension groove and 31-roller shaft.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 3, in the embodiment of the present invention, a winding device for chemical fiber production includes a pressure roller 1, a winding frame 5, a winding roller 16, a chemical fiber 17, and a winding roller sleeve 19, wherein the bottom of the winding frame 5 is fixed on a base plate 8, a rotating shaft 20 is rotatably installed on the front side of the winding frame 5, the rear end of the rotating shaft 20 passes through an axle hole of the winding frame 5 and is connected to a rotating shaft of a driving motor, the driving motor is installed on the rear side of the winding frame 5, and the rotating shaft of the driving motor drives the rotating shaft 20 to rotate after being powered on; a winding core roller 23 is welded on the rotating shaft 20, a winding roller sleeve 19 is welded outside the winding core roller 23, a buffer groove 26 is formed in the winding core roller 23, a compression spring 27 is installed in the buffer groove 26, the bottom end of the compression spring 27 is fixed on the winding core roller 23 in the buffer groove 26, the top end of the compression spring 27 is fixedly connected with a baffle 28, the baffle 28 is slidably installed in the buffer groove 26, a support rod 25 is welded at the outer end of the baffle 28, the support rod 25 penetrates through a through hole in the winding roller sleeve 19 to be connected with an elastic friction supporting block 18, a limiting seat 24 for placing the elastic friction supporting block 18 is welded on the winding roller sleeve 19 below the elastic friction supporting block 18, and the outer side surface of the limiting seat 24 is parallel to the bottom surface of the; the number of the elastic friction supporting blocks 18 in the same circumferential direction outside the rotating shaft 20 is 3-6 and the elastic friction supporting blocks are uniformly distributed; the outer side of the elastic friction supporting block 18 is sleeved with a winding roller 11.

During assembly, a section of opening of the winding roller 11 is sleeved on the outer side of the winding roller sleeve 19, then the elastic friction supporting block 18 is pressed, the elastic friction supporting block 18 pushes the supporting rod 25 and the baffle 28 to slide inwards along the buffer groove 26 to extrude the compression spring 27 until the length of the outer side face of the elastic friction supporting block 18 away from the rotating shaft 20 is smaller than or equal to the radius of the winding roller 11, the elastic friction supporting block 18 is plugged into the winding roller 11, the winding roller 11 is sleeved on the outer side of the winding roller sleeve 19, and under the elastic action of the compression spring 27, the elastic friction supporting block 18 is jacked up and abuts against the inner wall of the winding roller 11, so that the winding roller 11 is suitable for assembly of.

The lateral surface of the elastic friction supporting block 18 is provided with anti-slip lines meshed with the inner wall of the winding drum 11, the anti-slip lines are raised lines arranged along the radial direction of the rotating shaft 20, the elastic friction supporting block 18 and the winding drum 11 are conveniently drawn out or pushed in relative to the radial direction of the rotating shaft 20, the elastic friction supporting block 18 and the winding drum 11 are prevented from sliding relative to the circumferential direction of the rotating shaft 20, and therefore when the rotating shaft 20 rotates, the circumferential slipping phenomenon between the elastic friction supporting block 18 and the winding drum 11 occurs.

The two sides of the bottom of the winding roller 11 are respectively provided with a compression roller 1, the compression rollers 1 are rotatably arranged on a movable arm 2 through a roller shaft 31, the bottom end of the movable arm 2 is arranged on a base 4 through a shaft pin 3, the inner side of the movable arm 2 is connected with the middle part of the upper end of the base 4 through a tension spring 29, and a tension groove 30 is arranged between the compression rollers 1; the bottom end of the base 4 is welded at the top end of a lifting column 6, the bottom of the lifting column 6 is connected with a lifting oil cylinder 7, and the lifting oil cylinder 7 is fixed on a base plate 8 on the front side of the winding frame 5; during the use, lift cylinder 7 drive lift post 6 goes up and down, thereby make 4 altitude mixture control of base, press roller 1 up to base 4 contradicts winding drum 11 bottom side, winding drum 11 is in tensioning groove 30 between the press roller 1, during the coiling, press roller 1 offsets with winding drum 11 bottom side all the time, be convenient for compress tightly the chemical fiber 17 of convoluteing winding drum 11, along with the increase of the chemical fiber 17 thickness of the outside coiling of winding drum 11, press roller 1 drives digging arm 2 and rotates to the tensioning groove 30 outside around roller 31, extension spring 29 guarantees the effect that compresses tightly of press roller 1, be favorable to realizing the restoration of press roller 1 position.

The chemical fiber 17 penetrates through a through hole in the dust removing cylinder 21 and winds on the winding roller 11 around the winding roller 16, the dust removing cylinder 21 is welded at the top of a fixed seat 22, the fixed seat 22 is fixed on the winding rack 5, the winding roller 16 is installed at the front side of a reciprocating wire hooking cover 15, the bottom side of the reciprocating wire hooking cover 15 is welded on a sliding seat 14, a T-shaped sliding block 12 is welded at the bottom of the sliding seat 14, the T-shaped sliding block 12 is installed in a sliding groove at the top end of the supporting platform 10 in an embedded mode, a damping plate 9 is installed at the bottom end of the supporting platform 10, an electric push rod 13 is installed at the top of the supporting platform 10, a cylinder barrel of the electric push rod 13 is welded at the top end of the supporting platform 10, the end part of a push rod of the electric push rod 13 is connected with the sliding seat 14, the push rod of the electric push rod 13 is parallel to the sliding, thereby driving the reciprocating hook wire cover 15 and the winding roller 16 to slide, so that the chemical fiber 17 on the winding roller 16 slides along the axial direction of the winding roller 11 in a reciprocating way, and the chemical fiber 17 is uniformly wound on the winding roller 11.

The present invention is not limited to the above embodiments, and based on the technical solutions disclosed in the present invention, those skilled in the art can make some simple modifications, equivalent changes and modifications to some technical features without creative efforts based on the disclosed technical contents, and all fall into the technical solution of the present invention. In the description of the present specification, it is to be noted that, unless explicitly stated or limited otherwise, the terms "disposed", "connected" and "connected" are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Claims

1. The winding device for chemical fiber production comprises a compression roller (1), a winding rack (5), a winding roller (16), chemical fibers (17) and a winding roller sleeve (19), and is characterized in that the bottom of the winding rack (5) is fixed on a base plate (8), a rotating shaft (20) is rotatably installed at the front side of the winding rack (5), a winding core roller (23) is welded on the rotating shaft (20), the winding roller sleeve (19) is welded on the outer part of the winding core roller (23), a buffer groove (26) is formed in the winding core roller (23), a compression spring (27) is installed in the buffer groove (26), the bottom end of the compression spring (27) is fixed on the winding core roller (23) in the buffer groove (26), the top end of the compression spring (27) is fixedly connected with a baffle outer end (28), the baffle (28) is slidably installed in the buffer groove (26), a support rod (25) is welded on the baffle (28), the supporting rod (25) penetrates through a through hole in the winding roller sleeve (19) to be connected with an elastic friction supporting block (18), and a winding roller (11) is sleeved on the outer side of the elastic friction supporting block (18); the two sides of the bottom of the winding roller (11) are respectively provided with a compression roller (1), the compression rollers (1) are rotatably arranged on the movable arm (2) through a roller shaft (31), the bottom end of the movable arm (2) is arranged on the base (4) through a shaft pin (3), the inner side of the movable arm (2) is connected with the middle part of the upper end of the base (4) through a tension spring (29), and a tension groove (30) is arranged between the compression rollers (1); chemical fiber (17) pass and brush dust section of thick bamboo (21) inside through-hole and twine on winding drum (11) around winding roller (16), winding roller (16) are installed at reciprocal cover (15) front side of colluding, and reciprocal cover (15) the bottom side welding of colluding is on sliding seat (14), and sliding seat (14) bottom welding has T type slider (12), embedded the installing in brace table (10) top spout of T type slider (12), electric putter (13) are installed at brace table (10) top.

2. The winding device for chemical fiber production according to claim 1, wherein the rear end of the rotating shaft (20) passes through an upper shaft hole of the winding frame (5) to be connected with a rotating shaft of a driving motor, and the driving motor is installed at the rear side of the winding frame (5).

3. The winding device for chemical fiber production according to claim 1, wherein a limiting seat (24) is welded on the winding roller sleeve (19) below the elastic friction supporting block (18), and the outer side surface of the limiting seat (24) is parallel to the bottom surface of the elastic friction supporting block (18).

4. The winding device for chemical fiber production according to claim 3, wherein the number of the elastic friction supporting blocks (18) outside the rotating shaft (20) in the same circumferential direction is 3-6 and is uniformly distributed.

5. The winding device for chemical fiber production according to claim 1, wherein the outer side surface of the elastic friction supporting block (18) is provided with anti-slip lines engaged with the inner wall of the winding drum (11), and the anti-slip lines are convex lines arranged along the radial direction of the rotating shaft (20).

6. The winding device for chemical fiber production according to claim 1, wherein the bottom end of the base (4) is welded on the top end of the lifting column (6), the bottom of the lifting column (6) is connected with the lifting cylinder (7), and the lifting cylinder (7) is fixed on the base plate (8) on the front side of the winding frame (5).

7. The winding device for chemical fiber production according to claim 1, wherein the dust removing cylinder (21) is welded to the top of a fixing seat (22), and the fixing seat (22) is fixed on the winding frame (5).

8. A chemical fiber production reeling device according to claim 1, wherein a shock absorbing plate (9) is mounted to the bottom end of the support table (10).

9. The winding device for chemical fiber production according to claim 1, wherein the cylinder of the electric push rod (13) is welded at the top end of the support platform (10), the end of the push rod of the electric push rod (13) is connected with the sliding seat (14), and the push rod of the electric push rod (13) is parallel to the sliding groove direction at the top end of the support platform (10).