CN111731935A

CN111731935A - Winding mechanism for accommodating cables with different wire diameters

Info

Publication number: CN111731935A
Application number: CN202010658347.0A
Authority: CN
Inventors: 黄健
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-07-09
Filing date: 2020-07-09
Publication date: 2020-10-02

Abstract

The invention discloses a winding mechanism for accommodating cables with different wire diameters, which comprises an installation bottom plate, a rotating motor, winding support plates, a linear lead screw module, a cycloid block, a wire pressing block, a first compression spring, a wire feeding support plate, a guide post, an adjusting block, an adjusting shaft installation block, a second compression spring, an adjusting handle, a locking wedge block and a third compression spring, wherein the rotating motor is fixed on one side of the top of the installation bottom plate, two winding support plates are oppositely arranged on one side of the end part of an output shaft of the rotating motor, the winding support plates are fixedly connected to the top of the installation bottom plate, the cables can be automatically uniformly and tightly wound on the cylindrical surface of a winding drum along the shaft diameter by arranging the cycloid block and the wire pressing block which is in a floating design and is arranged at an equal angle, and the cables with different wire diameters can be wound by finely adjusting the floating arrangement of the adjusting shaft installation block, simple and compact structure and greatly reduced cost.

Description

Winding mechanism for accommodating cables with different wire diameters

Technical Field

The invention relates to a winding mechanism, in particular to a winding mechanism for accommodating cables with different wire diameters.

Background

Electric power cable and communication cable are applied to each field, lay the cable when accomodating at cable production packing, zero hour, all need use the wire winding roller, and the main wire winding part of wire winding roller is the line wheel, is the winding on it with the cable through the rotation of line wheel to reduce the shared space of above-mentioned cable, prevent that the local excessive bending deformation of cable, in order to do benefit to the life-span of cable, deposit and carry.

In the prior art, the cable winding operation is mainly completed in two ways, namely, the cable winding operation is completed through large-scale mechanical equipment, although the efficiency is high, the cable winding operation is complex in structure, large in size and high in cost, and is not easy to apply in a complex operation environment; secondly, manual winding is performed, efficiency is low, the wound cable is loose and irregular in winding, the cable is mutually extruded in the winding process, the cable is crushed, tensile strength and service life of the cable in the using process are affected, the cable with one wire diameter can be wound, and some dies need to be replaced when the cable with different wire diameters is wound, so that cost is high and adaptability is poor. To this end, we propose a winding mechanism for accommodating cables of different wire diameters.

Disclosure of Invention

The invention aims to provide a winding mechanism for accommodating cables with different wire diameters.

The technical problem solved by the invention is as follows:

(1) the problem that in the prior art, cables are difficult to automatically and uniformly and tightly wind on the cylindrical surface of a winding drum along the axial diameter is solved by arranging a cycloid block and a pressing line block which is in a floating design and is arranged at an equal angle;

(2) how to carry out the division of different thickness gradients through sending line mechanism, and set up through floating to the adjusting spindle installation piece finely tune, solve the one set of device that is difficult to realize under the prior art and send the problem of line coiling to the cable of different line footpaths.

The purpose of the invention can be realized by the following technical scheme: a winding mechanism for accommodating cables with different wire diameters comprises an installation bottom plate, a rotary motor, winding support plates, a driving gear, a driven gear, a winding drum, a winding shaft, a linear lead screw module, a cycloid block, a line pressing block, a first compression spring, a line feeding support plate, a line feeding rotary shaft, a line feeding roller, a line feeding adjusting shaft, a guide post, an adjusting block, an adjusting shaft installation block, a second compression spring, an adjusting handle, a locking wedge block and a third compression spring, wherein the rotary motor is fixed on one side of the top of the installation bottom plate, two winding support plates are oppositely arranged on one side of the end part of an output shaft of the rotary motor, and the winding support plates are fixedly connected to the top of the installation bottom plate;

a linear lead screw module is fixed in the middle of the top of the mounting base plate, two nuts are sleeved on a lead screw in the linear lead screw module, cycloid blocks are fixed at the top ends of the nuts, cable abdicating through holes are formed in one side of each cycloid block, a plurality of first spring mounting grooves are formed around the cable abdicating through holes, first compression springs are symmetrically arranged in the first spring mounting grooves, one ends of the first compression springs are fixedly connected with the bottoms of the first spring mounting grooves, wire pressing blocks are fixedly connected to the other ends of the first compression springs, and the wire pressing blocks are in sliding fit with the first spring mounting grooves;

the wire feeding device comprises a mounting bottom plate, a wire feeding rotating shaft, a wire feeding adjusting shaft, a wire feeding roller and a wire feeding adjusting shaft, wherein the top of the mounting bottom plate is oppositely provided with the wire feeding supporting plates;

the wire feeding device comprises a wire feeding support plate, a wire guide block, a guide post, a guide shaft mounting block, a second compression spring, a guide post mounting block, a bearing and a guide post mounting block, wherein a rectangular square hole is formed in the side surface of the wire feeding support plate, a regulating block is arranged in the rectangular square hole, guide post abdicating holes are formed in the top end of the regulating block at symmetrical positions, the guide post abdicating holes penetrate through the bottom of the regulating block, a guide post is arranged in each guide post abdicating hole, two ends of each guide post are respectively fixedly connected with the top and bottom hole walls of the rectangular square hole, the regulating block is internally provided with a regulating shaft mounting block;

the utility model discloses a wire feeding device, including regulating block, handle mounting groove, lifting adjusting groove, third spring mounting groove, third compression spring's the other end and locking voussoir fixed connection of third compression spring, third spring mounting groove, third compression spring's other end and locking voussoir fixed connection, the handle mounting groove has been seted up to one side of regulating block, be provided with adjustment handle in the handle mounting groove, adjustment handle and handle mounting groove sliding fit have been seted up at adjustment handle's top, the lifting adjusting groove has been seted up to one side of sending the line backup pad, and a plurality of handle spacing groove has been seted up to one side of lifting adjusting groove, and the third spring mounting groove has.

The invention has further technical improvements that: two be provided with the spool between the wire winding backup pad, the both ends of spool all are rotated with the wire winding backup pad through the bearing and are connected, the cover is equipped with the bobbin outside the spool, and the bobbin passes through bayonet lock and spool fixed connection, the one end fixedly connected with driven gear of spool, the output shaft end fixedly connected with driving gear of rotating electrical machines, driving gear and driven gear meshing are linked.

The invention has further technical improvements that: the cable lets a plurality of first spring mounting groove around the through-hole be the setting of equidistance, and quantity is 4.

The invention has further technical improvements that: circular through holes are formed in the top symmetrical positions of the adjusting shaft mounting blocks, the aperture of each circular through hole is larger than the diameter of the guide column, the circular through holes are sleeved on the outer sides of the guide columns, and the adjusting shaft mounting blocks are in sliding fit with the guide columns.

The invention has further technical improvements that: the handle spacing groove of lift adjustment tank one side is the equidistance setting, the number of handle spacing groove is 4.

The invention has further technical improvements that: the handle mounting groove is T-shaped, and the bottom surface of the locking wedge block, which is far away from the third compression spring, is an arc-shaped surface and is matched with a locking arc groove formed in the adjusting handle.

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

1. when the cable releasing device is used, firstly, one end of a cable passes through the cable releasing roller, penetrates out of the cable releasing through hole in the cycloid block and is fixed on the surface of one end of the winding drum, and the four wire pressing blocks arranged in the cycloid block wrap the cable and apply pressure to the cable, so that the cable can be tensioned, and the cable wound on the winding drum is prevented from being loosened; after the motor in the linear lead screw module is driven to rotate forwards and reversely, the cycloid block fixed on the nut reciprocates along the lead screw, and the cable is uniformly wound on the surface of the winding drum.

2. Move the regulating block to suitable position along the guide post through adjustment handle, make send the line regulating spindle and install and send the line gyro wheel to exert pressure to the cable with sending on the line rotation axis, then slide adjustment handle along the handle mounting groove on the regulating block, adjustment handle gets into the handle spacing groove and extrudees the bottom cambered surface of locking voussoir, locking voussoir slides and extrudees third compression spring in third spring mounting groove, it is compressed to make it take place elastic deformation, the bottom cambered surface of locking voussoir forms fixedly with the laminating of the locking arc groove on the regulating handle to adjustment handle, be applicable to the cable of different line footpaths and coil, moreover, the steam generator is simple and compact in structure, and the cost is greatly reduced.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

FIG. 1 is a schematic overall perspective view of the present invention;

FIG. 2 is an enlarged view of the detail of area A in FIG. 1 according to the present invention;

FIG. 3 is a schematic cross-sectional view of a cycloidal mechanism of the present invention;

FIG. 4 is a schematic front view of a wire feed adjustment mechanism according to the present invention;

FIG. 5 is a schematic cross-sectional view of an adjustment block of the present invention;

FIG. 6 is a left side view of the wire feed adjustment mechanism of the present invention;

FIG. 7 is an enlarged view of the detail of the area B in FIG. 6 according to the present invention.

In the figure: 1. mounting a bottom plate; 2. a rotating electric machine; 3. a winding support plate; 4. a driving gear; 5. a driven gear; 6. a bobbin; 7. a spool; 8. a linear screw rod module; 9. a cycloid block; 10. a line pressing block; 11. a first compression spring; 12. a wire feeding supporting plate; 13. a wire feeding rotating shaft; 14. a wire feeding roller; 15. a wire feeding adjusting shaft; 16. a guide post; 17. an adjusting block; 18. an adjusting shaft mounting block; 19. a second compression spring; 20. an adjusting handle; 21. locking a wedge block; 22. a third compression spring; 201. the cable abdicating through hole; 202. a first spring mounting groove; 203. a rectangular square hole; 204. a guide post abdicating hole; 205. a handle mounting groove; 206. locking the arc groove; 207. a lifting adjusting groove; 208. a handle limiting groove; 209. and a third spring mounting groove.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood 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. 1-7, a winding mechanism for accommodating cables with different wire diameters comprises an installation bottom plate 1, a rotating electrical machine 2, a winding support plate 3, a driving gear 4, a driven gear 5, a winding drum 6, a winding shaft 7, a linear lead screw module 8, a cycloid block 9, a line pressing block 10, a first compression spring 11, a line feeding support plate 12, a line feeding rotating shaft 13, a line feeding roller 14, a line feeding adjusting shaft 15, a guide post 16, an adjusting block 17, an adjusting shaft installation block 18, a second compression spring 19, an adjusting handle 20, a locking wedge block 21 and a third compression spring 22, wherein the rotating electrical machine 2 is fixed on one side of the top of the installation bottom plate 1, two winding support plates 3 are oppositely arranged on one side of the end portion of an output shaft of the rotating electrical machine 2, and the winding support plates 3 are both fixedly connected to the top of the installation bottom plate;

a linear lead screw module 8 is fixed in the middle of the top of the mounting base plate 1, two nuts are sleeved on a lead screw in the linear lead screw module 8, cycloid blocks 9 are fixed at the top ends of the nuts, a cable abdicating through hole 201 is formed in one side of each cycloid block 9, a plurality of first spring mounting grooves 202 are formed around the cable abdicating through hole 201, first compression springs 11 are symmetrically arranged in the first spring mounting grooves 202, one end of each first compression spring 11 is fixedly connected with the bottom of each first spring mounting groove 202, the other end of each first compression spring 11 is fixedly connected with a line pressing block 10, and the line pressing block 10 is in sliding fit with the first spring mounting grooves 202;

the top of the mounting bottom plate 1 is oppositely provided with wire feeding support plates 12, a wire feeding rotating shaft 13 and a wire feeding adjusting shaft 15 are arranged between the two wire feeding support plates 12, wire feeding rollers 14 are sleeved at symmetrical positions outside the wire feeding rotating shaft 13, the wire feeding rollers 14 are rotatably connected with the wire feeding rotating shaft 13 through bearings, and the wire feeding rotating shaft 13 is fixedly connected with the wire feeding support plates 12;

a rectangular square hole 203 is formed in the side face of the wire feeding support plate 12, an adjusting block 17 is arranged in the rectangular square hole 203, guide post receding holes 204 are formed in symmetrical positions of the top end of the adjusting block 17, the guide post receding holes 204 penetrate through the bottom of the adjusting block 17, guide posts 16 are arranged in the guide post receding holes 204, two ends of each guide post 16 are fixedly connected with the top and bottom hole walls of the rectangular square hole 203 respectively, an adjusting shaft mounting block 18 is arranged in the adjusting block 17, the adjusting shaft mounting block 18 is in sliding fit with the inner side wall of the adjusting block 17, second compression springs 19 are arranged in symmetrical positions between the adjusting shaft mounting block 18 and the top wall of the adjusting block 17, the second compression springs 19 are sleeved on the outer side of the guide posts 16, and the wire feeding adjusting shaft 15 is rotatably connected with the adjusting shaft mounting block 18 through bearings;

a handle mounting groove 205 is formed in one side of the adjusting block 17, an adjusting handle 20 is arranged in the handle mounting groove 205, the adjusting handle 20 is in sliding fit with the handle mounting groove 205, a locking arc groove 206 is formed in the top of the adjusting handle 20, a lifting adjusting groove 207 is formed in one side of the wire feeding support plate 12, a plurality of handle limiting grooves 208 are formed in one side of the lifting adjusting groove 207, third spring mounting grooves 209 are formed in the tops of the handle limiting grooves 208, locking wedges 21 are arranged in the third spring mounting grooves 209, third compression springs 22 are symmetrically arranged between the locking wedges 21 and the third spring mounting grooves 209, one ends of the third compression springs 22 are fixedly connected with the tops of the third spring mounting grooves 209, and the other ends of the third compression springs 22 are fixedly connected with the locking wedges 21;

a winding shaft 7 is arranged between the two winding support plates 3, two ends of the winding shaft 7 are rotatably connected with the winding support plates 3 through bearings, a winding drum 6 is sleeved outside the winding shaft 7, the winding drum 6 is fixedly connected with the winding shaft 7 through a bayonet lock, one end of the winding shaft 7 is fixedly connected with a driven gear 5, the end part of an output shaft of the rotating motor 2 is fixedly connected with a driving gear 4, and the driving gear 4 is meshed and connected with the driven gear 5;

the first spring installation grooves 202 around the cable abdicating through hole 201 are arranged at equal angles, and the number of the first spring installation grooves is 4;

a circular through hole is formed in the top of the adjusting shaft mounting block 18 in a symmetrical position, the aperture of the circular through hole is larger than the shaft diameter of the guide column 16, the circular through hole is sleeved on the outer side of the guide column 16, and the adjusting shaft mounting block 18 is in sliding fit with the guide column 16;

the handle limiting grooves 208 on one side of the lifting adjusting groove 207 are arranged at equal intervals, and the number of the handle limiting grooves 208 is 4;

the handle mounting groove 205 is arranged in a T shape, and the bottom surface of the locking wedge 21 away from the third compression spring 22 is an arc-shaped surface and is matched with a locking arc groove 206 formed in the adjusting handle 20.

The working principle is as follows: when the invention is used, firstly, one end of a cable passes through the cable-feeding roller 14, penetrates out of the cable-abdicating through hole 201 in the cycloid block 9 and is fixed on one end surface of the bobbin 6, the four cable-pressing blocks 10 arranged in the cycloid block 9 wrap and apply pressure to the cable, the adjusting block 17 is moved up and down to a proper position along the guide post 16 through the adjusting handle 20, so that the cable-feeding adjusting shaft 15 and the cable-feeding roller 14 arranged on the cable-feeding rotating shaft 13 apply pressure to the cable, then the adjusting handle 20 slides along the handle mounting groove 205 on the adjusting block 17, the adjusting handle 20 enters the handle limiting groove 208 and extrudes the bottom arc surface of the locking wedge 21, the locking wedge 21 slides in the third spring mounting groove 209 and extrudes the third compression spring 22, so that the elastic deformation is compressed, the bottom arc surface of the locking wedge 21 is jointed with the locking arc groove 206 on the adjusting handle 20 to fix the adjusting handle 20, the rotating motor 2 is started to drive the winding shaft 7 to rotate, the winding drum 6 rotates along with the rotation to wind the cables, and meanwhile, the motor in the linear lead screw module 8 is driven to rotate positively and reversely, so that the cycloid block 9 fixed on the nut reciprocates along the lead screw, and the cables are uniformly wound on the surface of the winding drum 6.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise forms disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims

1. The utility model provides a wire winding mechanism that is used for different wire footpath cables to accomodate which characterized in that: comprises a mounting base plate (1), a rotating motor (2), a winding support plate (3), a driving gear (4), a driven gear (5), a winding reel (6), a winding shaft (7), a linear lead screw module (8), a cycloid block (9), a line pressing block (10), a first compression spring (11), a line feeding support plate (12), a line feeding rotating shaft (13), a line feeding roller (14), a line feeding adjusting shaft (15), a guide post (16), an adjusting block (17), an adjusting shaft mounting block (18), a second compression spring (19), an adjusting handle (20), a locking wedge block (21) and a third compression spring (22), a rotating motor (2) is fixed on one side of the top of the mounting bottom plate (1), two winding support plates (3) are oppositely arranged on one side of the end part of an output shaft of the rotating motor (2), and the winding support plates (3) are fixedly connected to the top of the mounting base plate (1);

a linear lead screw module (8) is fixed in the middle of the top of the mounting base plate (1), two nuts are sleeved on a lead screw in the linear lead screw module (8), cycloid blocks (9) are fixed at the top ends of the nuts, cable abdicating through holes (201) are formed in one side of each cycloid block (9), a plurality of first spring mounting grooves (202) are formed around the cable abdicating through holes (201), first compression springs (11) are symmetrically arranged in the first spring mounting grooves (202), one ends of the first compression springs (11) are fixedly connected with the bottoms of the first spring mounting grooves (202), wire pressing blocks (10) are fixedly connected to the other ends of the first compression springs (11), and the wire pressing blocks (10) are in sliding fit with the first spring mounting grooves (202);

the wire feeding device is characterized in that wire feeding support plates (12) are oppositely arranged at the top of the mounting bottom plate (1), a wire feeding rotating shaft (13) and a wire feeding adjusting shaft (15) are arranged between the two wire feeding support plates (12), wire feeding rollers (14) are sleeved at symmetrical positions on the outer side of the wire feeding rotating shaft (13), the wire feeding rollers (14) are rotatably connected with the wire feeding rotating shaft (13) through bearings, and the wire feeding rotating shaft (13) is fixedly connected with the wire feeding support plates (12);

a rectangular square hole (203) is arranged on the side surface of the wire feeding supporting plate (12), an adjusting block (17) is arranged in the rectangular square hole (203), guide post abdicating holes (204) are arranged at the symmetrical positions of the top end of the adjusting block (17), the guide post abdicating holes (204) penetrate through the bottom of the adjusting block (17), a guide post (16) is arranged in the guide post abdicating hole (204), two ends of the guide post (16) are respectively and fixedly connected with the top and bottom hole walls of the rectangular square hole (203), an adjusting shaft mounting block (18) is arranged in the adjusting block (17), the adjusting shaft mounting block (18) is in sliding fit with the inner side wall of the adjusting block (17), a second compression spring (19) is arranged at the symmetrical position between the adjusting shaft mounting block (18) and the top wall of the adjusting block (17), the second compression spring (19) is sleeved on the outer side of the guide post (16), and the wire feeding adjusting shaft (15) is rotatably connected with the adjusting shaft mounting block (18) through a bearing;

a handle mounting groove (205) is formed in one side of the adjusting block (17), an adjusting handle (20) is arranged in the handle mounting groove (205), the adjusting handle (20) is in sliding fit with the handle mounting groove (205), a locking arc groove (206) is formed in the top of the adjusting handle (20), a lifting adjusting groove (207) is formed in one side of the wire feeding support plate (12), a plurality of handle limiting grooves (208) are formed in one side of the lifting adjusting groove (207), third spring mounting grooves (209) are formed in the tops of the handle limiting grooves (208), a locking wedge block (21) is arranged in each third spring mounting groove (209), third compression springs (22) are symmetrically arranged between each locking wedge block (21) and each third spring mounting groove (209), and one ends of the third compression springs (22) are fixedly connected with the tops of the third spring mounting grooves (209), the other end of the third compression spring (22) is fixedly connected with the locking wedge block (21).

2. The winding mechanism for storing cables with different wire diameters, as claimed in claim 1, is characterized in that a winding shaft (7) is arranged between the two winding support plates (3), two ends of the winding shaft (7) are rotatably connected with the winding support plates (3) through bearings, a winding drum (6) is sleeved outside the winding shaft (7), the winding drum (6) is fixedly connected with the winding shaft (7) through a bayonet, one end of the winding shaft (7) is fixedly connected with a driven gear (5), an output shaft end of the rotating electrical machine (2) is fixedly connected with a driving gear (4), and the driving gear (4) is meshed and linked with the driven gear (5).

3. The winding mechanism for accommodating cables with different wire diameters as claimed in claim 1, wherein the plurality of first spring installation grooves (202) around the cable abdicating through hole (201) are arranged at equal angles, and the number of the first spring installation grooves is 4.

4. The winding mechanism for accommodating cables with different wire diameters as claimed in claim 1, wherein a circular through hole is formed at a symmetrical position of the top of the adjusting shaft mounting block (18), the aperture of the circular through hole is larger than the shaft diameter of the guide post (16), the circular through hole is sleeved on the outer side of the guide post (16), and the adjusting shaft mounting block (18) is in sliding fit with the guide post (16).

5. The winding mechanism for accommodating cables with different wire diameters as claimed in claim 1, wherein the handle limiting grooves (208) on one side of the lifting adjusting groove (207) are equidistantly arranged, and the number of the handle limiting grooves (208) is 4.

6. The winding mechanism for accommodating cables with different wire diameters as claimed in claim 1, wherein the handle mounting groove (205) is T-shaped, and the bottom surface of the locking wedge block (21) away from the third compression spring (22) is an arc-shaped surface and is matched with a locking arc groove (206) formed on the adjusting handle (20).