CN220886562U - Intelligent winding machine - Google Patents

Abstract

The utility model provides an intelligent winding machine which comprises a base station and a pair of sliding seats, wherein winding assemblies are arranged on the sliding seats, each winding assembly comprises a driving source I, a center frame and a plurality of winding frames, the winding frames are arranged on the center frame in an annular array, arc plates are arranged at the tops of the winding frames, a circular winding cavity is formed by the arc plates, the winding frames are arranged in an annular mode, the arc plates are arranged at the tops of the winding frames, so that a circular winding cavity is formed, when plastic wires are wound in the circular winding cavity, the plastic wires cannot be bent and deformed, and therefore equipment is suitable for different types of plastic wires, and the applicability of the equipment is improved.

Description

Intelligent winding machine

Technical Field

The utility model relates to winding equipment, in particular to an intelligent winding machine.

Background

At present, chinese patent with bulletin number CN219238844U discloses an intelligent winding machine telescopic clamping mechanism, which comprises a frame, a winding driving piece, wherein the winding driving piece comprises a driving shaft, the winding driving piece can drive a wire reel to rotate through the driving shaft, and the intelligent winding machine telescopic clamping mechanism further comprises a main pneumatic sleeve and four auxiliary pneumatic sleeves, wherein the auxiliary pneumatic sleeves are square in four corner arrangement and are arranged in the main pneumatic sleeve, an air inlet channel is arranged in the middle of the driving shaft, and the four auxiliary pneumatic sleeves are telescopic through air driving to change the size of the wire reel.

The above patent still has the defect that the shape of the wire spool cannot be changed by the equipment, when a certain plastic wire with higher wire shape requirement such as a wavy wire is wound, the plastic wire is bent and wound on the square wire spool, and the wire shape can be subjected to severe bending deformation due to the fact that the corners of the square wire spool are 90 degrees, but if the wound wire shape is a special wire shape such as a wavy wire, the severe bending deformation cannot be required, so that the mechanism cannot meet the special wire shape such as the wavy wire.

Disclosure of utility model

In view of the above, the present utility model aims to provide an intelligent winding machine, which has the function of winding special filaments.

In order to solve the technical problems, the technical scheme of the utility model is as follows: the utility model provides an intelligence rolling machine, includes base station and a pair of seat that slides, all is provided with rolling subassembly on the seat that slides, rolling subassembly includes that actuating source is first, center frame and a plurality of book frame, and the book frame is annular array setting on the center frame, and the book frame top all is provided with the arc, and is a plurality of the arc forms circular rolling chamber.

Through above-mentioned technical means, set up through the annular and roll up the frame to through set up the arc at the frame top of rolling up, thereby form circular rolling chamber, when the plastic silk winding is in circular rolling intracavity, because the produced deformation volume is comparatively even when rolling up, can effectively reduce the plastic silk and take place the possibility that the right angle was bent and is warp, thereby make the suitability of equipment to be suitable for different types of plastic silk, increase the suitability of equipment.

Preferably, the center frame is connected with a center rod at the center, a friction plate, a driving wheel and a spring are arranged on the center rod, the driving wheel is driven by the driving source I to rotate, the friction plate and the spring coaxially rotate with the center rod, the driving wheel is connected with the center rod in a rotating way, and the spring drives the friction plate to abut against the driving wheel through elasticity.

Through the technical means, the friction plate is propped against the friction plate through the spring to be attached to the driving wheel, the driving source drives the driving wheel to rotate, the center frame is driven to rotate through friction force, the plastic wire is in a tightening state at any time through increasing the rotating speed of the driving wheel, when the plastic wire is tightened by the winding frame, the plastic wire generates certain pulling force, so that slipping phenomenon occurs between the friction plate and the driving wheel, and the plastic wire is prevented from being broken and tightened.

Preferably, the center frame is provided with sliding holes with the same number as the winding frames, the winding frames are connected with the sliding holes in a sliding manner, the winding frames are sleeved with elastic collets, and collet shells used for locking the collets are arranged on the outer sides of the elastic collets.

Through the technical means, the elastic collet is arranged on the winding frame, and the collet shell is used for locking the center frame and the winding frame, so that the position of the winding frame is convenient to modify, and products with different types are wound.

Preferably, the collet housing comprises a first clamping housing and a second clamping housing, wherein one clamping housing is rotatably arranged on the outer side of the elastic collet, the second clamping housing is rotatably arranged on the center frame, and the first clamping housing is in threaded connection with the second clamping housing and tightens the elastic collet.

Through the technical means, the first clamping shell and the second clamping shell are gradually clamped by the threaded connection between the first clamping shell and the second clamping shell, so that the winding frame is conveniently locked or unlocked.

Preferably, the base station is further provided with a sliding block, the bottom of the sliding seat is provided with a pulley, the sliding seat is fixedly provided with a driving source II, the driving source II drives the pulley to rotate and enable the sliding seat to linearly move along the sliding block, and the sliding seat alternately moves to a winding area and enables the winding assembly to wind.

Through above-mentioned technical means, roll and drive the seat motion that slides on the slider through the gyro wheel, increase the moving accuracy of seat that slides, it is rotatory through driving source two drive pulleys, increase degree of automation, work in turn through two rolling components, increase the rolling efficiency of equipment.

Preferably, the upper end of the base station is further provided with a third driving source and a guide wheel, and the third driving source drives the guide wheel to move to the front ends of the two winding assemblies.

Through above-mentioned technical means, remove to two rolling subassembly the place ahead through three control leading wheels of actuating source, realize switching the function of leading wheel position, increase degree of automation, make the guiding position more accurate simultaneously, increase rolling quality.

Preferably, the base bottom is also provided with cutter assembly, cutter assembly includes drive source IV, cutter body, connecting rod and slip table, cutter body one end with the base bottom is articulated, the cutter body centre is articulated with the connecting rod, the connecting rod with the slip table is articulated, the slip table with the base slides and is connected, drive source IV drives the slip table removes.

Through above-mentioned technical means, cut off the plastic silk that the rolling was accomplished through cutter assembly, further increase the degree of automation of equipment, promote the slip table through the actuating source IV and remove and make the connecting rod jack-up cutter body to reach the purpose of cutting off automatically.

Drawings

FIG. 1 is a schematic diagram of an embodiment;

fig. 2 is an enlarged view of a portion a of fig. 1;

Fig. 3 is an enlarged view of a portion B of fig. 1;

FIG. 4 is a schematic structural view of the winding assembly;

FIG. 5 is a partial schematic view of the winding assembly;

fig. 6 is an enlarged view of a portion C of fig. 5;

FIG. 7 is a partial cross-sectional view of the take-up assembly;

Figure 8 is a schematic structural view of the cutter assembly.

Reference numerals: 1. a base station; 2. a sliding seat; 3. a winding assembly; 4. a first driving source; 5. a center frame; 6. a roll frame; 7. a straight rod I; 8. a middle cylinder; 9. a reinforcing rod; 10. a slip hole; 11. a straight rod II; 12. an arc-shaped plate; 13. a winding cavity; 14. an elastic collet; 15. a collet housing; 16. a first clamping shell; 17. a second clamping shell; 18. a central rod; 19. a friction plate; 20. a driving wheel; 21. a spring; 22. a slide block; 23. a pulley; 24. a second driving source; 25. a third driving source; 26. a guide wheel; 27. a cutter assembly; 28. a driving source IV; 29. a cutter body; 30. a connecting rod; 31. a sliding table.

Detailed Description

The following detailed description of the utility model is provided in connection with the accompanying drawings to facilitate understanding and grasping of the technical scheme of the utility model.

The utility model provides an intelligent winding machine, including base 1 and a pair of seat 2 that slides, slide and all be provided with rolling subassembly 3 on the seat 2, rolling subassembly 3 includes driving source one 4, center rest 5 and eight book frame 6, driving source one 4 includes step motor, center rest 5 comprises eight straight-bar one 7, well section of thick bamboo 8 and stiffener 9, eight straight-bar one 7 annular array is on well section of thick bamboo 8, stiffener 9 is fixed between two straight-bar one 7, the hole 10 that slides has been seted up on the straight-bar one 7, book frame 6 comprises straight-bar two 11 and arc 12, the straight-bar stretches into in the hole 10 of sliding and is fixed through elasticity collet chuck 14 and collet chuck shell 15, arc 12 forms circular rolling chamber 13, can not make the plastic silk take place to bend when the plastic silk winding in circular rolling chamber 13, thereby make equipment be suitable for different types of plastic silk, increase equipment's suitability.

The elastic collet 14 is sleeved on the straight rod II 11, the upper end and the lower end of the elastic collet are respectively provided with an inclined top surface, the collet housing 15 comprises a first clamping housing 16 and a second clamping housing 17, the first clamping housing 16 is rotatably arranged on the outer side of the elastic collet 14 and props against the inclined top surface of the upper end of the elastic collet 14, the second clamping housing 17 is fixedly arranged on the straight rod I7, the inside of the second clamping housing 17 props against the inclined top surface of the lower end of the elastic collet 14, the first clamping housing 16 is connected with the second clamping housing 17 through threads, and when the first clamping housing 16 and the second clamping housing 17 are gradually close to each other, the first clamping housing 16 and the second clamping housing 17 prop against the inclined top surfaces and tighten the same, so that the straight rod II 11 is fixed.

The middle cylinder 8 is provided with a center rod 18 in the middle, the center rod 18 is sleeved with a friction plate 19, a driving wheel 20 and a spring 21, the driving source I4 drives the driving wheel 20 to rotate through a V-shaped belt, the friction plate 19 and the spring 21 are coaxially rotated with the center rod 18, the friction plate 19 and the center rod 18 are fixed through a flat key, a bearing is arranged between the driving wheel 20 and the center rod 18, the spring 21 drives the friction plate 19 to tightly support the driving wheel 20 through elasticity, the friction plate 19 and the driving wheel 20 have larger friction force through the elasticity of the spring 21, when the driving wheel 20 rotates, the driving wheel 20 drives the friction plate 19 to rotate, meanwhile, the center frame 5 and the winding frame 6 simultaneously rotate and wind up plastic wires, when the rotating speed of the driving source I4 is slightly higher than the discharging speed of an extruder, the plastic wires are in a time tightening state, when the plastic wires are tensioned, a slipping phenomenon occurs between the friction plate 19 and the driving wheel 20, the plastic wires are prevented from being broken, when the tension force is lost, the spring 21 drives the friction plate 19 to tightly support the driving wheel 20, so that the plastic wires are in a time state, and winding quality is increased.

The base station 1 is further provided with a sliding block 22, the bottom of the sliding seat 2 is provided with a pulley 23, the sliding seat 2 is fixedly provided with a driving source II 24, the driving source II 24 comprises a servo motor, the driving source II 24 drives the pulley 23 to rotate and enables the sliding seat 2 to linearly move along the sliding block 22, the two sliding seats 2 alternately move to a winding area and enable the winding assembly 3 to wind, after the winding assembly 3 on one side is completed to be moved to a discharging area, the winding assembly 3 on the other side is moved to a winding area to continue winding, and the winding efficiency of equipment is increased.

The upper end of the base station 1 is also provided with a driving source III 25 and a guide wheel 26, the driving source III 25 comprises a screw sliding table 31, the driving source III 25 drives the guide wheel 26 to move to the front ends of the two winding assemblies 3, when the winding assemblies 3 alternate, the driving source III 25 controls the guide wheel 26 to move to the front ends of the winding assemblies 3 for pre-winding, and when the winding assemblies 3 begin to wind, the guide wheel 26 slowly moves to guide winding at a position, so that winding quality is improved.

The cutter assembly 27 is further arranged at the bottom of the base station 1, the cutter assembly 27 comprises a driving source IV 28, a cutter body 29, a connecting rod 30 and a sliding table 31, the driving source IV 28 comprises a linear cylinder, one end of the cutter body 29 is hinged to the bottom of the base station 1, the sliding table 31 is arranged at the other end of the cutter body 29 with the driving source, the middle part of the cutter body 29 is hinged to the connecting rod 30, the connecting rod 30 is hinged to the sliding table 31, the sliding table 31 is in sliding connection with the base station 1, the driving source IV 28 drives the sliding table 31 to move, and the connecting rod 30 jacks up the cutter body 29 and enables the cutter body 29 to rotate, so that cutting is completed.

Of course, the above is only a typical example of the utility model, and other embodiments of the utility model are also possible, and all technical solutions formed by equivalent substitution or equivalent transformation fall within the scope of the utility model claimed.

Claims (7)

1. The utility model provides an intelligence rolling machine, includes base station (1) and a pair of seat (2) that slide, all is provided with rolling subassembly (3), characterized by on seat (2) that slide: the winding assembly (3) comprises a driving source I (4), a center frame (5) and a plurality of winding frames (6), wherein the winding frames (6) are arranged on the center frame (5) in an annular array, arc-shaped plates (12) are arranged at the tops of the winding frames (6), and a plurality of arc-shaped plates (12) form a circular winding cavity (13).

2. The intelligent winding machine according to claim 1, wherein: center frame (5) center is connected with center pole (18), be equipped with friction disc (19), drive wheel (20) and spring (21) on center pole (18), drive source one (4) drive wheel (20) are rotatory, friction disc (19) and spring (21) and center pole (18) coaxial rotation, drive wheel (20) with rotate between center pole (18) and be connected, spring (21) are through elasticity drive friction disc (19) tight drive wheel (20).

3. The intelligent winding machine according to claim 1, wherein: the novel rolling machine is characterized in that sliding holes (10) with the same number as that of the rolling frames (6) are formed in the center frame (5), the rolling frames (6) are connected with the sliding holes (10) in a sliding mode, an elastic collet (14) is sleeved on the rolling frames (6), and collet shells (15) used for locking the collet are arranged on the outer sides of the elastic collet (14).

4. An intelligent winding machine according to claim 3, wherein: the collet housing (15) comprises a first clamping housing (16) and a second clamping housing (17), the first clamping housing (16) is rotatably arranged on the outer side of the elastic collet (14), the second clamping housing (17) is rotatably arranged on the center frame (5), and the first clamping housing (16) is in threaded connection with the second clamping housing (17) and tightens the elastic collet (14).

5. The intelligent winding machine according to claim 1, wherein: the novel rolling device is characterized in that a sliding block (22) is further arranged on the base station (1), a pulley (23) is arranged at the bottom of the sliding seat (2), a driving source two (24) is fixedly arranged on the sliding seat (2), the driving source two (24) drives the pulley (23) to rotate and enable the sliding seat (2) to linearly move along the sliding block (22), and the sliding seat (2) alternately moves to a winding area and enables the winding assembly (3) to wind.

6. The intelligent winding machine according to claim 1, wherein: the upper end of the base station (1) is also provided with a driving source III (25) and a guide wheel (26), and the driving source III (25) drives the guide wheel (26) to move to the front ends of the two winding assemblies (3).

7. The intelligent winding machine according to claim 1, wherein: the utility model discloses a cutting tool for the medical instrument, including base station (1), base station (1) bottom still is provided with cutter unit spare (27), cutter unit spare (27) include drive source four (28), cutter body (29), connecting rod (30) and slip table (31), cutter body (29) one end with base station (1) bottom articulates, in the middle of cutter body (29) with connecting rod (30) articulated, connecting rod (30) with slip table (31) articulated, slip table (31) with base station (1) slides and is connected, drive source four (28) drive slip table (31) remove.