CN211998170U - Wire take-up device of wire bundling machine - Google Patents

Abstract

The utility model relates to a take-up device of a wire bundling machine, which relates to the technical field of cable production and comprises a wire arranging frame and a winding frame, wherein the wire arranging frame is provided with a horizontally arranged wire arranging component, and the winding frame is provided with a winding component which is parallel and opposite to the wire arranging component; the winding and unwinding assembly is connected with the winding and unwinding assembly; the winding component comprises a winding drum; the winding displacement assembly enables the cable to be uniformly wound on the winding drum; a lifting mechanism is arranged below the winding drum; the lifting mechanism is used for lifting and lowering the winding drum. The utility model discloses thereby utilize the realization that elevating system can be more convenient to change a rolling section of thick bamboo to the lift of a rolling section of thick bamboo to elevating system intensity is big, and is not fragile.

Description

Wire take-up device of wire bundling machine

Technical Field

The utility model belongs to the technical field of the technique of cable production and specifically relates to a bundling machine take-up is related to.

Background

At present, in cable manufacturing, a bunching machine is utilized to strand a plurality of strands of wires into wire cores of various wire cables with different specifications and sections, and then the wires need to be collected, and a take-up reel is driven by a motor to rotate so as to realize wire concentration.

The patent of the Chinese utility model with the granted publication number of CN204847587U discloses an electric wire winding machine, which comprises a base and a winding part positioned on the base, wherein, a first shaft structure is arranged at two sides of the base and connected with the winding part, and the winding part can rotate around the shaft structure; the rear end of the base is also provided with a connecting rod which is driven by a motor and can move in the vertical direction, and the connecting rod is connected with a second shaft structure at the rear end of the winding part.

The above prior art solutions have the following drawbacks: when carrying out the cable and collecting, the motor drive connecting rod rotates when rising, and the first axle structure who drives the base both sides rotates, thereby mention the coiling portion rear end, the front end descends, make the coiling piece paste with ground mutually, later the change of accomplishing the coiling piece, but at the in-process of receiving the line, first axle structure and second axle structure all need play the supporting role to the coiling portion, receive line more weight increase back in the coiling portion, pressure to first axle structure and second axle structure increases, lead to damage to appear in first axle structure and second axle structure department easily, need often maintain first axle structure and second axle structure.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a bundling machine take-up, the utility model discloses realization that can be more convenient is to the lift of a rolling section of thick bamboo to elevating system intensity is big, and is not fragile.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme:

a wire winding device of a wire bundling machine comprises a wire arranging frame and a winding frame, wherein a horizontally arranged wire arranging assembly is arranged on the wire arranging frame, and a winding assembly parallel to and opposite to the wire arranging assembly is arranged on the winding frame; the winding and unwinding assembly is connected with the winding and unwinding assembly; the winding component comprises a winding drum; the winding displacement assembly enables the cable to be uniformly wound on the winding drum; a lifting mechanism is arranged below the winding drum; the lifting mechanism is used for lifting and lowering the winding drum.

Through adopting above-mentioned technical scheme, utilize elevating system to support the winding drum of receiving the line completion, make the winding drum conveniently dismantle from the rolling frame, the change of the winding drum of also being convenient for simultaneously, labour saving and time saving more.

The utility model discloses further set up to: the lifting mechanism comprises a lifting platform at the top and a lifting component positioned below the lifting platform.

Through adopting above-mentioned technical scheme, utilize lifting unit to support the elevating platform, make the atress of receipts reel more even.

The utility model discloses further set up to: the lifting assembly comprises a base plate, and opposite square grooves are formed in the top surface of the base plate and the bottom surface of the lifting platform; opposite and mutually crossed support rods are arranged between the chassis and the opposite grooves of the lifting platform; the top end and the bottom end of one group of the opposite support rods are connected by a cross rod in sliding connection with the groove wall, and the top end and the bottom end of the other group of the opposite support rods are connected by a cross rod fixedly connected with the groove wall; the middle parts of the supporting rods are connected by a cross rod; the support rod is connected with the cross rod in a rotating way; and a cylinder rotatably connected with the cross rod is arranged between the cross rod in the middle of the supporting rod and the cross rod in sliding connection between the bottom end and the groove wall.

Through adopting above-mentioned technical scheme, utilize the flexible bracing piece that drives of cylinder to move and then drive the elevating platform and go up and down in the upper and lower direction.

The utility model discloses further set up to: the top surface of the lifting platform is provided with an arc-shaped groove matched with the shape of the bottom end of the winding drum.

Through adopting above-mentioned technical scheme, prevent that the winding drum from taking place to roll when on the elevating platform.

The utility model discloses further set up to: the two axial ends of the winding drum are respectively connected with a rotating shaft and a fixed shaft, and the rotating shaft is connected with a driving assembly and is rotatably connected to a winding frame; the side wall of the winding drum, which is close to the rotating shaft, is provided with a plurality of jacks, and the outer wall of the rotating shaft, which is close to the winding drum, is provided with a fixing part inserted into the jacks.

Through adopting above-mentioned technical scheme, make the axis of rotation be connected with the winding drum after inserting the jack with the fixed part to make the winding drum can rotate along with the rotation synchronization of axis of rotation.

The utility model discloses further set up to: the fixed shaft comprises a threaded section in threaded connection with the winding frame and a smooth section inserted into the winding drum.

Through adopting above-mentioned technical scheme, rotate the screw thread section and can shift out smooth section from the receipts reel to make things convenient for the change of receipts reel.

The utility model discloses further set up to: the position of the smooth section, which is close to the side wall of the winding drum, is provided with a limiting block; the limiting block is detachably connected with the smooth section.

Through adopting above-mentioned technical scheme, the stopper can prevent that the reel from taking place to rock in the axial.

The utility model discloses further set up to: and one end of the threaded section, which is far away from the smooth section, is provided with a baffle disc, and the baffle disc is connected with the winding frame by using a fixing bolt.

Through adopting above-mentioned technical scheme, because the rotation of receipts spool can cause rocking of fixed axle for rotate unstably, utilize fixing bolt to make and keep off the dish and be connected with the rolling frame, increased the stability of fixed axle.

The utility model discloses further set up to: the winding displacement subassembly includes that the axial both ends rotate the reciprocal lead screw of being connected with the creel stand and with reciprocal lead screw threaded connection's sliding seat, the sliding seat top rotates and is connected with the rolling disc, and the vertical interval in top of rolling disc is provided with spacing post.

Through adopting above-mentioned technical scheme, when the sliding seat along with reciprocating screw reciprocating motion, spacing post drove cable reciprocating motion to make the cable wind on the winding drum uniformly.

The utility model discloses further set up to: the top end of the limiting column is provided with a connecting rod to be connected with the limiting column.

Through adopting above-mentioned technical scheme, restrict the cable between spacing post, avoid the cable to deviate from between the spacing post at the in-process of rolling.

To sum up, the utility model discloses a beneficial technological effect does:

1. the winding drum is convenient to replace by arranging the lifting platform and the lifting assembly below the winding drum;

2. the winding drum is conveniently mounted on the winding frame and taken down from the winding frame through the fixing shaft arranged on the winding frame in threaded connection;

3. through set up the stopper on the fixed axle, can prevent that the reel from rocking and the inhomogeneous problem of rolling cable that leads to appears along the axial.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the overall structure in another direction;

fig. 3 is a schematic structural view of the lifting mechanism of the present invention;

fig. 4 is a schematic sectional structure of the present invention;

fig. 5 is a schematic sectional view of the lifting mechanism of the present invention.

In the figure, 1, a frame; 11. a wire arrangement frame; 12. a winding frame; 2. a flat cable assembly; 21. a reciprocating screw; 22. a sliding seat; 23. rotating the disc; 24. a limiting column; 25. a guide bar; 26. a connecting rod; 3. a winding component; 31. winding the roll; 311. a main shaft; 312. a side plate; 313. a jack; 314. a groove; 32. a rotating shaft; 33. a fixed part; 331. fixing the rod; 332. inserting a block; 34. a fixed shaft; 341. a threaded segment; 342. a smooth section; 343. a first limit hole; 35. a limiting block; 351. a second limiting hole; 36. cutting; 37. fixing the bolt; 4. a drive assembly; 41. a drive motor; 42. a first pulley; 43. a second pulley; 44. a drive belt; 5. a lifting mechanism; 51. a lifting assembly; 511. a chassis; 512. a cylinder; 513. a support bar; 514. a cross bar; 52. a lifting platform; 53. an arc-shaped slot; 6. a ramp.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1, for the utility model discloses a bundling machine take-up, including frame 1, the winding displacement subassembly 2 and the rolling subassembly 3 that are used for the cable to collect. The frame 1 comprises a creel stand 11 for supporting the creel assembly 2 and a winding stand 12 for supporting the winding assembly 3.

The wire arranging component 2 comprises a reciprocating screw rod 21 erected on the wire arranging frame 11 and two ends of the reciprocating screw rod are respectively connected with the wire arranging frame 11 in a rotating way. The reciprocating screw 21 is connected with a sliding seat 22 through screw threads. The top end of the sliding seat 22 is rotatably connected with a rotating disc 23, and two vertical spacing posts 24 arranged at intervals are arranged on the top surface of the rotating disc 23. The limiting column 24 is fixedly connected with the rotating disc 23. The top ends of the two limiting columns 24 are provided with horizontal connecting rods 26, and the two ends in the length direction of the connecting rods are respectively fixedly connected with the top surfaces of the limiting columns 24.

The lower part of the sliding seat 22 is provided with a guide rod 25 penetrating through the sliding seat 22, the guide rod 25 is parallel to the reciprocating screw 21, and the guide rod 25 is connected with the sliding seat 22 in a sliding way. Two ends of the guide rod 25 in the length direction are respectively fixedly connected with the creel stand 11.

Referring to fig. 2, the reciprocating screw 21 is connected to a driving assembly 4 for driving the reciprocating screw 21 to rotate. The driving assembly 4 includes a second pulley 43 fixedly connected to an axial end of the reciprocating screw 21 and coaxially disposed with the reciprocating screw 21. The second pulley 43 is connected to a drive motor 41 by a transmission belt 44, and the drive motor 41 is provided at the bottom of the frame 1.

When the cable is taken up, the cable passes through the two limiting columns 24 and is connected with the winding component 3. The driving motor 41 is started to drive the reciprocating screw 21 to rotate, and the sliding seat 22 moves back and forth on the reciprocating screw 21, so that uniform wire arrangement is realized.

Referring to fig. 2 and 4, the winding assembly 3 includes a winding drum 31 parallel to the reciprocating screw 21, and a rotating shaft 32 and a fixing shaft 34 are respectively connected to both ends of the winding drum 31 in the length direction. The rotating shaft 32 and the fixed shaft 34 are respectively connected to the winding frame 12. The take-up drum 31 includes a main shaft 311 having a hollow interior in the middle and circular side plates 312 located on both axial sides of the main shaft 311 and extending radially outward. The rotating shaft 32 and the fixed shaft 34 are inserted into the hollow portion of one end of the main shaft 311, respectively.

The rotating shaft 32 is rotatably connected to the winding frame 12, one end of the rotating shaft 32, which is far away from the winding drum 31, is fixedly connected with a first belt pulley 42 which is coaxial with the rotating shaft 32, and the first belt pulley 42 is connected with the driving motor 41 through a transmission belt 44. The side plate 312 of the end of the winding drum 31 close to the rotating shaft 32 is provided with a plurality of insertion holes 313 in the axial direction on the side facing the first belt pulley 42, and the side wall of the rotating shaft 32 is fixedly connected with the fixing part 33. The fixing portion 33 includes fixing bars 331 protruding radially outward along the rotation shaft 32 in an amount equal to the number of the insertion holes 313 and insertion blocks 332 fixedly attached to the side walls of the fixing bars 331 at the ends thereof remote from the rotation shaft 32 to protrude toward the side plates 312. By inserting the insertion block 332 into the insertion hole 313, the rotation shaft 32 rotates and simultaneously rotates the take-up drum 31, thereby taking up the cable.

The stationary shaft 34 includes a smooth section 342 near the take-up drum 31 and a threaded section 341 away from the take-up drum 31. The threaded section 341 is in threaded connection with the winding frame 12. The smooth section 342 is inserted into the main shaft 311 of the take-up drum 31. Rotating the threaded section 341 disengages the smooth section 342 from the spindle 311 to replace the winding drum 31.

The side surface of the side plate 312 of the winding drum 31 close to the threaded section 341 is provided with a groove 314 coaxial with the hollow part of the main shaft 311, and the diameter of the groove 314 is larger than that of the hollow part of the main shaft 311. A limiting block 35 which is coaxial and is connected with the fixed shaft 34 in a sliding mode is arranged in the groove 314. The shape of the stop block 35 matches the shape of the recess 314. The limiting block 35 is provided with a second limiting hole 351 which axially penetrates through the limiting block 35 along the limiting block 35, and the smooth section 342 is provided with a first limiting hole 343 at a position opposite to the second limiting hole 351. The second limiting hole 351 is a threaded hole (not shown). The cutting 36 screwed into the second stopper hole 351 is inserted into the second stopper hole 351, and the bottom end of the cutting 36 is inserted into the first stopper hole 343, whereby the position of the take-up drum 31 can be restricted.

The outer wall of one end of the threaded section 341 far away from the smooth section 342 is provided with a baffle disc extending outwards, and the baffle disc is connected with the winding frame 12 by using a fixing bolt 37. The winding drum 31 can shake during rotation to loosen the fixing shaft 34, and the fixing bolt 37 is arranged to strengthen the connection between the fixing shaft 34 and the winding frame 12.

An elevating mechanism 5 for elevating and lowering the take-up drum 31 is provided below the take-up drum 31. The lifting mechanism 5 is horizontally provided on a lifting table 52 below the take-up drum 31 and a lifting unit 51 below the lifting table 52. The top surface of the lifting platform 52 is provided with an arc-shaped groove 53 matched with the side plate 312 of the winding drum 31 in shape. The length of the lifting platform 52 is greater than that of the winding drum 31, and the winding drum 31 can still be positioned on the lifting platform 52 after the winding drum 31 is separated from the rotating shaft 32. The side of the lifting platform 52 away from the traverse assembly 2 is provided with a slope 6 inclined in the direction away from the lifting platform 52, and the top end of the slope 6 is lower than the height of the bottom end of the side plate 312 when the winding drum 31 is fixed on the rotating shaft 32.

Referring to fig. 3 and 4, the lifting assembly 51 includes a base plate 511 provided at a bottom end thereof. Opposite crossed support rods 513 which are vertically parallel and oppositely arranged are arranged between the chassis 511 and the lifting platform 52. The bottom surface of the lifting platform 52 and the bottom surface of the chassis 511 are provided with opposite square grooves.

The middle of the opposing support bar 513 and the top and bottom of the opposing support bar 513 are connected by a cross bar 514. The cross bar 514 is rotatably connected with the support bar 513.

Referring to fig. 3 and 5, the top and bottom cross bars 514 of the support bars 513 are located in the grooves, wherein the top and bottom cross bars 514 of two opposite support bars 513 are slidably connected with the groove walls of the lifting platform 52 and the bottom plate 511, respectively; the top and bottom cross bars 514 of the other two opposite support bars 513 are fixedly connected with the groove wall of the lifting platform 52 and the groove wall of the chassis 511 respectively.

And a cylinder 512 respectively hinged with the cross rod 514 and the base plate 511 is obliquely arranged between the cross rod 514 in the middle of the supporting rod 513 and the cross rod 514 in sliding connection with the base plate 511. The supporting rod 513 is lifted and lowered by the stretching of the cylinder 512, and the lifting platform 52 is driven to lift and lower.

The implementation principle of the embodiment is as follows: the winding drum 31 is lifted to the position where the main shaft 311 of the winding drum 31 is coaxial with the rotating shaft 32 and the fixed shaft 34 by the lifting mechanism 5, the winding drum 31 is pushed to enable the rotating shaft 32 to be inserted into the main shaft 311, the inserting blocks 332 are respectively inserted into the inserting holes 313, then the smooth section 342 of the fixed shaft 34 is inserted into the main shaft 311, the limiting block 35 is fixed on the smooth section 342 by the inserting strip 36, and the limiting block 35 is located in the groove 314 and is tightly attached to the side plate 312. The cable is connected with the winding drum 31 after passing through the gap between the limiting columns 24, and then the driving motor 41 is started to start winding of the cable.

After the winding is completed, the winding roll 31 can be unloaded from the winding frame 12 by reversing the above operation.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (10)

1. A wire winding device of a wire bundling machine comprises a wire arranging frame (11) and a winding frame (12), wherein a horizontally arranged wire arranging assembly (2) is arranged on the wire arranging frame (11), and a winding assembly (3) parallel and opposite to the wire arranging assembly (2) is arranged on the winding frame (12); the winding displacement component (2) and the winding component (3) are both connected with the driving component (4); the method is characterized in that: the winding component (3) comprises a winding drum (31); the winding displacement assembly (2) enables the cable to be uniformly wound on the winding drum (31); a lifting mechanism (5) is arranged below the winding drum (31); the lifting mechanism (5) is used for lifting and lowering the winding drum (31).

2. The wire takeup machine take-up device of claim 1, wherein: the lifting mechanism (5) comprises a lifting platform (52) at the top and a lifting assembly (51) positioned below the lifting platform (52).

3. The wire takeup machine take-up device of claim 2, wherein: the lifting assembly (51) comprises a chassis (511), and opposite square grooves are formed in the top surface of the chassis (511) and the bottom surface of the lifting platform (52); opposite and mutually crossed supporting rods (513) are arranged between the opposite grooves of the chassis (511) and the lifting platform (52); the top end and the bottom end of one group of the opposite support rods (513) are connected by a cross rod (514) in sliding connection with the groove wall, and the top end and the bottom end of the other group of the opposite support rods (513) are connected by a cross rod (514) fixedly connected with the groove wall; the middle parts of the supporting rods (513) are connected by a cross rod (514); the supporting rod (513) is connected with the cross rod (514) in a rotating way; an air cylinder (512) which is rotationally connected with the cross rod (514) is arranged between the cross rod (514) in the middle of the supporting rod (513) and the cross rod (514) which is connected with the groove wall at the bottom end in a sliding way.

4. The wire takeup machine take-up device of claim 3, wherein: the top surface of the lifting platform (52) is provided with an arc-shaped groove (53) matched with the bottom end of the winding drum (31) in shape.

5. The wire takeup machine take-up device of claim 1, wherein: two axial ends of the winding drum (31) are respectively connected with a rotating shaft (32) and a fixed shaft (34), and the rotating shaft (32) is connected with the driving assembly (4) and is rotationally connected to the winding frame (12); a plurality of insertion holes (313) are formed in the side wall, close to the rotating shaft (32), of the winding drum (31), and fixing portions (33) inserted into the insertion holes (313) are arranged on the outer wall, close to the winding drum (31), of the rotating shaft (32).

6. The wire takeup machine take-up device of claim 5, wherein: the fixed shaft (34) comprises a threaded section (341) in threaded connection with the winding frame (12) and a smooth section (342) inserted into the winding drum (31).

7. The wire takeup machine take-up device of claim 6, wherein: the position of the smooth section (342) close to the side wall of the winding drum (31) is provided with a limiting block (35); the limiting block (35) is detachably connected with the smooth section (342).

8. The wire takeup machine take-up device of claim 7, wherein: and one end of the threaded section (341) far away from the smooth section (342) is provided with a baffle disc, and the baffle disc is connected with the winding frame (12) by using a fixing bolt (37).

9. The wire takeup machine take-up device of claim 1, wherein: the winding displacement subassembly (2) include the reciprocating screw rod (21) that the axial both ends rotate to be connected with winding displacement frame (11) and with reciprocating screw rod (21) threaded connection's sliding seat (22), sliding seat (22) top rotates and is connected with rolling disc (23), and the vertical interval in top of rolling disc (23) is provided with spacing post (24).

10. The wire takeup machine take-up device of claim 9, wherein: the top end of the limiting column (24) is provided with a connecting rod (26) which is connected with the limiting column (24).

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