CN114275624A

CN114275624A - Quantitative winding device for electric wire production

Info

Publication number: CN114275624A
Application number: CN202210138485.5A
Authority: CN
Inventors: 邹凤娟; 李斌; 黄成保; 胡淑珍
Original assignee: Jiangxi Huaxin Electric Wire & Cable Co ltd
Current assignee: Jiangxi Huaxin Electric Wire & Cable Co ltd
Priority date: 2022-02-15
Filing date: 2022-02-15
Publication date: 2022-04-05
Anticipated expiration: 2042-02-15
Also published as: CN114275624B

Abstract

The invention relates to a winding device, in particular to a quantitative winding device for electric wire production. The invention aims to provide a quantitative winding device for electric wire production, which is convenient for people to take out wound electric wires. The invention provides a quantitative winding device for electric wire production, which comprises a support shell, a double-shaft motor, a handle, a clamping assembly and the like, wherein the double-shaft motor is arranged in the middle of the inner bottom of the support shell, the handle is arranged in the middle of the front side of the support shell in a sliding mode, and the clamping assembly is arranged at the upper part of the inner side of the support shell. When the clamping block moves towards the inner side, the take-up reel can be clamped, then one end of an electric wire is wound on the take-up reel manually, the take-up reel can be driven to rotate by using the double-shaft motor as a driving force to complete winding work, then the push plate is pushed backwards, the clamping block can be driven to move towards the outer side to loosen the take-up reel, and people can take out the take-up reel wound with the electric wire conveniently.

Description

Quantitative winding device for electric wire production

Technical Field

The invention relates to a winding device, in particular to a quantitative winding device for electric wire production.

Background

When the electric wire leaves the factory, need the manual work to carry out the package of coiling to the electric wire, but the comparatively trouble of manual operation leads to work efficiency to be lower.

Patent application CN215364215U, it is 20211231 to disclose an electric wire coiling mechanism, including translation pushing tray and pulley, can make the winding drum horizontal direction freely remove, can make more even rolling of electric wire to the winding drum on, the helicla flute on first rotation post and second rotation post and the rotation post has been designed, remaining surface and inside stress when can making the electric wire rolling eliminate production, make on the electric wire can be inseparabler combines to the winding drum, the tensile pole of base top has been designed, make the height of winding drum freely adjustable, the more convenient operation of rolling that carries on, the baffle of second carousel both sides has been designed, can effectively prevent droing of drive belt. Although above-mentioned patent can carry out automatic rolling to the electric wire, after the rolling is good, inconvenient take off the electric wire.

In summary, there is an urgent need for a quantitative winding device for electric wire production, which is convenient for people to take out the wound electric wire, to solve the above problems.

Disclosure of Invention

In order to overcome the defect that the existing electric wire winding device is generally inconvenient to take out the wound electric wire when in use, the invention aims to provide the quantitative winding device for the electric wire production, which is convenient for people to take out the wound electric wire.

The invention is realized by the following technical approaches:

the utility model provides a ration coiling mechanism of electric wire production, including support housing, the clamp splice, the biax motor, the handle, clamping component, drive assembly and locking Assembly, be equipped with the biax motor in the middle of the interior bottom of support housing, the front side middle part slidingtype of support housing is equipped with the handle, the inboard upper portion of support housing is equipped with clamping component, the interval is equipped with the clamp splice that is used for pressing from both sides tight take-up reel on the clamping component, the interior bottom of support housing is equipped with and is used for driving take-up reel pivoted drive assembly, the lower part front side of support housing is equipped with and is used for carrying out spacing locking Assembly to clamping component.

Further, the clamping assembly comprises a first push rod, a first spring, a first supporting rod, a movable block, a first guide rod, a second spring, a fixed block, a first shaft sleeve, a first sliding shaft, a third spring and a rotary table, wherein the rear side of the handle is provided with the first push rod which is connected with the supporting shell in a sliding manner, the first spring is symmetrically arranged between the rear side of the first push rod and the supporting shell in the left-right direction, the middle parts of the left side and the right side of the inner wall of the supporting shell are respectively provided with the first supporting rod, the inner sides of the first supporting rod are respectively provided with the two first guide rods in a sliding manner, the movable block is arranged between the inner sides of the two adjacent first guide rods and is contacted with the first push rod, the first guide rods are respectively wound with the second spring, the two ends of the second spring are respectively connected with the first supporting rod and the first guide rod, the left side and the right side of the top in the supporting shell are respectively provided with the fixed block, the lower parts of the fixed blocks are respectively provided with the first shaft sleeve in a rotating manner, the inner side of the first shaft sleeve is provided with a first sliding shaft in a sliding mode, the first sliding shaft is connected with the upper portion of the adjacent movable block in a rotating mode, the first sliding shaft is wound with a third spring, the two ends of the third spring are connected with the first shaft sleeve and the first sliding shaft respectively, the inner end of the first sliding shaft is provided with a rotary table, and the inner side of the rotary table is connected with the adjacent three clamping blocks.

Further explaining, the driving component comprises a first supporting block, a second shaft sleeve, a second sliding shaft and a fourth spring, rotatory groove block, first kelly, first drive wheel and first drive belt, the left and right sides of bottom all is equipped with two first supporting blocks in the support housing, the equal rotary type in two inboard first supporting block upper portions is equipped with the second axle sleeve, the output shaft of the biax motor left and right sides all is connected with adjacent second axle sleeve, the equal slidingtype in second axle sleeve outside is equipped with the second sliding shaft, the second sliding shaft inboard with adjacent and second axle sleeve between all be equipped with the fourth spring, the second sliding shaft outside all is equipped with rotatory groove block, two first supporting block upper portion equal rotary types in the outside are equipped with first kelly, rotatory groove block is blocked to first kelly, all be equipped with first drive wheel on first kelly outside and the first axle sleeve, all around having first drive belt between two first drive wheels of upper and lower correspondence.

Further, the locking assembly comprises second guide rods, sliding blocks, fifth springs, second clamping rods, second push rods, push plates and sixth springs, the second guide rods are arranged on the front side of the lower portion of the supporting shell in a bilateral symmetry mode, the number of the second guide rods is four, the sliding blocks are arranged between the inner sides of the two adjacent second guide rods in a sliding mode, the fifth springs are wound on the second guide rods, the two ends of each fifth spring are connected with the supporting shell and the corresponding sliding block respectively, the second clamping rods are arranged on the tops of the sliding blocks, the first push rods can be in contact with the second clamping rods in a backward movement mode, the second push rods are arranged in the middle of the front side of the lower portion of the supporting shell in a sliding mode and can be in contact with the sliding blocks, the push plates are arranged in the middle of the bottoms of the second push rods and are in sliding connection with the supporting shell, and the sixth springs are arranged between the rear sides of the second push rods and the supporting shell in a bilateral symmetry mode.

Further explaining, the wire winding device further comprises a stopping assembly used for quantitatively winding the wire, the stopping assembly comprises second supporting rods, ejector rods, seventh springs and idler wheels, four second supporting rods are arranged in the middle of the bottom of the supporting shell at intervals, the second supporting rods are located on the outer side of the double-shaft motor, the ejector rods are arranged between the upper portions of the second supporting rods in a sliding mode, the rotating groove blocks are all in contact with the ejector rods, the seventh springs are arranged between the ejector rods and the second supporting rods, the number of the seventh springs is four, and the idler wheels are rotatably arranged in the middle of the upper portions of the ejector rods.

Further explaining, the wire collecting device also comprises a placing component for supporting the wire collecting disc, the placing component comprises a third supporting rod, a sliding frame and an eighth spring, place the piece, the fourth bracing piece, third push rod and ninth spring, the inboard middle part front and back symmetry of support housing is equipped with the third bracing piece, the quantity of third bracing piece is four, equal slidingtype is equipped with the carriage between two third bracing piece upper portions of horizontal homonymy, all be equipped with the eighth spring between carriage bottom and two adjacent third bracing pieces, left and right sides between the carriage all is equipped with places the piece, the equal front and back symmetry of left and right sides of bottom is equipped with the fourth bracing piece in the support housing, equal slidingtype is equipped with the third push rod between two adjacent fourth bracing piece upper portions, the third push rod all contacts with two carriages, the third push rod all contacts with adjacent movable block, all be equipped with the ninth spring between two fourth bracing piece upper portions of third push rod inboard and homonymy.

Further, the wire guiding device comprises a guiding component for guiding the wire, the guiding component comprises a toothed belt, a fifth support rod, a first gear, a second transmission wheel, a second transmission belt, a second support block, a grooved drum, a support shell, a support frame, a guide block, a slide rod and a second gear, the toothed belt is arranged on the outer side of the first transmission belt, the fifth support rod is symmetrically arranged on the rear side of the inner bottom of the support shell in the left-right direction, two first rotating rods are rotatably arranged on the upper portion of the fifth support rod on the left side, the second rotating rods are rotatably arranged on the upper portion of the fifth support rod on the right side, the first gears are respectively arranged on the left side of the first rotating rods and are meshed with each other, the toothed belt on the left side can be meshed with the first gear on the front side when rotating, the second support block is symmetrically arranged on the upper portion of the rear side of the support shell in the left-right direction, the grooved drum is arranged between the second support blocks, the left side of the grooved drum, the left side of the second rotating rods and the right side of the first rotating rods on the rear side of the second rotating rods are respectively provided with the second transmission wheels, the quantity of second drive wheel is four, all around having the second drive belt between two adjacent second drive wheels, the rear side upper portion of support housing is equipped with the support shell, the support shell is located the second supporting shoe outside, be equipped with the support frame in the middle of the rear side of bottom in the support shell, the gliding style is equipped with the guide block on the support frame, the front side lower part of guide block is equipped with the slide bar, slide bar and grooved drum sliding type connection, second bull stick right side is equipped with the second gear, can mesh with the second gear when the cingulum on right side rotates.

Further, the upper part of the guide block is provided with a round hole.

Compared with the prior art, the invention has the following advantages:

1. when the clamping block moves towards the inner side, the take-up reel can be clamped, then one end of an electric wire is wound on the take-up reel manually, the take-up reel can be driven to rotate by using the double-shaft motor as a driving force to complete winding work, then the push plate is pushed backwards, the clamping block can be driven to move towards the outer side to loosen the take-up reel, and people can take out the take-up reel wound with the electric wire conveniently.

2. Along with more and more electric wires on the take-up reel, the electric wire can squeeze the gyro wheel and down move for first card pole is loosened to the inside motion of rotatory groove block, and the take-up reel no longer rotates this moment, so can reach the purpose of ration rolling.

3. The placing block can support the take-up reel, and the take-up reel can be prevented from falling down into the supporting shell when the clamping block loosens the take-up reel.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of another embodiment of the present invention.

Fig. 3 is a schematic internal perspective view of the present invention.

Fig. 4 is a schematic internal perspective view of another aspect of the present invention.

FIG. 5 is a schematic view of the clamp assembly of the present invention.

Fig. 6 is a schematic structural diagram of the driving assembly of the present invention.

Fig. 7 is a partial structural schematic diagram of the driving assembly of the present invention.

Fig. 8 is a schematic view of the construction of the locking assembly of the present invention.

Figure 9 is a schematic view of a first partial structure of the locking assembly of the present invention.

Fig. 10 is a second partial structural view of the locking assembly of the present invention.

FIG. 11 is a schematic structural diagram of a stop assembly according to the present invention.

Fig. 12 is a schematic structural view of the placement module of the present invention.

Fig. 13 is a schematic structural view of a guide assembly of the present invention.

Fig. 14 is a schematic view of another perspective structure of the guide assembly of the present invention.

FIG. 15 is a schematic view of a first partial configuration of a guide assembly of the present invention.

Fig. 16 is a second partial schematic view of a guide assembly of the present invention.

Reference numbers in the drawings: 1-a support housing, 2-a clamping block, 3-a two-axis motor, 4-a handle, 5-a clamping assembly, 501-a first push rod, 502-a first spring, 503-a first support rod, 504-a movable block, 505-a first guide rod, 506-a second spring, 507-a fixed block, 508-a first shaft sleeve, 509-a first sliding shaft, 510-a third spring, 511-a rotary disc, 6-a driving assembly, 601-a first support block, 602-a second shaft sleeve, 603-a second sliding shaft, 604-a fourth spring, 605-a rotating groove block, 606-a first clamping rod, 607-a first transmission wheel, 608-a first transmission belt, 7-a locking assembly, 701-a second guide rod, 702-a sliding block, 703-a fifth spring, 704-a second clamping rod, 705-a second push rod, 706-a push plate, 707-a sixth spring, 8-a stopping component, 801-a second support rod, 802-a top rod, 803-a seventh spring, 804-a roller, 9-a placing component, 901-a third support rod, 902-a sliding frame, 903-an eighth spring, 904-a placing block, 905-a fourth support rod, 906-a third push rod, 907-a ninth spring, 10-a guiding component, 1001-a toothed belt, 1002-a fifth support rod, 1003-a first gear, 1004-a second driving wheel, 1005-a second driving belt, 1006-a second support block, 1007-a grooved drum, 1008-a support shell, 1012-a support frame, 1010-a guiding block, 1011-a sliding rod and 1011-a second gear.

Detailed Description

The present invention now will be described more fully hereinafter with reference to the accompanying drawings, in which presently preferred embodiments of the invention are shown. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein; rather, these embodiments are provided for completeness and fully convey the scope of the invention to the skilled person.

Example 1

The utility model provides a ration coiling mechanism of electric wire production, refer to fig. 1-10, including support shell 1, clamp splice 2, double-shaft motor 3, handle 4, clamping component 5, drive assembly 6 and locking Assembly 7, the inboard upper portion of support shell 1 is equipped with clamping component 5, the last spaced welding of clamping component 5 has clamp splice 2, clamp splice 2 can press from both sides the take-up reel tightly when moving to the inboard, the double-shaft motor 3 has been pegged graft in the middle of the interior bottom of support shell 1, the front side middle part slidingtype of support shell 1 is equipped with handle 4, the interior bottom of support shell 1 is equipped with drive assembly 6, the lower part front side of support shell 1 is equipped with locking Assembly 7.

Referring to fig. 1 to 5, the clamping assembly 5 includes a first push rod 501, a first spring 502, a first support rod 503, a movable block 504, a first guide rod 505, a second spring 506, a fixed block 507, a first shaft sleeve 508, a first sliding shaft 509, a third spring 510 and a rotary plate 511, the first push rod 501 is disposed at the rear side of the handle 4, the first push rod 501 is slidably connected with the support housing 1, the first spring 502 is symmetrically disposed between the rear side of the first push rod 501 and the support housing 1, the first support rod 503 is disposed at the middle portion of the left and right sides of the inner wall of the support housing 1, two first guide rods 505 are slidably disposed at the inner sides of the first support rods 503, the movable block 504 is welded between the inner sides of two adjacent first guide rods 505, the movable block 504 is in contact with the first push rod 501, the second spring 506 is wound around the first guide rod 505, two ends of the second spring 506 are respectively connected with the first support rod 503 and the first guide rod 505, the left and right sides at top all welds in the support shell 1 has the fixed block 507, the equal rotary type in fixed block 507 lower part is equipped with first axle sleeve 508, first axle sleeve 508 inboard all slidingtype is equipped with first sliding shaft 509, first sliding shaft 509 all is connected with adjacent movable block 504 upper portion rotary type, all around having third spring 510 on the first sliding shaft 509, the both ends of third spring 510 are connected with first axle sleeve 508 and first sliding shaft 509 respectively, first sliding shaft 509 inner all is equipped with carousel 511, the carousel 511 inboard all is connected with adjacent three clamp splice 2.

Referring to fig. 4, 6 and 7, the driving assembly 6 includes a first supporting block 601, a second shaft sleeve 602, a second sliding shaft 603, a fourth spring 604, a rotating groove block 605, a first clamping bar 606, a first driving wheel 607 and a first driving belt 608, two first supporting blocks 601 are welded on the left and right sides of the bottom in the supporting housing 1, the second shaft sleeve 602 is rotatably arranged on the upper portions of the two first supporting blocks 601 on the inner side, the output shafts on the left and right sides of the dual-shaft motor 3 are connected with the adjacent second shaft sleeve 602, the second sliding shaft 603 is slidably arranged on the outer side of the second shaft sleeve 602, a fourth spring 604 is arranged between the inner side of the second sliding shaft 603 and the adjacent second shaft sleeve 602, the rotating groove block 605 is arranged on the outer side of the second sliding shaft 603, the first clamping bar 606 is rotatably arranged on the upper portions of the two first supporting blocks 601 on the outer side, the first clamping bar 606 clamps the rotating groove block 605, the outer side of the first clamping bar 606 and the first shaft sleeve 508 are respectively provided with a first driving wheel 607, all around having first drive belt 608 between two first drive wheels 607 that correspond from top to bottom, start double-shaft motor 3, can drive first kelly 606 and rotate to can drive fixture block 2 and rotate, fixture block 2 can drive the take-up reel and rotate, accomplish rolling work.

Referring to fig. 1, 3, 8, 9 and 10, the locking assembly 7 includes a second guide rod 701, a slider 702, a fifth spring 703, a second clamping rod 704, a second push rod 705, a push plate 706 and a sixth spring 707, the second guide rod 701 is welded on the front side of the lower portion of the support housing 1 in a bilateral symmetry manner, the number of the second guide rods 701 is four, the slider 702 is slidably disposed between the inner sides of two adjacent second guide rods 701, the fifth spring 703 is wound on each second guide rod 701, both ends of the fifth spring 703 are respectively connected with the support housing 1 and the slider 702, the second clamping rod 704 is disposed on the top of the slider 702, the first push rod 501 can move backwards to contact with the second clamping rod 704, the second clamping rod 704 can limit the first push rod 501, the second push rod 705 is slidably disposed in the middle portion of the front side of the lower portion of the support housing 1, the second push rod 705 can move backwards to contact with the slider 702, the push plate 706 is disposed in the middle portion of the bottom of the second push rod 705, the push plate 706 is slidably connected to the support housing 1, and sixth springs 707 are symmetrically disposed between the rear side of the second push rod 705 and the support housing 1.

When people need to use the device, firstly, a take-up reel is placed between the clamping blocks 2, then the handle 4 is pushed backwards to drive the first push rod 501 to move backwards, the first spring 502 is compressed, the first push rod 501 can extrude the movable block 504 to move inwards, the second spring 506 is compressed, the movable block 504 drives the first sliding shaft 509, the rotary disc 511 and the clamping blocks 2 to move inwards, the third spring 510 is compressed, when the first push rod 501 contacts with the second clamping rod 704, the second clamping rod 704 is extruded to move outwards to drive the sliding block 702 to move outwards, the fifth spring 703 is compressed, when the first push rod 501 crosses the second clamping rod 704, the fifth spring 703 returns to the original state to drive the sliding block 702 and the second clamping rod 704 to move inwards to reset, so that the second clamping rod 704 clamps the first push rod 501, at the moment, the clamping blocks 2 can clamp the take-up reel, then one end of the double shafts of the electric wire is wound on the take-up reel manually, and then the motor 3 is started, the output shaft of the dual-shaft motor 3 drives the second shaft sleeve 602 to rotate, thereby driving the second sliding shaft 603 and the rotating groove block 605 to rotate, the rotating groove block 605 drives the first clamping rod 606 to rotate, the first clamping rod 606 can drive the first shaft sleeve 508 to rotate through the first driving wheel 607 and the first driving belt 608, thereby driving the first sliding shaft 509, the rotary disc 511 and the clamping block 2 to rotate, the clamping block 2 drives the take-up reel to rotate, thereby winding up the electric wire, at this time, the electric wire needs to be manually shifted aside to avoid winding the electric wire only at the same place, after the take-up reel is wound to a certain amount of electric wire, the dual-shaft motor 3 is closed, then the electric wire is cut off, the take-up reel is fixed by hand, then the push plate 706 is pushed backwards to drive the second push rod 705 to move backwards, the sixth spring 707 is compressed, when the second push rod 705 is contacted with the slide block 702, the slide block 702 and the slide block 702 are driven to move outwards, the fifth spring 703 is compressed, so that the second clamping rod 704 loosens the first push rod 501, the first spring 502 recovers to an original state, the first push rod 501 and the grip 4 are driven to move forwards to reset, the first push rod 501 is separated from the movable block 504, the second spring 506 and the third spring 510 recover to an original state, the movable block 504, the first sliding shaft 509, the rotary disc 511 and the clamping block 2 are driven to move outwards to reset, the clamping block 2 loosens the take-up reel, then the push plate 706 is loosened, the sixth spring 707 recovers to an original state, the second push rod 705 and the push plate 706 are driven to move forwards to reset, the second push rod 705 is separated from the slide block 702, the fifth spring 703 recovers to an original state, the slide block 702 and the second clamping rod 704 are driven to move inwards to reset, then the take-up reel wound with the electric wire is taken away, and the electric wire can be wound again by repeating the above operations.

Example 2

On the basis of embodiment 1, referring to fig. 1, 2, 3, 4 and 11, the winding device further includes a stopping assembly 8, the stopping assembly 8 includes a second support rod 801, a push rod 802, a seventh spring 803 and a roller 804, the four second support rods 801 are welded at intervals in the middle of the bottom of the support housing 1, the second support rods 801 are located outside the double-shaft motor 3, the push rods 802 are slidably disposed between the upper portions of the second support rods 801, the rotary groove blocks 605 are all in contact with the push rod 802, when the push rod 802 moves downward, the rotary groove blocks 605 can be pressed to move inward to separate from the first clamping rod 606, so that the winding disc stops rotating, the purpose of quantitative winding is achieved, the seventh springs 803 are disposed between the push rod 802 and the second support rods 801, the number of the seventh springs 803 is four, and the roller 804 is rotatably disposed in the middle of the upper portions of the push rod 802.

As more and more wires are on the take-up reel, when the wires contact with the roller 804, the roller 804 is pressed to move downwards to drive the push rod 802 to move downwards, the seventh spring 803 is compressed, the push rod 802 presses the rotary slot block 605 to move inwards, the fourth spring 604 is compressed to separate the rotary slot block 605 from the first clamping rod 606, the take-up reel stops rotating at the moment, then the take-up reel wound with the wires is taken away manually, so that the purpose of quantitative winding can be achieved, when the wires are separated from the roller 804, the seventh spring 803 restores to the original state to drive the push rod 802 and the roller 804 to move upwards to restore to separate the push rod 802 from the rotary slot block 605, the fourth spring 604 restores to the original state to drive the rotary slot block 605 to move outwards to restore to clamp the first clamping rod 606 again, if the rotary slot block 605 moves outwards to restore to not clamp the first clamping rod 606, the first clamping rod 606 can be pressed against the rotary slot block 605, the fourth spring 604 cannot completely return to its original shape, and when the rotary slot 605 rotates again, the rotary slot 605 aligns with the first rod 606, so that the fourth spring 604 returns to its original shape, and drives the rotary slot 605 to move outward to return to its original shape, and to clamp the first rod 606 again.

Referring to fig. 1, 3, 4 and 12, the wire winding machine further comprises a placing assembly 9, the placing assembly 9 comprises a third support bar 901, a sliding frame 902, an eighth spring 903, a placing block 904, a fourth support bar 905, a third push rod 906 and a ninth spring 907, the third support bar 901 is symmetrically welded in front and back of the middle portion of the inner side of the support shell 1, the number of the third support bars 901 is four, the sliding frame 902 is slidably arranged between the upper portions of the two third support bars 901 on the same transverse side, the eighth spring 903 is arranged between the bottom of the sliding frame 902 and the two adjacent third support bars 901, the placing blocks 904 are welded on the left side and the right side of the sliding frame 902, the placing blocks 904 can support the wire winding disc to prevent the wire winding disc from falling down into the support shell 1, the fourth support bars 905 are symmetrically welded in front and back on the left side and the right side of the bottom of the support shell 1, the sliding third push rod 906 is arranged between the upper portions of the two adjacent fourth support bars 905, the third push rods 906 are all in contact with the two sliding frames 902, the third push rods 906 are all in contact with the adjacent movable blocks 504, and ninth springs 907 are arranged between the inner sides of the third push rods 906 and the upper portions of the two fourth supporting rods 905 on the same side.

When people need to use the device, a take-up reel can be placed between the tops of the placing blocks 904, the take-up reel is located between the clamping blocks 2, when the movable block 504 moves inwards, the clamping blocks 2 are driven to move inwards to clamp the take-up reel, meanwhile, the movable block 504 can extrude the third push rod 906 to move inwards, the ninth spring 907 is compressed, the third push rod 906 extrudes the sliding frame 902 to move downwards, the eighth spring 903 is compressed, the sliding frame 902 drives the placing block 904 to move downwards, so that the placing block 904 is separated from the take-up reel, the placing block 904 can be prevented from interfering with the rotation of the take-up reel, when the movable block 504 moves outwards to reset, the clamping blocks 2 are driven to move outwards to reset to release the take-up reel, meanwhile, the movable block 504 loosens the third push rod 906, the ninth spring restores to the original state and drives the third push rod 906 to move outwards to reset, so that the third push rod 906 is separated from the sliding frame 902, eighth spring 903 reconversion drives carriage 902 and places piece 904 and up moves and resets for place piece 904 and contact bottom the take-up reel again, play the supporting role, avoid the take-up reel to down drop to support housing 1 inside.

Referring to fig. 1, 2, 3, 4, 13, 14, 15 and 16, the guide assembly 10 further includes a guide assembly 10, the guide assembly 10 includes a toothed belt 1001, a fifth support rod 1002, a first gear 1003, a second transmission wheel 1004, a second transmission belt 1005, a second support block 1006, a grooved drum 1007, a support housing 1008, a support frame 1009, a guide block 1010, a slide rod 1011 and a second gear 1012, the toothed belt is disposed outside the first transmission belt 608, the fifth support rod 1002 is welded on the rear side of the inner bottom of the support housing 1 in a bilateral symmetry manner, two first rotating rods are rotatably disposed on the upper portion of the fifth support rod 1002 on the left side, the second rotating rods are rotatably disposed on the upper portion of the fifth support rod 1002 on the right side, the first gears 1003 are disposed on the left side of the first rotating rods, the first gears 1003 are engaged with each other, the toothed belt on the left side is engaged with the first gear 1003 when rotating, the second support block 1006 is symmetrically disposed on the upper portion of the rear side of the support housing 1 in a bilateral symmetry manner, a groove barrel 1007 is rotatably arranged between the second supporting blocks 1006, the left side and the right side of the groove barrel 1007, second driving wheels 1004 are arranged on the left side of the second rotating rod and the right side of the first rotating rod on the rear side, the number of the second driving wheels 1004 is four, a second driving belt 1005 is wound between every two adjacent second driving wheels 1004, a supporting shell 1008 is welded on the upper portion of the rear side of the supporting shell 1, the supporting shell 1008 is located on the outer side of the second supporting block 1006, a supporting frame 1009 is arranged in the middle of the rear side of the bottom in the supporting shell 1008, a guide block 1010 is slidably arranged on the supporting frame 1009, a round hole is formed in the upper portion of the guide block 1010, the guide block 1010 can guide an electric wire, a sliding rod 1011 is arranged on the lower portion of the front side of the guide block 1010, the sliding rod 1011 is slidably connected with the groove barrel 1007, a second gear is arranged on the right side of the second rotating rod 1012, and the gear 1001 on the right side can be meshed with the second gear 1012 when rotating.

When people need to wind the electric wire on the take-up reel, firstly, one end of the electric wire passes through the round hole in the upper part of the guide block 1010 and then is wound on the take-up reel, when the first transmission belt 608 rotates, the toothed belt 1001 can be driven to rotate, when the toothed belt 1001 on the right side is meshed with the second gear 1012, the second gear 1012 is driven to rotate, so that the second rotating rod is driven to rotate, the second rotating rod can drive the groove barrel 1007 to rotate through the second transmission wheel 1004 on the right side and the second transmission belt 1005 on the right side, the groove barrel 1007 is driven to move right, so that the guide block 1010 is driven to move right, when the toothed belt 1001 on the right side is separated from the second gear 1012, the groove barrel 1007 stops rotating, meanwhile, the toothed belt 1001 on the left side is meshed with the first gear 1003 on the front side, so that the first gear 1003 on the front side is driven to rotate, so that the first gear 1003 on the rear side and the first rotating rod on the rear side are driven to rotate reversely, and the first rotating rod on the rear side can drive the groove barrel 1007 to rotate reversely through the second transmission wheel 1004 on the left side and the second transmission belt 1005 The grooved drum 1007 drives the sliding rod 1011 and the guide block 1010 to move leftwards and reset, when the left toothed belt 1001 is separated from the first gear 1003 on the front side, the grooved drum 1007 stops reversing, so reciprocating, reciprocating motion about the guide block 1010 can be achieved, therefore, the electric wire can be guided, and the electric wire can be uniformly wound on the take-up reel.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. The scope of the following claims is to be accorded the broadest interpretation so as to encompass all such modifications and equivalent structures and functions.

Claims

1. The utility model provides a ration coiling mechanism of electric wire production, including supporting shell (1), clamp splice (2), double-shaft motor (3) and handle (4), be equipped with double-shaft motor (3) in the middle of the interior bottom of supporting shell (1), the front side middle part slidingtype of supporting shell (1) is equipped with handle (4), clamp splice (2) are used for pressing from both sides tight take-up reel, characterized by, still including clamping component (5), drive assembly (6) and locking Assembly (7), the inboard upper portion of supporting shell (1) is equipped with clamping component (5), install on clamping component (5) clamp splice (2) interval, the interior bottom of supporting shell (1) is equipped with and is used for driving take-up reel pivoted drive assembly (6), the lower part front side of supporting shell (1) is equipped with and is used for carrying out spacing locking Assembly (7) to clamping component (5).

2. The quantitative winding device for the electric wire production according to claim 1, wherein the clamping assembly (5) comprises a first push rod (501), a first spring (502), a first support rod (503), a movable block (504), a first guide rod (505), a second spring (506), a fixed block (507), a first shaft sleeve (508), a first sliding shaft (509), a third spring (510) and a rotary table (511), the first push rod (501) is arranged at the rear side of the handle (4), the first push rod (501) is connected with the support housing (1) in a sliding manner, the first spring (502) is symmetrically arranged between the rear side of the first push rod (501) and the support housing (1), the first support rod (503) is arranged in the middle of the left side and the right side of the inner wall of the support housing (1), the two first guide rods (505) are arranged on the inner side of the first support rod (503) in a sliding manner, the movable block (504) is arranged between the inner sides of the two adjacent first guide rods (505), the movable block (504) all contacts with first push rod (501), all around having second spring (506) on first guide bar (505), the both ends of second spring (506) are connected with first bracing piece (503) and first guide bar (505) respectively, the left and right sides at top all is equipped with fixed block (507) in supporting shell (1), fixed block (507) lower part equal rotary type is equipped with first axle sleeve (508), first axle sleeve (508) inboard all is slided and is equipped with first slip axle (509), first slip axle (509) all is connected with adjacent movable block (504) upper portion rotary type, all around having third spring (510) on first slip axle (509), the both ends of third spring (510) are connected with first axle sleeve (508) and first slip axle (509) respectively, first slip axle (509) inner all is equipped with carousel (511), carousel (511) inboard all is connected with adjacent three clamp splice (2).

3. The quantitative winding device for the electric wire production according to claim 2, wherein the driving assembly (6) comprises a first supporting block (601), a second shaft sleeve (602), a second sliding shaft (603), a fourth spring (604), a rotating groove block (605), a first clamping rod (606), a first driving wheel (607) and a first driving belt (608), two first supporting blocks (601) are respectively arranged at the left side and the right side of the inner bottom of the supporting shell (1), the upper parts of the two inner first supporting blocks (601) are respectively and rotatably provided with the second shaft sleeve (602), output shafts at the left side and the right side of the double-shaft motor (3) are respectively connected with the adjacent second shaft sleeve (602), the outer side of the second shaft sleeve (602) is respectively and slidably provided with the second sliding shaft (603), the fourth spring (604) is respectively arranged between the inner side of the second sliding shaft (603) and the adjacent second shaft sleeve (602), the outer side of the second sliding shaft (603) is respectively provided with the rotating groove block (605), the equal rotary type in two first supporting block (601) upper portions in the outside is equipped with first kelly (606), and rotatory groove piece (605) are blocked in first kelly (606), all are equipped with first drive wheel (607) on first kelly (606) outside and first axle sleeve (508), all around having first drive belt (608) between two first drive wheels (607) of upper and lower correspondence.

4. The quantitative winding device for the electric wire production according to claim 3, wherein the locking assembly (7) comprises a second guide rod (701), a sliding block (702), a fifth spring (703), a second clamping rod (704), a second push rod (705), a push plate (706) and a sixth spring (707), the second guide rod (701) is symmetrically arranged at the left and right sides of the lower portion of the support housing (1), the number of the second guide rods (701) is four, the sliding block (702) is slidably arranged between the inner sides of two adjacent second guide rods (701), the fifth spring (703) is wound on each second guide rod (701), two ends of each fifth spring (703) are respectively connected with the support housing (1) and the sliding block (702), the second clamping rod (704) is arranged at the top of each sliding block (702), the first push rod (501) can move backwards to be in contact with the second clamping rod (704), the second push rod (705) is arranged in the middle of the front side of the lower portion of the support housing (1), the second push rod (705) moves backwards and can be in contact with the sliding block (702), a push plate (706) is arranged in the middle of the bottom of the second push rod (705), the push plate (706) is connected with the supporting shell (1) in a sliding mode, and sixth springs (707) are symmetrically arranged between the rear side of the second push rod (705) and the supporting shell (1) in the left-right mode.

5. The quantitative winding device for the electric wire production according to claim 4, characterized by further comprising a stopping assembly (8) for quantitatively winding the electric wire, wherein the stopping assembly (8) comprises a second support rod (801), a top rod (802), a seventh spring (803) and a roller (804), four second support rods (801) are arranged at intervals in the middle of the bottom in the support shell (1), the second support rods (801) are located on the outer side of the double-shaft motor (3), the top rod (802) is arranged between the upper portions of the second support rods (801) in a sliding manner, the rotating groove blocks (605) are all in contact with the top rod (802), the seventh spring (803) is arranged between the top rod (802) and the second support rod (801), the number of the seventh spring (803) is four, and the roller (804) is rotatably arranged in the middle of the upper portions of the top rod (802).

6. The quantitative winding device for the electric wire production according to claim 5, further comprising a placing component (9) for supporting the winding disc, wherein the placing component (9) comprises a third support rod (901), a sliding frame (902), eight springs (903), a placing block (904), a fourth support rod (905), a third push rod (906) and a ninth spring (907), the third support rod (901) is symmetrically arranged in the middle of the inner side of the support shell (1) in the front-back direction, the number of the third support rods (901) is four, the sliding frame (902) is arranged between the upper parts of the two third support rods (901) on the same transverse side in a sliding manner, the eighth springs (903) are arranged between the bottom of the sliding frame (902) and the two adjacent third support rods (901), the placing blocks (904) are arranged on the left side and the right side between the sliding frames (902), the fourth support rods (905) are symmetrically arranged in the front-back direction on the left side and the right side of the bottom of the support shell (1), a third push rod (906) is arranged between the upper portions of two adjacent fourth supporting rods (905) in a sliding mode, the third push rod (906) is in contact with the two sliding frames (902), the third push rod (906) is in contact with the adjacent movable block (504), and a ninth spring (907) is arranged between the inner side of the third push rod (906) and the upper portions of the two fourth supporting rods (905) on the same side.

7. The quantitative winding device for the electric wire production according to claim 6, characterized by further comprising a guide assembly (10) for guiding the electric wire, wherein the guide assembly (10) comprises a toothed belt (1001), a fifth support rod (1002), a first gear (1003), a second transmission wheel (1004), a second transmission belt (1005), a second support block (1006), a grooved drum (1007), a support shell (1008), a support frame (1009), a guide block (1010), a sliding rod (1011) and a second gear (1012), the toothed belt (1001) is arranged on the outer side of the first transmission belt (608), the fifth support rod (1002) is symmetrically arranged on the rear side of the inner bottom of the support housing (1), two first rotating rods are rotatably arranged on the upper portion of the fifth support rod (1002) on the left side, the second rotating rod is rotatably arranged on the upper portion of the fifth support rod (1002) on the right side, the first gear (1003) is arranged on the left side of the first rotating rod, the first gears (1003) are meshed with each other, the toothed belt (1001) on the left side can be meshed with the first gear (1003) on the front side when rotating, the upper portion of the rear side of the supporting shell (1) is bilaterally symmetrically provided with second supporting blocks (1006), grooved drums (1007) are rotatably arranged between the second supporting blocks (1006), the left side and the right side of each grooved drum (1007), the left side of each second rotating rod and the right side of each first rotating rod on the rear side are provided with second driving wheels (1004), the number of the second driving wheels (1004) is four, a second driving belt (1005) is wound between every two adjacent second driving wheels (1004), the upper portion of the rear side of the supporting shell (1) is provided with a supporting shell (1008), the supporting shell (1008) is located on the outer side of the second supporting blocks (1006), a supporting frame (1009) is arranged in the middle of the rear side of the bottom in the supporting shell (1008), a guide block (1009) is slidably arranged on the supporting frame (1009), and a sliding rod (1011) is arranged on the lower portion of the front side of the guide block (1010), the sliding rod (1011) is connected with the grooved drum (1007) in a sliding mode, a second gear (1012) is arranged on the right side of the second rotating rod, and the toothed belt (1001) on the right side can be meshed with the second gear (1012) when rotating.

8. A quantitative winding device for electric wire production as claimed in claim 7, wherein the guide block (1010) is formed with a circular hole at its upper portion.