CN219839283U - Automatic winding device for cable production - Google Patents

Abstract

The utility model belongs to the technical field of winding devices, in particular to an automatic winding device for cable production, which aims at the defects that winding is unbalanced and the winding is tighter and tighter in the process of winding a cable by the existing automatic winding device for cable production, and the cable after the winding is completed is not easy to take off. The utility model makes the winding of the cable more balanced through the driving of the motor and the matching of all the components, and simultaneously prevents the winding of the cable from being tighter and tighter during the winding.

Description

Automatic winding device for cable production

Technical Field

The utility model relates to the technical field of winding devices, in particular to an automatic winding device for cable production.

Background

With the progress of the age, the demand of people for electric power is continuously increased, the electric construction speed is also continuously accelerated, a cable is used as a common electric conveying device, at present, when the cable is laid, a multi-purpose winding device is used for paying off, and the winding device is used for winding the cable onto a winding disc to realize the transportation of the bundled cable;

the work that needs the manual work to close the rolling machine after prior art cable collection is good, and such operation is relaxed and easily leads to the cable to collect too slowly, influences work efficiency to the volume that the cable was collected at every turn of assurance that can not be fine is unanimous, is to above-mentioned problem application number: 202220293957.X discloses an automatic winding device for cable production, which relates to the technical field of winding devices and comprises a supporting seat, a supporting plate, a first supporting frame, a motor, supporting blocks, buttons and the like, wherein the supporting seat is symmetrically arranged at the left and right sides of the bottom of the supporting plate, the first supporting frame is arranged on the right side of the top of the supporting plate, the motor capable of automatically completing cable winding operation is arranged at the top of the first supporting frame, the supporting block is arranged on the right side of the top of the motor, the button is arranged on the left side of the top of the supporting block, and the button is electrically connected with the motor;

however, in the existing automatic winding device for cable production, winding is unbalanced and is tighter and tighter when the winding is performed, so that the cable after the winding is completed is not easy to take down, and the defect that the cable is difficult to take down is overcome.

Disclosure of Invention

The utility model aims to solve the defects in the prior art, and provides an automatic winding device for cable production.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the automatic winding device for the cable production comprises a shell and a switching assembly, wherein a sliding rail is fixedly arranged on the shell, a sliding groove is formed in the sliding rail, the switching assembly is arranged in the sliding groove, the switching assembly comprises a sliding block, a square sleeve, a telescopic rod, a deflector rod, a push plate, a deflector plate and a second deflector rod, the sliding block slides in the sliding groove, the square sleeve is fixedly arranged on the sliding block, the telescopic rod is fixedly arranged on one side of the square sleeve, one end of the telescopic rod is slidably connected with the deflector rod, the deflector rod is rotationally connected with the sliding block, one end of the deflector rod is fixedly connected with the push plate, the other end of the deflector rod is fixedly connected with the deflector plate, two second deflector rods are fixedly arranged on the sliding block, the two second deflector rods correspond to two sides of the push plate, one end of the deflector plate is slidably connected with a swinging plate, one end of the swinging plate is slidably connected with a second fixed rod, the fixed rod II is fixedly connected with the shell, the output end of the motor drives two gears III to rotate through a gear I, the two gears III drive a transmission rod I and a transmission rod III to rotate respectively, the transmission rod I and the transmission rod III drive a threaded rod I and a threaded rod II to rotate respectively, the threaded rod I and the arc plate II drive a swinging plate to slide on the fixed rod II, the swinging plate drives a sliding block to slide on a sliding rail through the transmission of the swinging plate and the swinging plate, when the sliding block slides to one end of the sliding rail, the first baffle rod pushes a push plate to drive the pushing plate to drive the swinging plate to rotate on the sliding block, the swinging plate drives the swinging plate to rotate simultaneously, the swinging plate compresses the telescopic rod when the swinging plate rotates to a proper position, the driving rod is simultaneously given with continuous rotating power, the swinging plate drives the swinging plate to rotate on the fixed rod II, the first arc plate is meshed with the second threaded rod, so that the swing plate reversely slides on the second fixed rod.

Specifically, the both sides of swing board are fixedly connected with arc board one and arc board two respectively, arc board two threaded connection has threaded rod one, threaded rod one fixedly connected with transfer line one, transfer line one rotates with the casing to be connected with transfer line three, fixed cover is equipped with threaded rod two on the transfer line three, threaded rod two and arc board one looks adaptation, threaded rod two is opposite with threaded rod one for swing board circulation slip.

Specifically, one end fixedly connected with dead lever one of wobble plate, the both ends of dead lever one all rotate and are connected with dead plate one, two the one end fixedly connected with same dead plate two of dead plate one, the top fixedly connected with dead plate three of dead plate two, the dead plate three rotates and is connected with transfer line two, the one end fixedly connected with traction wheel of transfer line two, traction cable.

Specifically, fixedly connected with baffle on the transfer line II, transfer line II slip cap is equipped with the bearing, the outer wall and the casing fixed connection of bearing, the bearing with two looks adaptations of transfer line for can slide on the casing when transfer line II rotates.

Specifically, be equipped with drive assembly in the casing, drive assembly includes motor output, pulley one, drive belt, pulley two, gear one, gear two and gear three, fixed mounting has the motor in the casing, and the fixed cover is equipped with pulley one on the motor output, pulley one meshing is connected with the drive belt, the one end meshing of drive belt is connected with pulley two, pulley two fixedly connected with transfer line four, transfer line four is connected with the casing rotation, provides the drive force.

Specifically, the motor output end is fixedly sleeved with a first gear, the first gear is connected with a second gear in a meshed mode, the second gear is in sliding connection with a second transmission rod, a winding roll is fixedly sleeved on a fourth transmission rod, and a winding cable is wound.

Specifically, the first gear is connected with the third gear in an embedded way, and the third gears are respectively fixedly connected with the first transmission rod and the third transmission rod and are detachably connected.

Specifically, the two ends of the sliding rail are fixedly provided with a first stop lever, one end of the swing plate is provided with a groove, the poking plate slides in the groove, and the sliding direction of the swing plate is switched through the first stop lever.

Compared with the prior art, the utility model has the beneficial effects that:

(1) According to the automatic winding device for cable production, the output end of the motor drives two gears to rotate through the first gear, the two gears to drive the first transmission rod and the third transmission rod to rotate respectively, the first transmission rod and the third transmission rod drive the first threaded rod and the second threaded rod to rotate respectively, the first threaded rod and the second arc plate drive the swing plate to slide on the second fixed rod, the swing plate drives the sliding block to slide on the sliding rail through the transmission of the swing plate and the swing rod, the first blocking rod pushes the push plate when the sliding block slides to one end of the sliding rail, the push plate drives the swing rod to rotate on the sliding block, the swing rod drives the swing plate to rotate, the swing rod drives the swing rod to rotate, the swing rod compresses the telescopic rod when the swing rod rotates to a proper position, the power for continuous rotation of the swing rod is given to the swing rod, the swing plate enables the swing plate to rotate on the second fixed rod, the first arc plate is connected with the second arc plate in a meshed mode, and the swing plate is enabled to slide reversely on the second fixed rod.

(2) According to the automatic winding device for the cable production, the winding of the cable is more balanced through the driving of the motor and the matching of all the components, and the winding of the cable is prevented from being tighter and tighter.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It should be understood that the drawings described below are merely exemplary, and that the structures, proportions, sizes, etc. shown in the present specification are merely illustrative of the contents of the present specification, for the understanding and appreciation of the skilled artisan, and are not meant to limit the limitations upon the practice of the present utility model, so that there is no technical significance to any modification, change in the proportions, or adjustment of the size of the structures.

Fig. 1 is a schematic perspective view of an automatic winding device for cable production according to the present utility model;

fig. 2 is a schematic diagram of a front view structure of an automatic winding device for cable production according to the present utility model;

FIG. 3 is a schematic diagram of a driving assembly of an automatic winding device for cable production according to the present utility model;

fig. 4 is a schematic diagram of a switching assembly of an automatic winding device for cable production according to the present utility model.

In the figure: 1. a housing; 2. a slide rail; 3. a switching assembly; 31. a slide block; 32. a square sleeve; 33. a telescopic rod; 34. a deflector rod; 35. a push plate; 36. a poking plate; 37. a second stop lever; 4. a swinging plate; 5. an arc plate I; 6. an arc plate II; 7. a first threaded rod; 8. a transmission rod I; 9. a first fixed rod; 10. a first fixing plate; 11. a second fixing plate; 12. a fixing plate III; 13. a transmission rod II; 14. a traction wheel; 15. a transmission rod III; 16. a second threaded rod; 17. a transmission rod IV; 18. a winding roll; 19. a drive assembly; 191. an output end of the motor; 192. a pulley I; 193. a transmission belt; 194. a second pulley; 195. a first gear; 196. a second gear; 197. a third gear; 20. a stop lever I; 21. a second fixing rod; 22. a baffle plate.

Detailed Description

Other advantages and advantages of the present utility model will become apparent to those skilled in the art from the following detailed description, which, by way of illustration, is to be read in connection with certain specific embodiments, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the description of the present utility model, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "circumferential", "radial", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present utility model and simplify the description, and do not indicate or imply that the device or element being referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present utility model.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated, whereby a feature defining "first," "second," or the like, may explicitly or implicitly include one or more such features, and in the description of the present utility model, a "plurality" means two or more, unless otherwise specifically limited.

In the present utility model, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

In the present utility model, unless expressly stated or limited otherwise, a first feature "above" or "below" a second feature may include both the first and second features being in direct contact, as well as the first and second features not being in direct contact but being in contact with each other through additional features therebetween. Moreover, a first feature being "above," "over" and "on" a second feature includes the first feature being directly above and obliquely above the second feature, or simply indicating that the first feature is higher in level than the second feature. The first feature being "under", "below" and "beneath" the second feature includes the first feature being directly under and obliquely below the second feature, or simply means that the first feature is less level than the second feature.

Referring to fig. 1-4, an automatic winding device for cable production comprises a casing 1 and a switching component 3, wherein the casing 1 and the switching component 3 are fixedly arranged on the casing 1, a sliding rail 2 is arranged on the sliding rail 2, a sliding groove is formed in the sliding groove, the switching component 3 is arranged in the sliding groove, the switching component 3 comprises a sliding block 31, a square sleeve 32, a telescopic rod 33, a deflector rod 34, a push plate 35, a deflector plate 36 and a second stop rod 37, the sliding block 31 slides in the sliding groove, the square sleeve 32 is fixedly arranged on the sliding block 31, a telescopic rod 33 is fixedly arranged on one side of the square sleeve 32, one end of the telescopic rod 33 is slidingly connected with a deflector rod 34, the deflector rod 34 is rotationally connected with the sliding block 31, one end of the deflector rod 34 is fixedly connected with the push plate 35, the other end of the deflector rod 34 is fixedly connected with the deflector plate 36, two second stop rods 37 are fixedly arranged on the sliding block 31, the two stop rods II 37 are corresponding to two sides of the push plate 35, one end of the shifting plate 36 is slidably connected with the shifting plate 4, the shifting plate 4 is slidably connected with the fixing rod II 21, the fixing rod II 21 is fixedly connected with the casing 1, the motor output end 191 drives the two gears III 197 to rotate through the gear I195, the two gears III 197 drive the transmission rod I8 and the transmission rod III 15 to rotate respectively, the transmission rod I8 and the transmission rod III 15 drive the threaded rod I7 and the threaded rod II 16 to rotate respectively, the threaded rod I7 and the arc plate II 6 drive the shifting plate 4 to slide on the fixing rod II 21, the shifting plate 4 drives the sliding block 31 to slide on the sliding rail 2 through the driving of the shifting plate 36 and the shifting rod 34, the stop rod I20 pushes the push plate 35 when the sliding block 31 slides to one end of the sliding rail 2, the push plate 35 drives the shifting rod 34 to rotate on the sliding block 31, simultaneously, the deflector rod 34 drives the deflector plate 36 to rotate, the deflector rod 34 compresses the telescopic rod 33 when the deflector rod 34 rotates, the telescopic rod 33 is restored when the deflector rod 34 rotates to a proper position, meanwhile, power for continuous rotation of the deflector rod 34 is given to the deflector rod 34, meanwhile, the deflector plate 36 enables the swing plate 4 to rotate on the fixed rod II 21, the arc plate I5 is meshed with the threaded rod II 16, and accordingly the swing plate 4 slides reversely on the fixed rod II 21.

In this embodiment, the both sides of swing board 4 are fixedly connected with arc board one 5 and arc board two 6 respectively, arc board two 6 threaded connection has threaded rod one 7, threaded rod one 7 fixedly connected with transfer line one 8, transfer line one 8 rotates with casing 1 to be connected, it is connected with transfer line three 15 to rotate on the casing 1, fixed cover is equipped with threaded rod two 16 on the transfer line three 15, threaded rod two 16 and 5 looks adaptations of arc board, threaded rod two 16 are opposite with threaded rod one 7 threads for swing board 4 circulation slides.

In this embodiment, one end fixedly connected with dead lever one 9 of wobble plate 4, the both ends of dead lever one 9 all rotate and are connected with dead plate one 10, two the one end fixedly connected with same dead plate two 11 of dead plate one 10, the top fixedly connected with dead plate three 12 of dead plate two 11, dead plate three 12 rotates and is connected with transfer line two 13, the one end fixedly connected with traction wheel 14 of transfer line two 13, haulage cable.

In this embodiment, the second transmission rod 13 is fixedly connected with a baffle 22, the second transmission rod 13 is slidably sleeved with a bearing, the outer wall of the bearing is fixedly connected with the casing 1, and the bearing is adapted to the second transmission rod 13, so that the second transmission rod 13 can slide on the casing 1 while rotating.

In this embodiment, the driving assembly 19 is disposed in the casing 1, the driving assembly 19 includes a motor output end 191, a pulley one 192, a driving belt 193, a pulley two 194, a gear one 195, a gear two 196 and a gear three 197, a motor is fixedly mounted in the casing 1, the pulley one 192 is fixedly sleeved on the motor output end 191, the pulley one 192 is in meshed connection with the driving belt 193, one end of the driving belt 193 is in meshed connection with the pulley two 194, the pulley two 194 is fixedly connected with a driving rod four 17, and the driving rod four 17 is in rotational connection with the casing 1 to provide driving force.

In this embodiment, a first gear 195 is fixedly sleeved on the output end 191 of the motor, the first gear 195 is in meshed connection with a second gear 196, the second gear 196 is in sliding connection with the second transmission rod 13, and a winding roll 18 is fixedly sleeved on the fourth transmission rod 17 to wind the cable.

In this embodiment, the first gear 195 is connected with the third gear 197 in an integrated manner, and the third gears 197 are respectively and fixedly connected with the first transmission rod 8 and the third transmission rod 15, and are detachably connected.

In this embodiment, two ends of the sliding rail 2 are fixedly provided with a first stop lever 20, one end of the swinging plate 4 is provided with a groove, the shifting plate 36 slides in the groove, and the sliding direction of the swinging plate 4 is switched by the two first stop levers 20.

Working principle: starting the motor, driving the first gear 195 to rotate through the motor output end 191, driving the second transmission rod 13 to rotate through the first gear 195, driving the traction wheel 14 to rotate through the second transmission rod 13, and enabling the traction wheel 14 to act with the second fixing plate 11 so as to realize traction of the cable; meanwhile, the motor output end 191 drives two gears three 197 to rotate through a first gear 195, meanwhile, the two gears three 197 respectively drive a first transmission rod 8 and a third transmission rod 15 to rotate, meanwhile, the first transmission rod 8 and the third transmission rod 15 respectively drive a first threaded rod 7 and a second threaded rod 16 to rotate, meanwhile, the first threaded rod 7 and the second arc plate 6 drive the swinging plate 4 to slide on a second fixed rod 21, meanwhile, the swinging plate 4 drives a sliding block 31 to slide on a sliding rail 2 through the driving of a shifting plate 36 and a shifting rod 34, when the sliding block 31 slides to one end of the sliding rail 2, the first blocking rod 20 pushes a push plate 35 to drive the shifting rod 34 to rotate on the sliding block 31, simultaneously, the shifting lever 34 drives the shifting plate 36 to rotate, the shifting lever 34 compresses the telescopic rod 33 when the shifting lever 34 rotates, the telescopic rod 33 is restored when the shifting lever 34 rotates to a proper position, meanwhile, power for continuously rotating the shifting lever 34 is given to the shifting lever 34, meanwhile, the shifting plate 36 enables the swinging plate 4 to rotate on the fixing rod II 21, the arc plate I5 is meshed with the threaded rod II 16, so that the swinging plate 4 reversely slides on the fixing rod II 21, meanwhile, the swinging plate 4 drives the fixing plate II 11 to move through the fixing rod I9 and the fixing plate I10, and meanwhile, the fixing plate II 11 drives the transmission rod II 13 to slide on the casing 1 through the fixing plate III 12, so that balanced winding of the cable is realized; meanwhile, the motor output end 191 drives the pulley one 192 to rotate, the pulley one 192 drives the pulley two 194 to rotate through the transmission belt 193, and the pulley two 194 drives the winding drum 18 to rotate through the transmission rod four 17, so that the winding cable is wound.

Compared with the prior art, the utility model has the technical advantages that: the driving of the motor and the matching of all the components enable the winding of the cable to be more balanced, and simultaneously the winding of the cable is prevented from being tighter and tighter.

Claims (8)

1. The utility model provides an automatic coiling mechanism is used in cable production, its characterized in that includes casing (1) and switching assembly (3), fixed mounting has slide rail (2) on casing (1), the sliding tray has been seted up on slide rail (2), is equipped with switching assembly (3) in the sliding tray, switching assembly (3) include slider (31), square cover (32), telescopic link (33), driving lever (34), push pedal (35), driving lever (36) and pin two (37), slider (31) slide in the spout, fixed mounting has square cover (32) on slider (31), one side fixed mounting of square cover (32) has telescopic link (33), one end sliding connection of telescopic link (33) has driving lever (34), driving lever (34) and slider (31) swivelling joint, one end fixedly connected with push pedal (35) of driving lever (34), the other end fixedly connected with driving lever (36), fixed mounting has two pin two (37) on slider (31) two driving lever two (37) and two pendulum plates (21) are connected with one end of driving lever (35), the second fixing rod (21) is fixedly connected with the shell (1).

2. The automatic winding device for cable production according to claim 1, wherein the first arc plate (5) and the second arc plate (6) are fixedly connected to two sides of the swing plate (4) respectively, the first arc plate (6) is in threaded connection with the first threaded rod (7), the first threaded rod (7) is fixedly connected with the first transmission rod (8), the first transmission rod (8) is rotationally connected with the casing (1), the third transmission rod (15) is rotationally connected to the casing (1), the second threaded rod (16) is fixedly sleeved on the third transmission rod (15), the second threaded rod (16) is matched with the first arc plate (5), and the second threaded rod (16) is opposite to the first threaded rod (7).

3. The automatic winding device for cable production according to claim 2, wherein one end of the swinging plate (4) is fixedly connected with a first fixing rod (9), two ends of the first fixing rod (9) are rotationally connected with a first fixing plate (10), one end of each of the two first fixing plates (10) is fixedly connected with a second fixing plate (11), the top of each of the second fixing plates (11) is fixedly connected with a third fixing plate (12), the third fixing plate (12) is rotationally connected with a second driving rod (13), and one end of each of the second driving rods (13) is fixedly connected with a traction wheel (14).

4. The automatic winding device for cable production according to claim 3, wherein a baffle plate (22) is fixedly connected to the second transmission rod (13), a bearing is arranged on the second transmission rod (13) in a sliding sleeve mode, the outer wall of the bearing is fixedly connected with the casing (1), and the bearing is matched with the second transmission rod (13).

5. The automatic winding device for cable production according to claim 4, wherein a driving assembly (19) is arranged in the casing (1), the driving assembly (19) comprises a motor output end (191), a pulley I (192), a transmission belt (193), a pulley II (194), a gear I (195), a gear II (196) and a gear III (197), a motor is fixedly arranged in the casing (1), a pulley I (192) is fixedly sleeved on the motor output end (191), the pulley I (192) is in meshed connection with the transmission belt (193), one end of the transmission belt (193) is in meshed connection with the pulley II (194), the pulley II (194) is fixedly connected with a transmission rod IV (17), and the transmission rod IV (17) is in rotary connection with the casing (1).

6. The automatic winding device for cable production according to claim 5, wherein a first gear (195) is fixedly sleeved on the output end (191) of the motor, a second gear (196) is connected with the first gear (195) in a meshed manner, the second gear (196) is slidably connected with a second transmission rod (13), and a winding roll (18) is fixedly sleeved on the fourth transmission rod (17).

7. The automatic winding device for cable production according to claim 6, wherein two gears three (197) are connected in the first gear (195), and the two gears three (197) are fixedly connected with the first transmission rod (8) and the third transmission rod (15) respectively.

8. The automatic winding device for cable production according to claim 1, wherein the stop lever one (20) is fixedly installed at two ends of the sliding rail (2), one end of the swinging plate (4) is provided with a groove, and the shifting plate (36) slides in the groove.