CN112141808A - Wire spool with bidirectional threads - Google Patents

Abstract

The application discloses a wire spool with bidirectional threads, which comprises a mounting rack, a wire spool, a rotating shaft and a guide mechanism, wherein the wire spool is provided with a first thread and a second thread; the guide mechanism comprises a guide frame, a guide block, a cylindrical rod and a limiting rod, the cylindrical rod is rotatably arranged on the mounting frame, a bidirectional thread groove is formed in the outer ring surface of the cylindrical rod, and the bidirectional thread groove is connected end to end; the limiting rod is arranged on the mounting frame, and the rotating shaft, the cylindrical rod and the limiting rod are parallel to each other; the guide frame is provided with a first sliding hole and a second sliding hole, the first sliding hole is arranged on the cylindrical rod in a sliding mode, and the second sliding hole is arranged on the limiting rod in a sliding mode; the guide block is of a crescent structure, is arranged on the guide frame and is arranged in the bidirectional thread groove in a sliding manner. Its simple structure, convenient operation, and when rotating the cylinder pole, the guide block slides along two-way thread groove to force the guide frame to carry out reciprocating motion along the axial of wire reel, thereby make the pencil of carrying on the guide frame can follow the axial of wire reel and evenly arrange and open.

Description

Wire spool with bidirectional threads

Technical Field

The application relates to the technical field of wire reels, in particular to a wire reel with bidirectional threads.

Background

At present, in the mechanical and electronic field, due to the particularity of the structures of hardware products such as wires and cables, the wire spool is generally required to be used for containing and arranging the hardware products, and the wire spool is widely applied to the fields of steel smelting, petrochemical industry, mines, electric power, railways, construction sites, mining plants and the like and is a necessary tool for foundation construction.

However, the conventional wire spool mainly has the following defects: 1. when the wire harness is wound, the wire harness is easy to be wound on the wire spool in a centralized mode and cannot be automatically spread out, and after the winding is finished, the wire harness in the radial direction of the wire spool is large in size and easy to loosen; 2. the mode of starting the rotation of the wire spool is controlled by adopting a manual mode or a manual power-on mode, the operation is troublesome, and the remote control cannot be carried out.

Therefore, how to improve the existing wire spool to overcome the above-mentioned deficiencies is a problem to be solved by those skilled in the art.

Disclosure of Invention

An object of this application is to provide a simple structure, the wiring of being convenient for, convenient operation, and can remotely control wire reel.

In order to achieve the above purposes, the technical scheme adopted by the application is as follows: a wire spool with bidirectional threads comprises a mounting rack, a wire winding roll, a rotating shaft and a guide mechanism, wherein the wire winding roll is coaxially arranged on the rotating shaft, and the rotating shaft is rotatably arranged on the mounting rack; the guide mechanism comprises a guide frame, a guide block, a cylindrical rod and a limiting rod, the cylindrical rod is rotatably arranged on the mounting frame, a bidirectional thread groove is formed in the outer ring surface of the cylindrical rod, and the bidirectional thread groove is connected end to end; the limiting rod is arranged on the mounting frame, and the rotating shaft, the cylindrical rod and the limiting rod are parallel to each other; the guide frame is provided with a first sliding hole and a second sliding hole, the first sliding hole is arranged on the cylindrical rod in a sliding mode, and the second sliding hole is arranged on the limiting rod in a sliding mode; the guide block is in a crescent structure, is arranged on the guide frame and is arranged in the bidirectional thread groove in a sliding manner; when the cylindrical rod is rotated, the guide block slides along the bidirectional threaded groove and forces the guide frame to reciprocate along the axial direction of the wire winding disc, so that the wire harnesses carried on the guide frame can be uniformly distributed along the axial direction of the wire winding disc.

Preferably, the guide frame is provided with accommodating holes with a circular structure, and the accommodating holes are arranged along the radial direction of the first sliding hole; keep away from on the guide block the one end of two-way thread groove is equipped with the connecting block, the lateral wall of connecting block with the inside wall contact of accommodation hole, just keep away from on the accommodation hole the one end of first slide opening is equipped with locking screw, locking screw can restrict the guide block with two-way thread groove separation. The advantages are that: when the guide block is installed in a mode of arranging the accommodating hole, the installation is convenient, and the operation is simple; and because the accommodation hole is circular structure, can ensure the connecting block can take place to rotate at the accommodation hole, both can avoid the guide block because of the connecting block can not rotate and take place the card phenomenon of dying in the slip in-process, can reduce again the guide block with the assembly degree of difficulty between the two-way screw groove.

Preferably, a spring is arranged between the locking screw and the connecting block. The advantages are that: under the effect of spring, the connecting block can follow the axial of accommodation hole takes place the displacement, can avoid the guide block is in the dead phenomenon of card takes place for two-way thread groove.

Preferably, one end of the connecting block, which is far away from the guide block, is provided with a hemispherical structure accommodating groove, a ball is accommodated in the accommodating groove, and the ball is in contact with the spring so as to limit the contact of the spring and the connecting block. The advantages are that: the connecting block can be prevented from being incapable of rotating due to over-tight contact between the spring and the connecting block.

Preferably, the guide frame includes an upper fixing frame, a lower fixing frame, a left clamping plate and a right clamping plate, the first sliding hole and the accommodating hole are arranged on the upper fixing frame, and the second sliding hole is arranged on the lower fixing frame; the upper fixing frame and the lower fixing frame are arranged between the left clamping plate and the right clamping plate, first through holes are formed in the upper ends and the lower ends of the left clamping plate and the right clamping plate, and the cylindrical rod and the limiting rod can penetrate through the first through holes. The advantages are that: the guide frame is arranged into a plurality of parts through a modular design, so that the overall processing difficulty of the guide frame is greatly simplified; then, the connection among all the parts is realized in an assembling mode, the installation is simple and convenient, and the first through hole can avoid interfering the cylindrical rod and the limiting rod.

Preferably, a first wear-resistant shaft sleeve is arranged between the first sliding hole and the cylindrical rod, the first wear-resistant shaft sleeve is arranged on the guide frame, and a position, corresponding to the accommodating hole, of the first wear-resistant shaft sleeve is provided with a yielding hole; a second wear-resistant shaft sleeve is arranged between the second sliding hole and the limiting rod and arranged on the guide frame; and the first wear-resistant shaft sleeve and the second wear-resistant shaft sleeve cannot penetrate through the first through hole. The advantages are that: the first wear-resistant shaft sleeve can improve the sliding precision between the guide frame and the cylindrical rod, can prolong the service life of the guide frame, and can be independently replaced at a later stage, so that the maintenance cost is reduced. The second wear-resisting shaft sleeve can improve the guide frame and the sliding precision between the limiting rods, can prolong the service life of the guide frame, and can be independently replaced in the later period, so that the maintenance cost is reduced. In addition, because first wear-resisting axle sleeve and second wear-resisting axle sleeve can not pass first through-hole can pass through left splint with right splint realize right first wear-resisting axle sleeve and second wear-resisting axle sleeve carries out spacing installation to need not alone to first wear-resisting axle sleeve and second wear-resisting axle sleeve carries out spacing installation.

Preferably, still include driving motor, drive mechanism and wireless control module, driving motor and wireless control module all set up in on the mounting bracket, driving motor with be electric connection between the wireless control module, just driving motor's output shaft passes through drive mechanism with the pivot links to each other. The advantages are that: the winding roll can be electrically driven through the driving motor and the transmission mechanism; through the wireless control module can realize remote control the start-stop and the positive and negative rotation of driving motor to avoid needing the manual work to open and stop the operation closely.

Preferably, the device further comprises a transmission assembly, and the transmission assembly is arranged between the rotating shaft and the cylindrical rod. The advantages are that: through the transmission assembly, the rotating shaft can be driven to rotate while rotating, so that a driving device for driving the cylindrical rod independently is not needed, and the cost is reduced.

Preferably, the lifting device further comprises a crank, the crank is arranged on the cylindrical rod and located on the outer side of the mounting frame. The advantages are that: the crank can be used for manually driving the cylindrical rod to rotate, and the rotating shaft can be simultaneously and manually driven to rotate under the cooperation of the transmission assembly.

Preferably, the guide frame is rotatably provided with at least one pair of guide wheels, the outer annular surface of each guide wheel is coaxially provided with a groove of an annular structure, a clamping area is formed between the two grooves on the pair of guide wheels, and the clamping area is used for clamping the wiring harness. The advantages are that: the wire harness is limited through the clamping area, so that the guide frame can carry the wire harness to move.

Compared with the prior art, the beneficial effect of this application lies in:

(1) the cylindrical rod is rotatably arranged on the mounting frame, and the outer ring surface of the cylindrical rod is provided with a bidirectional thread groove which is connected end to end; the guide block is arranged on the guide frame and is arranged in the bidirectional thread groove in a sliding manner; therefore, when the cylindrical rod is rotated, the guide block slides along the bidirectional threaded groove and forces the guide frame to reciprocate along the axial direction of the winding disc, so that the wire harnesses carried on the guide frame can be uniformly arranged along the axial direction of the winding disc;

(2) the rotating shaft, the cylindrical rod and the limiting rod are parallel to each other, and the second sliding hole is arranged on the limiting rod in a sliding manner, so that the guide frame can only move along the axial direction of the winding roll and cannot rotate under the limiting action of the limiting rod and the second sliding hole;

(3) the wire spool with the bidirectional threads is simple in overall structure, reasonable in layout, low in cost and convenient to operate.

Drawings

Fig. 1 and 2 are perspective views of a wire spool having a bidirectional thread;

FIG. 3 is an enlarged perspective view of the guide mechanism;

fig. 4 is a perspective exploded view of the guide frame;

FIG. 5 is a perspective exploded view of the mounting structures on the upper mount;

FIG. 6 is an enlarged perspective view of the guide block;

fig. 7 is a schematic view of the installation of the guide block.

In the figure: 1. a mounting frame; 11. a left side plate; 12. a right side plate; 13. a connecting rod; 14. hanging a ring; 2. a take-up reel; 3. a rotating shaft; 4. a guide mechanism; 41. a guide frame; 410. elongated screw holes; 411. an upper fixing frame; 412. a lower fixing frame; 413. a left splint; 414. a right splint; 415. a first slide hole; 416. a second slide hole; 417. an accommodation hole; 418. a first through hole; 419. a second through hole; 42. a guide block; 421. connecting blocks; 422. accommodating grooves; 43. a cylindrical rod; 431. a bidirectional thread groove; 44. a limiting rod; 45. locking the screw; 46. a spring; 47. a ball bearing; 48. a first wear-resistant shaft sleeve; 481. a hole of abdication; 49. a second wear-resistant shaft sleeve; 5. a drive motor; 6. a transmission mechanism; 7. a wireless control module; 8. a transmission assembly; 9. a crank; 10. a guide wheel; 101. and (4) a groove.

Detailed Description

The present application is further described below with reference to specific embodiments, and it should be noted that, without conflict, any combination between the embodiments or technical features described below may form a new embodiment.

In the description of the present application, it should be noted that, for the terms of orientation, such as "central", "lateral", "longitudinal", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", etc., it indicates that the orientation and positional relationship shown in the drawings are based on the orientation or positional relationship shown in the drawings, and is only for the convenience of describing the present application and simplifying the description, but does not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be construed as limiting the specific scope of protection of the present application.

It is noted that the terms first, second and the like in the description and in the claims of the present application are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order.

The terms "comprises," "comprising," and "having," and any variations thereof, in the description and claims of this application, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

Referring to fig. 1-2, a wire spool with bidirectional threads comprises a mounting rack 1, a wire spool 2, a rotating shaft 3, a guide mechanism 4, a driving motor 5, a transmission mechanism 6, a wireless control module 7, a transmission assembly 8, a crank 9 and a guide wheel 10. Mounting bracket 1 includes left side board 11, right side board 12 and a plurality of connecting rod 13 (as shown in fig. 1), left side board 11 and right side board 12 parallel arrangement, and a plurality of connecting rod 13 are connected between left side board 11 and right side board 12, and the both ends of connecting rod 13 are passed through the screw and are installed respectively on left side board 11 and right side board 12. The rotating shaft 3 is rotatably mounted on the mounting frame 1 through a bearing, namely, the rotating shaft is erected on the left side plate 11 and the right side plate 12, under the action of the bearing, the fixing of the rotating shaft 3 can be realized, and the rotating shaft 3 can be ensured to rotate. The winding roll 2 is coaxially arranged on the rotating shaft 3, and the winding roll 2 and the rotating shaft 3 can be fixedly installed through screws or welding and other modes, so that the rotating shaft 3 can be ensured to rotate, and meanwhile, the winding roll 2 can be driven to rotate. The driving motor 5 is arranged on the mounting frame 1, and the driving motor 5 can be arranged on the outer side surface of the left side plate 11 or the right side plate 12 through screws, so that the interference on the winding roll 2 is avoided; the output shaft of the driving motor 5 is connected with the rotating shaft 3 through a transmission mechanism 6, the transmission mechanism 6 can adopt transmission modes such as belt transmission, gear transmission or chain transmission, preferably adopts a gear reducer (gear transmission), and the speed of the driving motor 5 is reduced through multi-stage gears, so that the output torque of the driving motor 5 is increased. Wireless control module 7 sets up on mounting bracket 1, and be electric connection between with driving motor 5, can receive long-range control signal through wireless control module 7 to according to receiving control signal, send corresponding instruction to driving motor 5, can realize opening of remote control driving motor 5 and stop and just reverse, thereby can receive line or unwrapping wire by remote control take-up reel 2, avoid needing the work of artifical close range manual control driving motor 5. It should be noted that the wireless control module 7 itself and the circuit connection between it and the driving motor 5 are all the prior art, and belong to the common general knowledge of those skilled in the art, and therefore, they are not described herein again.

Referring to fig. 3 to 7, the guide mechanism 4 includes a guide frame 41, a guide block 42, a cylindrical rod 43, a stopper rod 44, a lock screw 45, a spring 46, a ball 47, a first wear-resistant bush 48, and a second wear-resistant bush 49. A bidirectional thread groove 431 is arranged on the outer annular surface of the cylindrical rod 43, and the bidirectional thread groove 431 is connected end to end; the cylinder pole 43 can be rotationally arranged on the mounting bracket 1, and the two ends of the cylinder pole 43 can be respectively rotatably arranged on the left side plate 11 and the right side plate 12 by adopting bearings, so that the cylinder pole 43 can be ensured to rotate while the cylinder pole 43 is ensured to be fixed. Can be through setting up transmission assembly 8 between pivot 3 and cylinder pole 43, can guarantee to drive pivot 3 at driving motor 5 and rotate, can drive cylinder pole 43 through transmission assembly 8 and rotate to need not to set up the drive arrangement who drives cylinder pole 43 alone, greatly reduced the cost. Can also pass through the screw with crank 9 and install in the one end of cylinder pole 43 to ensure that crank 9 is located the outside of mounting bracket 1 (being the left side of left side board 11 and the right side of right side board 12), can rotate by manual drive cylinder pole 43 through crank 9, moreover under the cooperation of drive assembly 8, can be under the drive motor 5 or the no power circumstances of not equipping with, can rotate through the mode simultaneous drive pivot 3 of hand crank 9. Wherein, the transmission assembly 8 can adopt belt transmission, gear transmission, chain transmission or other transmission modes, the chain transmission is adopted in the attached drawings, as shown in fig. 1, a chain wheel is respectively arranged on the cylindrical rod 43 and the rotating shaft 3, and the transmission connection between the two chain wheels is realized through a chain (the chain is not shown in the attached drawings). It should be noted that the driving motor 5, the transmission mechanism 6 and the wireless control module 7 can be disposed on the same side of the mounting frame 1, for example, on the left side of the left side plate 11, as shown in fig. 2; and drive assembly 8 and crank 9 can set up the right side at right side board 12 to separate with driving motor 5, drive mechanism 6 and wireless control module 7, avoid taking place mutual interference between them, make holistic arranging more reasonable, also be favorable to reducing holistic volume, be favorable to making holistic focus more be close to the center of wire reel, stability when can improving whole putting. The limiting rod 44 is arranged on the mounting frame 1, two ends of the limiting rod 44 can be respectively arranged on the left side plate 11 and the right side plate 12 through screws, and the rotating shaft 3, the cylindrical rod 43 and the limiting rod 44 are parallel to each other; the shape of the limiting rod 44 is not limited, and it may be circular, oval or any polygon, preferably circular, and the limiting rod 44 with a circular structure is convenient for processing.

Referring to fig. 3-4, the guide frame 41 includes an upper fixing frame 411, a lower fixing frame 412, a left clamping plate 413 and a right clamping plate 414, a first sliding hole 415 and a receiving hole 417 are located on the upper fixing frame 411, a second sliding hole 416 is located on the lower fixing frame 412, and bolts are respectively disposed on the left clamping plate 413 and the right clamping plate 414, so that the upper fixing frame 411, the lower fixing frame 412 and the two pairs of guide wheels 10 are clamped and fixed between the left clamping plate 413 and the right clamping plate 414 through the bolts. The guide frame 41 is provided with a first slide hole 415, a second slide hole 416 and a receiving hole 417; the first slide hole 415 and the receiving hole 417 may be disposed on the upper fixing frame 411, and the receiving hole 417 is disposed along a radial direction of the first slide hole 415, and the second slide hole 416 may be disposed on the lower fixing frame 412; on the one hand, the volume of the upper fixing frame 411 or the lower fixing frame 412 can be reduced, on the other hand, through the modularized design, the processing can be respectively carried out, the mutual interference between the upper fixing frame and the lower fixing frame in the processing process is avoided, and therefore the processing difficulty is reduced. The first sliding hole 415 is slidably disposed on the cylindrical rod 43, the second sliding hole 416 is slidably disposed on the limiting rod 44, and the sliding limit fit between the first sliding hole 415 and the cylindrical rod 43 and the sliding limit fit between the second sliding hole 416 and the limiting rod 44 ensure that the guide frame 41 can only move along the axial direction of the rotating shaft 3, but cannot rotate. The upper end and the lower end of the left clamping plate 413 and the right clamping plate 414 are respectively provided with a first through hole 418, the cylindrical rod 43 can be abducted through the two first through holes 418 positioned above the left clamping plate 413 and the right clamping plate 414, and the limiting rod 44 can be abducted through the two first through holes 418 positioned below the left clamping plate 413 and the right clamping plate 414, so that the mutual interference between the arrangement of the left clamping plate 413 and the right clamping plate 414 and the cylindrical rod 43 and the limiting rod 44 is avoided; the first through hole 418 is preferably U-shaped (as shown in fig. 4), and by providing the elongated screw holes 410 in vertical arrangement on the left clamping plate 413 and the right clamping plate 414, it is possible to arrange the first through hole 418 in the U-shaped structure, the upper and lower holders 411 and 412 can be moved up and down with respect to the left and right clamping plates 413 and 414, so that the first slide hole 415 formed on the upper fixing frame 411 can be quickly positioned with the cylindrical rod 43, the second sliding hole 416 on the lower fixing frame 412 can be quickly positioned with the limiting rod 44, so that the sliding matching between the first sliding hole 415 and the cylindrical rod 43 and between the second sliding hole 416 and the limiting rod 44 can still be realized within a certain error range between the assembling size of the cylindrical rod 43 and the limiting rod 44 and the arrangement of the first sliding hole 415 and the second sliding hole 416, and the processing difficulty and the assembling difficulty of the two are greatly reduced; in addition, it is apparent that the first through hole 418 having a U-shaped structure can save more material cost.

Referring to fig. 4-5, the first wear-resistant bushing 48 is disposed between the first sliding hole 415 and the cylindrical rod 43, the first wear-resistant bushing 48 is mounted on the guide frame 41 in a limited manner, and the first wear-resistant bushing 48 is provided with a hole 481 corresponding to the receiving hole 417, so that interference on the mounting of the connecting block 421 and the guide block 42 is avoided through the hole 481. During installation, only by ensuring that the first wear-resistant shaft sleeve 48 cannot pass through the first through hole 418, the first wear-resistant shaft sleeve 48 can be directly limited under the clamping of the left clamping plate 413 and the right clamping plate 414 (i.e., the first wear-resistant shaft sleeve 48 does not need to be limited and fixed independently), so that the first wear-resistant shaft sleeve 48 is limited in the first sliding hole 415, and the first wear-resistant shaft sleeve 48 is ensured to be in contact with the cylindrical rod 43 all the time; the first wear-resistant shaft sleeve 48 can improve the sliding precision between the guide frame 41 and the cylindrical rod 43 and can prolong the service life of the guide frame 41 (i.e., the upper fixing frame 411); moreover, after abrasion occurs in the later period, the first wear-resistant shaft sleeve 48 can be independently replaced, so that the maintenance cost is reduced. The second wear-resistant bushing 49 is disposed between the second sliding hole 416 and the limiting rod 44, and the second wear-resistant bushing 49 is mounted on the guiding frame 41 in a limiting manner. During installation, only by ensuring that the second wear-resistant shaft sleeve 49 cannot pass through the first through hole 418, the second wear-resistant shaft sleeve 49 can be directly limited under the clamping of the left clamping plate 413 and the right clamping plate 414 (i.e. the second wear-resistant shaft sleeve 49 does not need to be limited and fixed independently), so that the second wear-resistant shaft sleeve 49 is limited in the second sliding hole 416, and the second wear-resistant shaft sleeve 49 is ensured to be in contact with the limiting rod 44 all the time; the second wear-resistant shaft sleeve 49 can improve the sliding precision between the guide frame 41 and the limiting rod 44 and can prolong the service life of the guide frame 41; moreover, after abrasion occurs in the later period, the second wear-resistant shaft sleeve 49 can be independently replaced, so that the maintenance cost is reduced. The first wear-resistant shaft sleeve 48 and the second wear-resistant shaft sleeve 49 can adopt self-lubricating bearings, and are good in self-lubricating property, wear-resistant performance, small in friction coefficient, long in service life, convenient to process, appropriate in elastoplasticity and capable of distributing stress on a wide contact surface, so that the bearing capacity of the bearing is improved.

Referring to fig. 5-7, the guide block 42 is a crescent-shaped structure, and a connection block 421 is disposed at one end of the guide block 42 away from the bidirectional screw groove 431 (i.e., the upper end of the guide block 42 in fig. 5); the connection block 421 is placed in the receiving hole 417, the outer side wall of the connection block 421 contacts the inner side wall of the receiving hole 417, the locking screw 45 is screwed to one end of the receiving hole 417 far from the first sliding hole 415, so that the separation of the guide block 42 from the bidirectional threaded groove 431 is limited, the guide block 42 is mounted on the upper fixing frame 411 (the guide frame 41), and the guide block 42 can slide along the bidirectional threaded groove 431 (under the action of the abdicating hole 481, the guide block 42 at the lower end of the connection block 421 can contact the bidirectional threaded groove 431; obviously, the abdicating hole 481 cannot interfere with the guide block 42 and the connection block 421, and therefore, the inner diameter of the abdicating hole 481 is greater than or equal to the inner diameter of the receiving hole 417). Since the guide frame 41 can move only in the axial direction of the rotating shaft 3, that is, the upper fixing frame 411 can move only in the axial direction of the cylindrical rod 43, when the cylindrical rod 43 rotates, the bidirectional screw groove 431 forces the guide block 42 to perform reciprocating sliding in the axial direction of the cylindrical rod 43, that is, the guide frame 41 performs reciprocating movement in the axial direction of the winding roll 2, so that the wire harness carried on the guide frame 41 can be uniformly arranged in the axial direction of the winding roll 2.

In order to improve the stability of the guide block 42 sliding in the bidirectional threaded groove 431, the receiving hole 417 and the connecting block 421 are both preferably circular structures, so that the connecting block 421 can be ensured to rotate in the receiving hole 417, and the adaptability between the guide block 42 and the bidirectional threaded groove 431 is improved, that is, while the guide block 42 slides in the bidirectional threaded groove 431, the orientation of the guide block 42 can be properly adjusted and changed according to the trend of the bidirectional threaded groove 431, so that the difficulty in assembling between the guide block 42 and the bidirectional threaded groove 431 is reduced. Otherwise, once the connection block 421 cannot rotate in the receiving hole 417, the guide block 42 is easily jammed during the sliding process in the bidirectional screw groove 431. In addition, the spring 46 is arranged between the locking screw 45 and the connecting block 421, and the connecting block 421 is displaced along the axial direction of the receiving hole 417 under the action of the spring 46, so that the guide block 42 can jump in the bidirectional threaded groove 431. Otherwise, once the locking screw 45 is installed too tightly, the friction force between the guide block 42 and the bidirectional threaded groove 431 is greatly increased, so that the difficulty of sliding the guide block 42 in the bidirectional threaded groove 431 is increased, and even the guide block is stuck in a serious situation; also, when the inner wall of the bidirectional screw groove 431 is not smooth due to machining errors, the guide block 42 is easily stuck without the action of the spring 46. In addition, in order to avoid the situation that the connecting block 421 cannot rotate due to over-tight contact between the spring 46 and the connecting block 421, a hemispherical structure accommodating groove 422 is formed in one end, far away from the guide block 42, of the connecting block 421, the ball 47 is arranged in the accommodating groove 422, and the upper end of the ball 47 is in contact with the spring 46, so that the spring 46 is supported, the contact between the spring 46 and the connecting block 421 is limited, the rotation between the ball 47 and the accommodating groove 422 can be realized, the friction coefficient between the ball 47 and the accommodating groove 422 is small, the transitional connection between the spring 46 and the connecting block 421 is realized through the ball 47, the connecting block 421 can be ensured to rotate freely in the accommodating hole 417, and the clamping phenomenon of the guide block 42 is effectively avoided; and the balls 47 and the springs 46 do not need to be fixed, so that the installation is convenient, and the smoothness of relative rotation between the connecting block 421 and the springs 46 can be further improved. Through the sliding fit between the receiving hole 417 of the circular structure and the connecting block 421 of the circular structure, and the spring 46 and the ball 47 which are arranged in a matching manner, the guide block 42 is prevented from being stuck in the bidirectional threaded groove 431, so that the stability of the guide block 42 sliding in the bidirectional threaded groove 431 is improved. The locking screw 45 is preferably a hexagon socket head screw (as shown in fig. 5, the external thread of the locking screw 45 is not shown in the drawing), and the structure is simple and the volume is small, so that the overall volume of the upper fixing frame 411 can be reduced.

Referring to fig. 3-4, the guide wheels 10 are at least one pair, and preferably two pairs; the guide wheel 10 is rotatably mounted on the guide frame 41, that is, the shaft of the guide wheel 10 can be fixedly mounted on the left clamping plate 413 and the right clamping plate 414 through screws; moreover, the elongated screw holes 410 arranged horizontally can be arranged on the left clamping plate 413 and the right clamping plate 414, so that the pair of guide wheels 10 can be arranged on the same vertical line, and the horizontal interval between the two pairs of guide wheels 10 can be adjusted. The outer annular surface of guide wheel 10 is coaxial to be equipped with annular structure's recess 101, and is formed with the centre gripping district between two recesses 101 on the same pair of guide wheel 10, can grasp the pencil through the centre gripping district to guarantee that guide frame 41 can be stable carry the pencil and remove. In addition, the connecting line between the two clamping areas is arranged along the radial direction of the winding roll 2, so that the wiring harness passing through the two clamping areas can be wound on the winding roll 2 more neatly. In addition, left splint 413 and right splint 414 are cross structure, wherein, the upper fixing frame 411 and lower fixing frame 412 are arranged respectively in cross structure's upper and lower both ends, two pairs of guide wheels 10 are arranged respectively in cross structure's the ascending both ends of horizontal direction, this kind of arrangement, it is more reasonable, compact to be favorable to the whole of guide frame 41 to arrange, can effectually avoid causing the interference to unwrapping wire and receipts line, be favorable to improving the horizontal interval between two pairs of guide wheels 10, thereby improve the guide effect to the pencil, the material cost of left splint 413 and right splint 414 can also be saved. The center of cross structure is equipped with second through-hole 419, and second through-hole 419 can save the material cost of left splint 413 and right splint 414 on the one hand, and on the other hand can be convenient for snatch with the hand to conveniently install.

As shown in fig. 1, in order to facilitate the hoisting and transferring of the wire spool, a hanging ring 14 is disposed on each of the left side plate 11 and the right side plate 12, the hanging ring 14 can be fixed by a screw, and the wire spool can be moved more conveniently by the hanging ring 14.

The working principle is as follows: after the driving motor 5 is started, an output shaft of the driving motor 5 drives the rotating shaft 3 to rotate through the transmission mechanism 6, so that the winding roll 2 is driven to rotate; moreover, when the rotating shaft 3 rotates, the cylindrical rod 43 can be driven to rotate through the transmission assembly 8, the bidirectional thread groove 431 on the cylindrical rod 43 can rotate with the guide block 42 of the crescent structure, and the whole guide frame 41 can be forced to reciprocate along the axial direction of the wire spool due to the sliding limit fit between the limiting rod 44 and the second sliding hole 416, so that the wire harness clamped between the two pairs of guide wheels 10 can be ensured to reciprocate along the axial direction of the wire spool, and further, the wire harness carried on the guide frame 41 can be uniformly arranged along the axial direction of the wire spool 2, and the wire harness is prevented from being intensively wound in a local area on the wire spool 2.

The foregoing has described the general principles, essential features, and advantages of the application. It will be understood by those skilled in the art that the present application is not limited to the embodiments described above, which are merely illustrative of the principles of the application, but that various changes and modifications may be made without departing from the spirit and scope of the application, and these changes and modifications are intended to be within the scope of the application as claimed. The scope of protection claimed by this application is defined by the following claims and their equivalents.

Claims (10)

1. A wire spool with bidirectional threads comprises a mounting rack, a wire winding roll, a rotating shaft and a guide mechanism, wherein the wire winding roll is coaxially arranged on the rotating shaft, and the rotating shaft is rotatably arranged on the mounting rack; the guide mechanism is characterized by comprising a guide frame, a guide block, a cylindrical rod and a limiting rod, wherein the cylindrical rod is rotatably arranged on the mounting frame, a bidirectional thread groove is formed in the outer ring surface of the cylindrical rod, and the bidirectional thread groove is connected end to end; the limiting rod is arranged on the mounting frame, and the rotating shaft, the cylindrical rod and the limiting rod are parallel to each other; the guide frame is provided with a first sliding hole and a second sliding hole, the first sliding hole is arranged on the cylindrical rod in a sliding mode, and the second sliding hole is arranged on the limiting rod in a sliding mode; the guide block is in a crescent structure, is arranged on the guide frame and is arranged in the bidirectional thread groove in a sliding manner; when the cylindrical rod is rotated, the guide block slides along the bidirectional threaded groove and forces the guide frame to reciprocate along the axial direction of the wire winding disc, so that the wire harnesses carried on the guide frame can be uniformly distributed along the axial direction of the wire winding disc.

2. The wire spool with the bidirectional screw according to claim 1, wherein the guide frame is provided with receiving holes having a circular structure, the receiving holes being arranged in a radial direction of the first sliding hole; keep away from on the guide block the one end of two-way thread groove is equipped with the connecting block, the lateral wall of connecting block with the inside wall contact of accommodation hole, just keep away from on the accommodation hole the one end of first slide opening is equipped with locking screw, locking screw can restrict the guide block with two-way thread groove separation.

3. The wire spool having bidirectional threads as set forth in claim 2, wherein a spring is provided between said locking screw and said connecting block.

4. The wire spool according to claim 3, wherein said connecting block has a semi-spherical receiving groove at an end thereof remote from said guide block, said receiving groove receiving a ball therein, said ball contacting said spring to limit said spring from contacting said connecting block.

5. The wire spool with the bidirectional screw according to claim 2, wherein the guide frame includes an upper fixing frame, a lower fixing frame, a left clamping plate, and a right clamping plate, the first slide hole and the receiving hole are disposed on the upper fixing frame, and the second slide hole is disposed on the lower fixing frame; the upper fixing frame and the lower fixing frame are arranged between the left clamping plate and the right clamping plate, first through holes are formed in the upper ends and the lower ends of the left clamping plate and the right clamping plate, and the cylindrical rod and the limiting rod can penetrate through the first through holes.

6. The wire spool with the bidirectional thread as recited in claim 5, wherein a first wear-resistant bushing is disposed between the first sliding hole and the cylindrical rod, the first wear-resistant bushing is disposed on the guide frame, and a relief hole is disposed on the first wear-resistant bushing at a position corresponding to the receiving hole; and a second wear-resistant shaft sleeve is arranged between the second sliding hole and the limiting rod, the second wear-resistant shaft sleeve is arranged on the guide frame, and the first wear-resistant shaft sleeve and the second wear-resistant shaft sleeve cannot penetrate through the first through hole.

7. The wire spool with bidirectional threads as recited in claim 1, further comprising a driving motor, a transmission mechanism and a wireless control module, wherein said driving motor and said wireless control module are disposed on said mounting bracket, said driving motor is electrically connected to said wireless control module, and an output shaft of said driving motor is connected to said rotating shaft through said transmission mechanism.

8. The wire spool with bidirectional threads as set forth in claim 7, further comprising a transmission assembly disposed between said shaft and said cylindrical rod.

9. The wire spool with bidirectional threads as set forth in claim 1, further comprising a crank disposed on said cylindrical rod, said crank being located outside of said mounting bracket.

10. The wire spool according to any one of claims 1 to 9, wherein at least one pair of guide wheels is rotatably provided on the guide frame, a groove having a ring structure is coaxially provided on an outer circumferential surface of the guide wheel, and a clamping area for clamping the wire harness is formed between two grooves of the pair of guide wheels.

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