CN218988411U - Take-up device capable of increasing tension - Google Patents

Abstract

The application relates to the technical field of tin wire technology, in particular to a wire winding device capable of increasing tension. The key points of the technical scheme are as follows: comprises a platform arranged on the ground; the wire winding assembly is arranged on the platform and is used for drawing and winding the tin wire extruded by the wire extruder; the conveying frame is arranged on the platform and is used for compactly conveying the tin wire in the conveying process; the tensioning assembly is arranged on the platform and located between the winding assembly and the conveying frame and used for adjusting tensioning force of the tin wire in the conveying process. The method has the advantage of improving the tightness degree of the tin wire during coiling.

Description

Take-up device capable of increasing tension

Technical Field

The application relates to the technical field of tin wire technology, in particular to a wire winding device capable of increasing tension.

Background

Tin wires are an important material commonly used for manual electronic element welding, and are commonly used together with soldering flux, and the welding operation is performed by using the tin wires, so that the welding efficiency can be effectively improved. The production of tin wires generally comprises the steps of melting tin materials, casting blanks after melting, making the tin materials into rod-shaped blanks, then placing the rod-shaped blanks into a wire extruder to be converted into tin wires, taking up finished tin wires by a wire taking-up device arranged at one side of a discharge hole of the wire extruder, and finally packaging and warehousing.

The current common tin wire device comprises a wire coiling assembly and a conveying frame, and the tin wire slides on the conveying frame through the traction of the wire coiling assembly so as to achieve the wire coiling effect.

For the above related art, the tin wire is soft, so that the tin wire in the winding drum is not tightly wound due to the situation of wire collapse in the winding process, and the rewinding needs to be manually performed, so that improvement is needed.

Disclosure of Invention

In order to improve the tightness of tin wire winding, the application provides a wire winding device for increasing tension.

The application provides a take-up of increase tension adopts following technical scheme:

a take-up device for increasing tension comprises a platform arranged on the ground; the wire winding assembly is arranged on the platform and is used for drawing and winding the tin wire extruded by the wire extruder; the conveying frame is arranged on the platform and is used for compactly conveying the tin wire in the conveying process; the tensioning assembly is arranged on the platform and located between the winding assembly and the conveying frame and used for adjusting tensioning force of the tin wire in the conveying process.

Through adopting above-mentioned technical scheme, tensioning assembly adjusts the tin wire between coiling subassembly and the carriage, improves the tensioning degree of tin wire between coiling subassembly and the carriage to improve the inseparable degree when the tin wire is reeled.

Preferably, the winding assembly comprises a telescopic cylinder fixedly connected to the platform, a fixing frame rotatably connected to a telescopic rod of the telescopic cylinder and a winding motor arranged on one side of the fixing frame away from the telescopic cylinder, the other end of the fixing frame is fixedly connected to an output shaft of the winding motor, and the fixing frame is used for fixing the winding drum.

Through adopting above-mentioned technical scheme, mountable has the reel on the mount, fixes tin wire one end on the reel, and the spiral motor rotates in order to drive the reel and carry out the spiral action, and flexible cylinder drives reel reciprocating motion to make the even interval of tin wire wind on the reel, make the compact and even of arranging simultaneously of the tin wire of coiling on the reel.

Preferably, the conveying frame comprises a frame body fixedly connected to the platform and a plurality of conveying discs rotatably connected to the frame body, and the conveying discs are arranged on the platform at intervals.

Through adopting above-mentioned technical scheme, through the delivery disc on the carriage to increase the distance that the tin wire comes out to the reel from the extruding machine, guarantee the abundant cooling of tin wire, reduce the not hard up that the tin wire cooling arouses on the reel, thereby improve the compact degree that the tin wire was wound up.

Preferably, the tensioning assembly comprises a lifting installation seat which is slidably connected with the platform, a rotating piece which is rotatably connected with the lifting installation seat, and a driving motor which is arranged on one side of the lifting installation seat, and an output shaft of the driving motor is fixedly connected with the rotating piece in a coaxial manner.

Through adopting above-mentioned technical scheme, driving motor drives the rotation piece and rotates, and the rotation direction of rotation piece is the same with the slip direction of tin wire, and the rotation speed of rotation piece is roughly the same with the speed that the tin wire slided, reduces the wearing and tearing of rotation piece to the tin wire, plays the effect of protection to the tin wire, can improve the compact degree that the tin wire was rolled up on the coil stock subassembly simultaneously.

Preferably, the bottom of the lifting installation seat is fixedly connected with a guide rod and is rotationally connected with a screw rod, and the screw rod and the guide rod are arranged along the vertical direction. The platform is provided with a threaded hole for threaded engagement of the screw rod and a sliding hole for sliding of the guide rod, a fixing nut is further arranged between the screw rod and the platform, and the fixing nut is in threaded engagement with the screw rod.

Through adopting above-mentioned technical scheme, drive the lift mount pad through rotating the screw rod and go up and down, the adjustment is quick, and the structure is reliable.

Preferably, the lifting installation seat is close to one side of the winding assembly and is also horizontally and fixedly connected with a sliding rail, and a plurality of limiting rods used for limiting the tin wire are connected to the sliding rail in a sliding manner.

Through adopting above-mentioned technical scheme, carry out spacingly to the tin wire through the gag lever post to reduce the swing of tin wire in the rotation in-process, thereby reduce the influence to the winding degree on the reel.

Preferably, the diameter of the rotating member decreases from the middle to both sides.

Through adopting above-mentioned technical scheme, when the accessible goes up and down the lift mount pad, the tin wire can reset to the middle part of rotating the piece, and the operating personnel of being convenient for simultaneously observes whether the tin wire skew.

Preferably, a take-up stand is arranged between the tensioning assembly and the winding assembly, and the take-up stand is used for adjusting the winding angle of the tin wire at the winding assembly.

By adopting the technical scheme, the tensioning assembly is enabled to adjust the winding angle without influencing the winding of the tin wire at the winding assembly, so that the stability of the whole device during tin wire winding is improved.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the tensioning assembly adjusts the tin wire between the wire coiling assembly and the conveying frame, and improves the tensioning degree of the tin wire between the wire coiling assembly and the conveying frame so as to improve the tightness degree of the tin wire during coiling;

2. a winding drum can be arranged on the fixing frame, one end of the tin wire is fixed on the winding drum, the winding motor rotates to drive the winding drum to perform winding action, and the telescopic cylinder drives the winding drum to reciprocate, so that the tin wire is uniformly wound on the winding drum at intervals, and the wound tin wire on the winding drum is compact and uniformly distributed;

3. through setting up the line frame, make tensioning assembly adjustment not influence the winding angle when coiling subassembly department tin wire is coiled, improve the stability when whole device tin wire is coiled.

Drawings

Fig. 1 is a schematic diagram of the overall structure in the embodiment of the present application.

Reference numerals illustrate: 1. a platform; 2. a coil winding assembly; 21. a telescopic cylinder; 22. a fixing frame; 3. a carriage; 31. a frame body; 32. a conveying tray; 4. a tensioning assembly; 41. lifting the mounting seat; 42. a rotating member; 43. a driving motor; 44. a guide rod; 45. a screw; 46. a fixing nut; 5. a slide rail; 6. a limit rod; 61. a sliding base; 62. a stud; 63. a fixing bolt; 7. a wire collecting frame; 71. and (3) a roll shaft.

Detailed Description

The present application is described in further detail below in conjunction with fig. 1.

The embodiment of the application discloses a take-up device for increasing tension.

Referring to fig. 1, the tension-increasing wire takeup device includes a platform 1 provided on the ground; the wire winding assembly 2 is arranged on the platform 1 and is used for drawing and winding the tin wire extruded by the wire extruder; the conveying frame 3 is fixedly connected to the platform 1 and is used for compactly conveying tin wires in the conveying process; and the tensioning assembly 4 is arranged on the platform and is positioned between the winding assembly 2 and the conveying frame 3 and used for adjusting the tensioning force of the tin wire in the conveying process. The tensioning assembly 4 can adjust the tensioning degree of the tin wire on the device, so that the tightness of the tin wire in winding can be improved.

The winding assembly 2 includes a telescopic cylinder 21 fixedly connected to the platform 1, a fixing frame 22 rotatably connected to a telescopic rod of the telescopic cylinder 21, and a winding motor disposed on one side of the fixing frame 22 far away from the telescopic cylinder 21, in this embodiment, a guide rail is disposed in the platform 1, and the winding motor can slide on the guide rail. The other end of the fixing frame 22 is fixedly connected to an output shaft of the winding motor, and the fixing frame 22 is used for fixing the winding drum. The telescopic cylinder 21 can drive the winding drum to reciprocate through the reciprocating motion of the telescopic rod, and meanwhile, the driving motor 43 drives the winding drum to rotate, so that the tin wire can be uniformly wound on the winding drum, and meanwhile, the tightness of the tin wire during winding is improved.

Meanwhile, the conveying frame 3 comprises a frame body 31 fixedly connected to the platform 1 and a plurality of conveying discs 32 rotatably connected to the frame body 31, in the embodiment, the conveying discs 32 are seven in number, the frame body 31 is fixed to the platform 1 through welding, the firmness between the frame body 31 and the platform 1 is improved, the shaking of the frame body 31 due to looseness is reduced, and therefore the tightness of tin wire winding is affected. The side wall of the conveying disc 32 is concavely arranged to reduce the influence of tin wire winding caused by the fact that the tin wire is separated from the conveying disc 32 in the sliding process. Seven conveying discs 32 are rotatably connected to the platform at intervals, and tin wires sequentially slide on the side walls of the conveying discs 32 from one end of a discharge hole of the wire extruder so as to increase the winding distance on the winding drum, thereby achieving the aim of full cooling.

In addition, the tensioning assembly 4 includes a lifting mounting seat 41 slidably connected to the platform 1, a rotating member 42 rotatably connected to the lifting mounting seat 41, and a driving motor 43 mounted on one side of the lifting mounting seat 41, where an output shaft of the driving motor 43 is fixedly connected coaxially with the rotating member 42. When lifting the lifting mounting seat 41, the rotating piece 42 is abutted with the surface of the tin wire, the driving motor 43 can drive the rotating piece 42 to rotate, friction between the rotating piece 42 and the tin wire is reduced, so that the quality of the tin wire is ensured, and meanwhile, the tightness degree of the tin wire during winding can be effectively improved after the tension is increased.

In order to avoid the tin wire from separating from the rotating piece 42, one side of the lifting installation seat 41, which is close to the winding assembly 2, is also horizontally and fixedly connected with a sliding rail 5, and a plurality of limiting rods 6 for limiting the tin wire are slidably connected onto the sliding rail 5. In this embodiment, the number of the limiting rods 6 is two, the limiting rods 6 comprise a sliding base 61 sliding on the guide rail and a stud 62 fixed on the sliding base 61, a screw hole is formed on one side of the sliding base 61 close to the conveying frame 3, and a fixing bolt 63 for fixing the limiting rods 6 on the guide rail is connected to the screw hole in a threaded manner. The tin wire is limited through the two limiting rods 6, and the tin wire is guaranteed to be arranged between the two limiting rods 6, so that the swing of the tin wire in the rotating process is reduced, and the influence on the winding degree on the winding drum is reduced.

In order to ensure that when the tensioning assembly 4 adjusts the tensioning force, the winding angle of the tin wire at the wire winding assembly 2 is reduced, a wire collecting frame 7 is fixedly arranged between the tensioning assembly 4 and the wire winding assembly 2, and the wire collecting frame 7 is used for adjusting the winding angle of the tin wire at the wire winding assembly 2. The take-up frame 7 further comprises two rotatable roll shafts 71, the two roll shafts 71 are arranged up and down at intervals, and the higher roll shaft 71 is positioned on one side of the winding drum. The take-up frame 7 enables the tensioning assembly 4 to adjust the winding angle without influencing the winding of the tin wire at the winding assembly 2, and improves the stability of the whole device during tin wire winding.

To facilitate the operator's observation of whether the tin wire is offset on the rotating member 42, the diameter of the rotating member 42 is reduced from the middle to both sides by lifting the lifting mount 41 to increase the tension. When lifting the lifting mounting seat 41, the tin wire can be reset to the middle part of the rotating piece 42 due to the action of tension force, and meanwhile, an operator can conveniently observe whether the tin wire is deviated or not.

Further, a guide rod 44 is fixedly connected to the bottom of the lifting mounting seat 41, a screw 45 is rotatably connected to the bottom of the lifting mounting seat, and the screw 45 and the guide rod 44 are arranged in the vertical direction. The platform 1 is provided with a threaded hole for the threaded engagement of the screw 45 and a sliding hole for the sliding of the guide rod 44, a fixing nut 46 is further arranged between the screw 45 and the platform 1, and the fixing nut 46 is in threaded engagement with the screw 45. The lifting installation seat 41 is driven to lift by rotating the screw 45, so that the adjustment is quick, and the structure is reliable.

The implementation principle of the take-up device for increasing tension in the embodiment of the application is as follows: the extruding machine extrudes tin material to form tin wire, and operating personnel winds the tin wire between the conveying discs 32 according to a set path, through two limiting rods 6, and then passes through the wire collecting frame 7, and finally one end of the tin wire is fixed on the winding drum, and the starting device enables the winding drum to wind the tin wire, when tension adjustment is needed, the screw 45 at the bottom of the lifting mounting seat 41 is rotated, so that the whole tension of the tin wire reaches the requirement, and the tightness degree of the tin wire during winding is improved.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (8)

1. The utility model provides a take-up of increase tension which characterized in that: comprises a platform (1) arranged on the ground;

the wire winding assembly (2) is arranged on the platform (1) and is used for drawing and winding the tin wire extruded by the wire extruder;

the conveying frame (3) is arranged on the platform (1) and is used for compactly conveying tin wires in the conveying process;

the tensioning assembly (4) is arranged on the platform and located between the winding assembly (2) and the conveying frame (3) and used for adjusting the tensioning force of the tin wire in the conveying process.

2. The tension-increasing wire takeup device of claim 1 wherein: the winding assembly (2) comprises a telescopic cylinder (21) fixedly connected to the platform (1), a fixing frame (22) rotatably connected to a telescopic rod of the telescopic cylinder (21) and a winding motor arranged on one side of the fixing frame (22) away from the telescopic cylinder (21), the other end of the fixing frame (22) is fixedly connected to an output shaft of the winding motor, and the fixing frame (22) is used for fixing a winding drum.

3. The tension-increasing wire takeup device of claim 1 wherein: the conveying frame (3) comprises a frame body (31) fixedly connected to the platform (1) and a plurality of conveying discs (32) rotatably connected to the frame body (31), and the conveying discs (32) are arranged on the platform at intervals.

4. The tension-increasing wire takeup device of claim 1 wherein: the tensioning assembly (4) comprises a lifting installation seat (41) which is slidably connected with the platform (1), a rotating piece (42) which is rotatably connected with the lifting installation seat (41) and a driving motor (43) which is arranged on one side of the lifting installation seat (41), and an output shaft of the driving motor (43) is fixedly connected with the rotating piece (42) in a coaxial mode.

5. The tension-increasing wire takeup device of claim 4 wherein: the lifting installation seat is characterized in that a guide rod (44) is fixedly connected to the bottom of the lifting installation seat (41) and is rotationally connected with a screw rod (45), the screw rod (45) and the guide rod (44) are arranged in the vertical direction, a threaded hole for the screw rod (45) to be in threaded engagement and a sliding hole for the guide rod (44) to slide are formed in the platform (1), a fixing nut (46) is further arranged between the screw rod (45) and the platform (1), and the fixing nut (46) is in threaded engagement with the screw rod (45).

6. The tension-increasing wire takeup device of claim 5 wherein: the lifting installation seat (41) is close to one side of the winding assembly (2) and is horizontally and fixedly connected with a sliding rail (5), and a plurality of limiting rods (6) used for limiting the tin wire are connected to the sliding rail (5) in a sliding manner.

7. The tension-increasing wire takeup device of claim 4 wherein: the diameter of the rotating member (42) decreases from the middle to both sides.

8. The tension-increasing wire takeup device of claim 1 wherein: and a take-up frame (7) is arranged between the tensioning assembly (4) and the winding assembly (2), and the take-up frame (7) is used for adjusting the winding angle of the tin wire at the winding assembly (2).

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