CN204102700U - Bus cable device and coil winding machine - Google Patents

Abstract

The utility model discloses a kind of bus cable device, and it comprises supporting seat, driving mechanism and wire-arranging mechanism.Wire feeder walked around by wire rod and through wire pressing device, when coiling, wire pressing device is in relaxed state, and wire rod moves to realize coiling along wire feeder and wire pressing device, and driving mechanism drives wire-arranging mechanism to move to realize winding displacement relative to supporting seat.After a coil winding completes, wire feeder moves relative to strutting piece in the opposite direction along with line sending side, and when wire feeder moves to ultimate range, wire pressing device compresses wire rod, wire feeder moves along the direction identical with line sending direction relative to strutting piece, thus the end of a thread of wire rod is elongated.The utility model additionally provides a kind of coil winding machine.The bus cable device that the utility model provides and coil winding machine, ensure that the continuity of coil winding machine coiling, substantially increases production efficiency and the functional reliability of coil winding machine.

Description

Bus cable device and coil winding machine

Technical field

The utility model relates to winding technique field, particularly relates to a kind of bus cable device and coil winding machine.

Background technology

Coil winding machine is the equipment object of wire is wound on specific workpiece, is generally used for copper cash and is wound around, to form coil.Coil winding machine can be applied to the winding of various motor, hollow-cup motor, rotor, stator, pin inductance, chip inductor, transformer, electromagnetically operated valve, a word inductance, resistor disc, ignition coil, RFID, instrument transformer, sound equipment coil, IC-card low-and high-frequency coil, focusing coil etc. coil, and application widely.The coil winding machine sold on the market is varied, and it has different design concepts separately, makes every effort to the instructions for use that can reach different user.Although the large activation of these coil winding machines meets instructions for use, but the wire-arranging mechanism of these coil winding machines be usually difficult to ensure coil winding machine coiling continuity, often occur that the Winder of coil winding machine cannot push down the phenomenon of the end of a thread, so just need to carry out artificial debugging, not only reduce production efficiency, also reduce the unfailing performance of coil winding machine work.

Utility model content

The purpose of this utility model be to solve the wire-arranging mechanism of coil winding machine in prior art be difficult to ensure coil winding machine coiling continuity, often occur that Winder cannot push down the technical problem of the phenomenon of the end of a thread.

For solving the problems of the technologies described above, the utility model provides following technical scheme:

Provide a kind of bus cable device on the one hand, it comprises supporting seat, driving mechanism and wire-arranging mechanism.Driving mechanism is positioned on described supporting seat.Wire-arranging mechanism comprises strutting piece, wire feeder and wire pressing device, described strutting piece is located at described supporting seat and is moved relative to described supporting seat, described wire feeder is located at described strutting piece and can be moved relative to described strutting piece, and described wire pressing device is positioned described wire feeder.Wherein, wire rod is walked around described wire feeder and is passed described wire pressing device, when coiling, described wire pressing device is in relaxed state, described wire rod moves to realize coiling along described wire feeder and described wire pressing device, and described driving mechanism drives described wire-arranging mechanism to move to realize winding displacement relative to described supporting seat.After a coil winding completes, described wire feeder moves relative to described strutting piece in the opposite direction along with line sending side, when described wire feeder moves to ultimate range, described wire pressing device compresses described wire rod, described wire feeder moves along the direction identical with described line sending direction relative to described strutting piece, thus the end of a thread of described wire rod is elongated.

Wherein, described wire feeder comprises the first actuator, supporting bracket and multiple wire-crossing wheel, described supporting bracket is connected described wire-crossing wheel with described strutting piece and is positioned described supporting bracket respectively, described wire-crossing wheel walked around successively by described wire rod, and described first actuator drives described supporting bracket to move relative to described strutting piece.

Wherein, described strutting piece comprises the first support bar and second support bar connected vertically with described first support bar, described supporting seat coordinates with described first support bar makes described first support bar move relative to described supporting seat, and described wire feeder coordinates with described second support bar makes described wire feeder move relative to described second support bar.

Wherein, described supporting seat is convexly equipped with the first draw runner, the bottom of described first support bar is provided with the first chute, described first draw runner moves in described first chute, described second support bar is convexly equipped with the second draw runner, the supporting bracket of described wire feeder is provided with the second chute, and described second draw runner moves in described second chute.

Wherein, described wire pressing device comprises the second actuator, fixed head, the first axle and the second axle, described fixed head and described first axle are individually fixed in described supporting bracket, described second axle is through described fixed head, described wire rod is arranged between described first axle and described second axle, and described second actuator drives described second axle to move to compress described wire rod towards the direction of described first axle.

Wherein, described wire-arranging mechanism also comprises cable guiding device, and described cable guiding device is fixed on the supporting bracket of described wire feeder, and described wire rod is through described cable guiding device.

Wherein, described cable guiding device comprises locating piece, connecting axle and traverse shaft, and described locating piece is fixed on described supporting bracket, and described connecting axle is convexly equipped in described locating piece, and described traverse shaft and described connecting axle are fixed, and described wire rod is through described traverse shaft.

Wherein, described driving mechanism comprises servo motor, screw mandrel and sliding part, described sliding part coordinates with described screw mandrel and fixes with described strutting piece, screw mandrel described in described servo motor driven rotates, and described sliding part moves along described screw mandrel thus drives described wire-arranging mechanism to move relative to described supporting seat.

Wherein, described mask is located on described supporting seat and is covered described screw mandrel and described sliding part.

On the other hand, provide a kind of coil winding machine, it comprises Winder and described bus cable device, and described Winder pushes down the coiling that the described the end of a thread be stretched carries out next coil.

As can be seen here, the bus cable device that the utility model provides and coil winding machine, to reach the length of the end of a thread extending wire rod relative to the movement of Winder and the synergy of wire pressing device and wire feeder by arranging wire feeder, thus guarantee that Winder is after the coiling completing a coil, the end of a thread can pushing down wire rod accurately carries out the coiling of next coil, thus ensure the continuity of described coil winding machine coiling, substantially increase production efficiency and the functional reliability of described coil winding machine.

Accompanying drawing explanation

In order to be illustrated more clearly in the technical solution of the utility model, be briefly described to the accompanying drawing used required in execution mode below, apparently, accompanying drawing in the following describes is only execution modes more of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained as these accompanying drawings.

Figure l is the three-dimensional assembly diagram of the bobbin winoler that the utility model embodiment provides.

Fig. 2 is the three-dimensional assembly diagram of bus cable device in Fig. 1.

Fig. 3 is the exploded view of the bus cable device shown in Fig. 2.

Embodiment

Below in conjunction with the accompanying drawing in the utility model execution mode, the technical scheme in the utility model execution mode is clearly and completely described.

Please refer to Fig. 1, the coil winding machine 100 that the utility model embodiment provides is for coiling lattice coil.Described coil winding machine 100 comprises bus cable device 1 and Winder 2, and wire rod 200 is delivered to described Winder 2 by described bus cable device 1, and described Winder 2 is while coiling, and described bus cable device 1 carries out winding displacement to realize the coiling of lattice coil.

To specifically introduce the structure of bus cable device 1 below.

Referring to Fig. 2 and Fig. 3, described bus cable device 1 comprises supporting seat 11, driving mechanism 12 and wire-arranging mechanism 13.

Described driving mechanism 12 is positioned on described supporting seat 11.

Described wire-arranging mechanism 13 comprises strutting piece 131, wire feeder 132 and wire pressing device 133.Described strutting piece 131 is located at described supporting seat 11 and is moved relative to described supporting seat 11.Described wire feeder 132 is located at described strutting piece 131 and can be moved relative to described strutting piece 131, and described wire pressing device 133 is positioned described wire feeder 132.

Wire rod 200 is walked around described wire feeder 132 and is passed described wire pressing device 133.When coiling, described wire pressing device 133 is in relaxed state, and described wire rod 200 moves to realize coiling along described wire feeder 132 and described wire pressing device 133.Meanwhile, described driving mechanism 12 drives described wire-arranging mechanism 13 to move to realize winding displacement relative to described supporting seat 11.

After a coil winding completes, described wire feeder 132 moves relative to described strutting piece 131 in the opposite direction along with line sending side.When described wire feeder 132 moves to ultimate range, described wire pressing device 133 compresses described wire rod 200, described wire feeder 132 moves along the direction identical with described line sending direction relative to described strutting piece 131, under the tensile force effect of described wire pressing device 133, the end of a thread of described wire rod 200 is elongated.Now, described Winder 2 pushes down the coiling that the described the end of a thread be stretched carries out next coil.

In other words, when Winder 2 coiling of coil winding machine 100, described wire pressing device 133 is in relaxed state, and wire rod 200 is walked around described wire feeder 132 successively and is transferred into described Winder 2 to realize coiling through described wire pressing device 133.Meanwhile, described wire-arranging mechanism 13 moves to realize winding displacement relative to described supporting seat 11.After a coil winding completes, described wire feeder 132 moves along the direction away from described Winder 2 relative to described strutting piece 131, and now, described Winder 2 compresses the end of a thread of described wire rod 200.

When described wire feeder 132 moves to ultimate range, described wire feeder 132 can move along the direction near described Winder 2 relative to described strutting piece 131.Meanwhile, described Winder 2 unclamps described the end of a thread, and described wire pressing device 133 compresses described wire rod 200 and extends to make described the end of a thread, thus completes the drawing process an of the end of a thread.

In the present embodiment, described wire feeder 132 can carry out twice the end of a thread drawing process along the direction near described Winder 2 and extend enough length to enable described the end of a thread, thus guarantees that the end of a thread that described Winder 2 can compress described prolongation exactly carries out the coiling of next coil.In other embodiments, the number of times of the end of a thread drawing process also can be set according to the demand of reality.

After the drawing process of the end of a thread completes, described Winder 2 compresses the end of a thread of described elongation to carry out the coiling of next coil.

The bus cable device 1 that the utility model provides and coil winding machine 100, the length of the end of a thread extending wire rod 200 is reached relative to the movement of Winder 2 and wire pressing device 133 with the synergy of wire feeder 132 by arranging wire feeder 132, thus guarantee that Winder 2 is after the coiling completing a coil, the end of a thread can pushing down wire rod 200 accurately carries out the coiling of next coil.As can be seen here, the bus cable device 1 that the utility model provides and coil winding machine 100, not only can realize line sending wire arrangement function while Winder 2 coiling, can also guarantee that Winder 2 can push down the coiling that the end of a thread carries out coil next time exactly simultaneously, thus ensure the continuity of described coil winding machine 100 coiling, substantially increase production efficiency and the functional reliability of described coil winding machine 100.

In addition, described bus cable device 1 not only can realize line sending, winding displacement, can also guarantee that Winder 2 can push down the coiling that the end of a thread carries out coil next time exactly.Therefore, the bus cable device 1 that the utility model provides adopts simple structure to achieve several functions, greatly can reduce the manufacturing cost of coil winding machine 100.

Particularly, described wire feeder 132 comprises the first actuator 1321, supporting bracket 1322 and multiple wire-crossing wheel 1323.During installation, described supporting bracket 1322 is connected described wire-crossing wheel 1323 with described strutting piece 131 and is positioned described supporting bracket 1322 respectively.Described wire-crossing wheel 1323 walked around successively by described wire rod 200.Described first actuator 1321 drives described supporting bracket 1322 to move relative to described strutting piece 131.

Further, described strutting piece 131 comprises the first support bar 1311 and second support bar 1312 connected vertically with described first support bar 1311.Described supporting seat 11 coordinates with described first support bar 1311 makes described first support bar 1311 move relative to described supporting seat 11.Described wire feeder 132 coordinates with described second support bar 1312 makes described wire feeder 132 move relative to described second support bar 1312.

Further, described supporting seat 11 is convexly equipped with the first draw runner 111, and the bottom of described first support bar 1311 is provided with the first chute 4, and described first draw runner 111 is mobile to realize the movement of described wire-arranging mechanism 13 relative to described supporting seat 11 in described first chute 4.Described second support bar 1312 is convexly equipped with the second draw runner 3, and the supporting bracket 1322 of described wire feeder 132 is provided with the second chute 5, and described second draw runner 3 is mobile to realize the movement of described wire feeder 132 relative to described strutting piece 131 in described second chute 5.

Described wire pressing device 133 comprises the second actuator 1334, fixed head 1331, first axle 1332 and the second axle 1333.During installation, described fixed head 1331 and described first axle 1332 are individually fixed in described supporting bracket 1322, and described second axle 1333 is through described fixed head 1331, and described wire rod 200 is arranged between described first axle 1332 and described second axle 1333.Described second actuator 1334 drives described second axle 1333 to move to compress described wire rod 200 towards the direction of described first axle 1332.

In present embodiment, described first actuator 1321 and described second actuator 1334 are cylinder.

As further improvement of the utility model, described wire-arranging mechanism 13 also comprises cable guiding device 134.During installation, described cable guiding device 134 is fixed on the supporting bracket 1322 of described wire feeder 132, and described wire rod 200 is through described cable guiding device 134.The setting of described cable guiding device 134, can prevent wire rod 200 from departing from the process of described bus cable device 1 line sending, to guarantee the accuracy of coiling.

Particularly, described cable guiding device 134 comprises locating piece 1341, connecting axle 1342 and traverse shaft 1343.During installation, described locating piece 1341 is fixed on described supporting bracket 1322, and described connecting axle 1342 is convexly equipped in described locating piece 1341, and described traverse shaft 1343 is fixed with described connecting axle 1342, and described wire rod 200 is through described traverse shaft 1343.

Described driving mechanism 12 comprises servo motor 121, screw mandrel 122 and sliding part 123.Described sliding part 123 coordinates with described screw mandrel 122 and fixes with described wire-arranging mechanism 13.Described servo motor 121 drives described screw mandrel 122 to rotate, thus drives sliding part 123 to move to realize the movement of described wire-arranging mechanism 13 relative to described supporting seat 11.

As can be seen here, the bus cable device 1 that the utility model provides, by adopting screw mandrel 122 rectilinear direction that the rotation of servo motor 121 circumferencial direction is converted to described sliding part 123 to be moved, thus described wire-arranging mechanism 13 is driven to move in rectilinear direction relative to supporting seat 11, to realize accurate winding displacement.

In present embodiment, described first support bar 1311 is fixedly connected with described sliding part 123.The mobile of described sliding part 123 drives described strutting piece 131 to move relative to described supporting seat 11.

In present embodiment, described driving mechanism 12 also comprises shaft coupling 125 and bearing pedestal 124, and between the rotating shaft that described shaft coupling 125 is connected to described servo motor 121 and described screw mandrel 122, described bearing pedestal 124 is for supporting described screw mandrel 122.

Further, described bus cable device 1 also comprises mask 14, described mask 14 is located on described supporting seat 11 and is covered described screw mandrel 122 and described sliding part 123, described screw mandrel 122 is contacted and injured to prevent operating personnel, can also prevent dust impurity from entering described screw mandrel 122, to improve the transmission performance of screw mandrel 122 simultaneously.

The above is preferred implementation of the present utility model; it should be pointed out that for those skilled in the art, under the prerequisite not departing from the utility model principle; can also make some improvements and modifications, these improvements and modifications are also considered as protection range of the present utility model.

Claims (10)

1. a bus cable device, is characterized in that, described bus cable device comprises:

Supporting seat;

Driving mechanism, is positioned on described supporting seat; And

Wire-arranging mechanism, comprise strutting piece, wire feeder and wire pressing device, described strutting piece is located at described supporting seat and is moved relative to described supporting seat, and described wire feeder is located at described strutting piece and can be moved relative to described strutting piece, and described wire pressing device is positioned described wire feeder;

Wherein, wire rod is walked around described wire feeder and is passed described wire pressing device, when coiling, described wire pressing device is in relaxed state, described wire rod moves to realize coiling along described wire feeder and described wire pressing device, and described driving mechanism drives described wire-arranging mechanism to move to realize winding displacement relative to described supporting seat;

After a coil winding completes, described wire feeder moves relative to described strutting piece in the opposite direction along with line sending side, when described wire feeder moves to ultimate range, described wire pressing device compresses described wire rod, described wire feeder moves along the direction identical with described line sending direction relative to described strutting piece, thus the end of a thread of described wire rod is elongated.

2. bus cable device as claimed in claim 1, it is characterized in that, described wire feeder comprises the first actuator, supporting bracket and multiple wire-crossing wheel, described supporting bracket is connected described wire-crossing wheel with described strutting piece and is positioned described supporting bracket respectively, described wire-crossing wheel walked around successively by described wire rod, and described first actuator drives described supporting bracket to move relative to described strutting piece.

3. bus cable device as claimed in claim 2, it is characterized in that, described strutting piece comprises the first support bar and second support bar connected vertically with described first support bar, described supporting seat coordinates with described first support bar makes described first support bar move relative to described supporting seat, and described wire feeder coordinates with described second support bar makes described wire feeder move relative to described second support bar.

4. bus cable device as claimed in claim 3, it is characterized in that, described supporting seat is convexly equipped with the first draw runner, the bottom of described first support bar is provided with the first chute, described first draw runner moves in described first chute, described second support bar is convexly equipped with the second draw runner, and the supporting bracket of described wire feeder is provided with the second chute, and described second draw runner moves in described second chute.

5. bus cable device as claimed in claim 2, it is characterized in that, described wire pressing device comprises the second actuator, fixed head, the first axle and the second axle, described fixed head and described first axle are individually fixed in described supporting bracket, described second axle is through described fixed head, described wire rod is arranged between described first axle and described second axle, and described second actuator drives described second axle to move to compress described wire rod towards the direction of described first axle.

6. bus cable device as claimed in claim 2, it is characterized in that, described wire-arranging mechanism also comprises cable guiding device, and described cable guiding device is fixed on the supporting bracket of described wire feeder, and described wire rod is through described cable guiding device.

7. bus cable device as claimed in claim 6, it is characterized in that, described cable guiding device comprises locating piece, connecting axle and traverse shaft, described locating piece is fixed on described supporting bracket, described connecting axle is convexly equipped in described locating piece, described traverse shaft and described connecting axle are fixed, and described wire rod is through described traverse shaft.

8. bus cable device as claimed in claim 1, it is characterized in that, described driving mechanism comprises servo motor, screw mandrel and sliding part, described sliding part coordinates with described screw mandrel and fixes with described strutting piece, screw mandrel described in described servo motor driven rotates, and described sliding part moves along described screw mandrel thus drives described wire-arranging mechanism to move relative to described supporting seat.

9. bus cable device as claimed in claim 8, it is characterized in that, described bus cable device also comprises mask, and described mask is located on described supporting seat and is covered described screw mandrel and described sliding part.

10. a coil winding machine, comprises Winder, it is characterized in that, described coil winding machine also comprises the bus cable device as described in claim 1 to 9 any one, and described Winder pushes down the coiling that the described the end of a thread be stretched carries out next coil.