CN208600489U - Automatic takeup clipping apparatus - Google Patents

Abstract

The utility model discloses a kind of automatic takeup clipping apparatus, it include: winding mechanism, for axially moveable clamping drum, the winding mechanism drives the wire coil shaft to turn, and the mechanism integrally can at the uniform velocity shift reciprocately in the axial direction while band moving axis turns for the winding mechanism；Shearing mechanism, for cutting the wire rod.The utility model efficiently can furl neat and well spacedly drum on drum, after wire rod is around full drum, mechanically cut, whole-process automatic, be not necessarily to manual operation.

Description

Automatic takeup clipping apparatus

Technical field

The utility model relates to a kind of automatic takeup clipping apparatus.

Background technique

It is well known that wire rod is in production and requires to store after, to avoid stacking at random and unified pipe Reason.Specifically for example: the wire and cable of electric power is often used cable winder and is driven coil winder to wind the electric wire of all size Cable；The pipeline optical cable of communication is often used pipeline admission machine and is carried out take-up in a manner of Mechanical course, can generally be accommodated in take-up On disk.

And on press production line, copper wire is rolled by calender, then copper wire is wound on drum or shaft.However, due to Copper wire can plurality of layers be on drum around the home side by side, and existing spiral mode (manually winding or easy wrap-up) is all very It is difficult to guarantee copper wire wire rod neatly and efficiently winds on drum.

Utility model content

The purpose of this utility model is to overcome deficiencies in the prior art, provide a kind of automatic takeup clipping apparatus.

In order to achieve the above object, being achieved through the following technical solutions:

A kind of automatic takeup clipping apparatus, comprising:

Winding mechanism is used for axially moveable clamping drum, and the winding mechanism drives the wire coil shaft to turn, the coiling The mechanism integrally can at the uniform velocity shift reciprocately in the axial direction while band moving axis turns for mechanism；

Shearing mechanism, for cutting the wire rod.

Preferably, the winding mechanism includes pedestal, and the pedestal includes the installation inclined-plane tilted down, and the installation is oblique Face be equipped with pilot unit, the pilot unit be equipped be spaced apart from each other and can synchronization-sliding at least two coiling bases, institute The axis both ends for stating drum are held on respectively between two coiling bases, drive the drum certainly by the coiling base Axis turns.

Preferably, the pilot unit includes the track being fixedly arranged on the installation inclined-plane and is installed on the installation tiltedly Electronic link assembly under face, two coiling bases are slidedly arranged on the track by synchronization-sliding plate, the electronic company Bar assembly connect with the synchronization-sliding plate and then two coiling bases is driven to slide in the same direction simultaneously.

Preferably, the electronic link assembly includes traction link block, rotary screw and screw rod fixed block, the traction One end of link block passes through the installation inclined-plane and then is fixed in the synchronization-sliding plate, between at least two pieces of screw rod fixed blocks Every the lower surface for being fixed on the installation inclined-plane, the rotary screw is arranged on two pieces of screw rod fixed blocks and equipped with certainly Axis turns control motor, and the rotary screw can transfer not form relative displacement from axis relative to the screw rod fixed block, described to lead The other end for drawing link block is screwed together in outside the rotary screw, in turn, described in the positive and negative rotation drive by the rotary screw The sliding of synchronization-sliding plate.

Preferably, the coiling base of at least one on synchronization-sliding plate described in same can the relatively described synchronization-sliding Plate generates the spacing for being displaced and then changing between two coiling bases.

Preferably, the first coiling base and the second coiling base, institute are respectively equipped on synchronization-sliding plate described in same It states the first coiling base to be fixed on the synchronization-sliding plate, the first coiling base is equipped with starting control motor and then controls It makes the drum to turn from axis, the second coiling base is slidedly arranged on the synchronization-sliding plate and equipped with sliding control motor.

Preferably, the winding mechanism and the shearing mechanism are mounted on basic mounting surface.

Preferably, the shearing mechanism is set to the side of the winding mechanism, and the shearing mechanism includes being set to the base The top of fixed frame on plinth mounting surface, the fixed frame is equipped with air-leg component, the promote-side of the air-leg component Equipped with mechanical scissor, the mechanical scissor stretches to the line being clamped on the winding mechanism by the air-leg component Disk is for wire rod of the cutting on the completely described drum on sustained height.

The beneficial effect of the utility model automatic takeup clipping apparatus includes:

1) winding mechanism axial activity clamping drum and can control wire coil shaft and turn, and drum, can be while carrying out axis and turning The mechanism back and forth at the uniform velocity moves under driving along axis, keeps coiling neat；

2) shearing mechanism automatic shearing can break material on the sustained height of clamped drum, realize whole-process automatic, be not necessarily to It is artificial to cut wire rod.

Detailed description of the invention

Fig. 1 is the overall structure diagram of the utility model automatic takeup clipping apparatus.

Fig. 2 is the schematic perspective view of winding mechanism in Fig. 1.

Fig. 3 is the schematic perspective view of shearing mechanism in Fig. 1.

Fig. 4 is the first implementation status diagram of the utility model automatic takeup clipping apparatus.

Fig. 5 is the second implementation status diagram of the utility model automatic takeup clipping apparatus.

Fig. 6 is that the third of the utility model automatic takeup clipping apparatus implements status diagram.

Specific embodiment

The utility model is described in detail with reference to the accompanying drawing:

As shown in Figure 1, a kind of automatic takeup clipping apparatus, comprising:

Winding mechanism 2, be used for axially moveable clamping drum, the winding mechanism 2 drive the wire coil shaft turn, it is described around The mechanism integrally can at the uniform velocity shift reciprocately in the axial direction while band moving axis turns for line mechanism 2；

Shearing mechanism 5, for cutting the wire rod；

Basic mounting surface 1, the winding mechanism 2 and the shearing mechanism 5 are mounted on the basic mounting surface 1.

As shown in Fig. 2, the winding mechanism 2 includes pedestal 20, the pedestal 20 includes the installation inclined-plane 21 tilted down, The length direction on the installation inclined-plane 21 is equipped with pilot unit, and the pilot unit is equipped with and is spaced apart from each other and can synchronization-sliding At least two coiling bases 22/23, the axis both ends of the drum 99 be held on respectively two coiling bases 22/23 it Between, drive the drum 99 to turn from axis by the coiling base 22/23.

Specifically, the pilot unit includes being fixedly arranged on the track 24 of installation 21 upper surface of inclined-plane and being installed on institute The electronic link assembly of installation 21 lower surface of inclined-plane is stated, two coiling bases 22/23 are slidedly arranged on by synchronization-sliding plate 25 On the track 24, the electronic link assembly connect with the synchronization-sliding plate 25 and then drives two coiling bases 22/23 sliding in the same direction simultaneously.

Further, the electronic link assembly includes drawing link block 26, rotary screw 27 and screw rod fixed block 28, One end of the traction link block 26 passes through the installation inclined-plane 21 and then is fixed in the synchronization-sliding plate 25, at least two pieces of institutes It states screw rod fixed block 28 and is spaced the lower surface for being fixed on the installation inclined-plane 21, the rotary screw 27 is arranged in two pieces of spiral shells Turn control motor 270 on bar fixed block 28 and equipped with from axis, the rotary screw 27 can be relative to the screw rod fixed block 28 Relative displacement from axis then is not formed, the other end of the traction link block 26 is screwed together in outside the rotary screw 27, in turn, leads to The positive and negative rotation for crossing the rotary screw 27 drives the synchronization-sliding plate 25 to slide.

Meanwhile at least one described coiling base 23 on synchronization-sliding plate 25 described in same relatively described can synchronize cunning It moves plate 25 and generates the spacing for being displaced and then changing between two coiling bases 22/23.More preferably, described in same The first coiling base 22 and the second coiling base 23 are respectively equipped on synchronization-sliding plate 25, the first coiling base 22 is fixed In on the synchronization-sliding plate 25, the first coiling base 22 is equipped with starting control motor 220 and then controls the drum 99 turn from axis, and the second coiling base 23 is slidedly arranged on the synchronization-sliding plate 25 and equipped with sliding control motor 230.

In conjunction with shown in Fig. 1 and Fig. 3, the shearing mechanism 5 is set to the side of the winding mechanism 2, and the shearing mechanism 5 wraps The fixed frame 50 being installed on the basic mounting surface 1 is included, the top of the fixed frame 50 is equipped with air-leg component 54, described The promote-side of air-leg component 54 is equipped with mechanical scissor 52, and the mechanical scissor 52 is stretched by the air-leg component 54 The drum 99 being clamped on the winding mechanism 2 is for wire rod of the cutting on the completely described drum 99 on sustained height 98。

After with above structure feature, the utility model can be implemented by following procedure:

A. the drum 99 is clamped by 2 activity of winding mechanism.Specifically, as shown in figure 4, when the empty drum 99 when sliding on the winding mechanism 2, and the coiling base 22 of 23 opposing left of coiling base on right side is slipped away It opens a distance (the coiling base 22 in left side is fixed on synchronization-sliding plate 25), then the drum 99 is transferred to two institutes It states between coiling base 22/23, the coiling base 23 slided away is moved back to, so that by axial the two of the empty drum 99 Activity is clipped between two coiling bases 22/23 respectively at end.

B. mechanically, the wire rod 98 is delivered to the winding mechanism 2 automatically.

C. as shown in figure 4, the beginning of the wire rod 98 is adhered to the drum 99 by the adhesive tape 96 transferred Outer wall.Certainly, wire rod 98 can also be overlapped in the outer wall of drum 99 with other fixed forms, be not limited only to utilize adhesive tape 96 Mode.

D. as shown in Figure 4, it is only necessary to which the first coiling base 22 that starting is located at left side can drive the clamped drum 99 axis turn (the second coiling base 23 positioned at opposite right side is only used for clamping drum 99), meanwhile, start described electronic Link assembly is to drive the synchronization-sliding plate 25 to move back and forth along the axis direction of the drum 99 (such as double-head arrow institute in figure Show) so that 98 from coil to coil of the wire rod is orderly wound in the outer wall of the drum 99 layer by layer.

E. as shown in figure 5, to, around the completely described wire rod 98, mechanically cut the wire rod automatically on the drum 99 98 to form the end of the wire rod 98.Specifically, in conjunction with shown in Fig. 3 and Fig. 5, start the shearing mechanism 5, described in promotion Mechanical scissor 52 stretches to the end around the full drum and cut the wire rod 98, and then form the wire rod 98.

F. as shown in fig. 6, removing one section of adhesive tape 96 out of described adhesive tape mechanism 8 after the wire rod 98 cut, and The end of the wire rod 98 is adhered to the drum by the adhesive tape 96.

G. it will be removed automatically from the winding mechanism 2 around the drum of the completely described wire rod 98 and send out production line.

Automatic takeup clipping apparatus provided by the utility model can be efficiently furled drum neat and well spacedly on drum, After wire rod is around full drum, mechanically cut, it is whole-process automatic, it is not necessarily to manual operation.

The embodiments of the present invention are only used for being illustrated the utility model, do not constitute to scope of the claims Limitation, other substantially equivalent substitutions that those skilled in that art are contemplated that, in the protection model of the utility model In enclosing.

Claims (8)

1. a kind of automatic takeup clipping apparatus characterized by comprising

Winding mechanism is used for axially moveable clamping drum, and the winding mechanism drives the wire coil shaft to turn, the winding mechanism The mechanism integrally can at the uniform velocity shift reciprocately in the axial direction while band moving axis turns；

Shearing mechanism, for cutting wire rod.

2. automatic takeup clipping apparatus according to claim 1, which is characterized in that the winding mechanism includes pedestal, institute Stating pedestal includes the installation inclined-plane tilted down, and the installation inclined-plane is equipped with pilot unit, and the pilot unit is equipped with phase Mutually interval and can synchronization-sliding at least two coiling bases, the axis both ends of the drum are held on two coilings respectively Between base, the drum is driven to turn from axis by the coiling base.

3. automatic takeup clipping apparatus according to claim 2, which is characterized in that the pilot unit includes being fixedly arranged on institute The electronic link assembly stating the track on installation inclined-plane and being installed under the installation inclined-plane, two coiling bases pass through Synchronization-sliding plate is slidedly arranged on the track, and the electronic link assembly connect with the synchronization-sliding plate and then drives two institutes State the sliding in the same direction simultaneously of coiling base.

4. automatic takeup clipping apparatus according to claim 3, which is characterized in that the electronic link assembly includes traction One end of link block, rotary screw and screw rod fixed block, the traction link block passes through the installation inclined-plane and then is fixed in The lower surface on the installation inclined-plane, the rotation are fixed in the synchronization-sliding plate, the fixed block gap of at least two pieces of screw rods Screw rod is arranged on two pieces of screw rod fixed blocks and turns control motor equipped with from axis, and the rotary screw can be relative to described Screw rod fixed block transfers not form relative displacement from axis, and the other end of the traction link block is screwed together in outside the rotary screw, In turn, the synchronization-sliding plate is driven to slide by the positive and negative rotation of the rotary screw.

5. automatic takeup clipping apparatus according to claim 4, which is characterized in that on synchronization-sliding plate described in same At least one described coiling base can be between the relatively described synchronization-sliding plate generation displacement and then two coiling bases of change Spacing.

6. automatic takeup clipping apparatus according to claim 5, which is characterized in that divide on synchronization-sliding plate described in same Not She You the first coiling base and the second coiling base, the first coiling base is fixed on the synchronization-sliding plate, institute The first coiling base is stated equipped with starting control motor and then controls the drum from axis turn, the second coiling base is slidedly arranged on On the synchronization-sliding plate and equipped with sliding control motor.

7. automatic takeup clipping apparatus according to any one of claims 1 to 6, which is characterized in that the winding mechanism and The shearing mechanism is mounted on basic mounting surface.

8. automatic takeup clipping apparatus according to claim 7, which is characterized in that the shearing mechanism is set to the coiling The side of mechanism, the shearing mechanism include the fixed frame on the basic mounting surface, and the top of the fixed frame is equipped with Air-leg component, the promote-side of the air-leg component are equipped with mechanical scissor, and the mechanical scissor is pneumatically pushed away by described Bar assembly stretches to the drum clamped on the winding mechanism for cutting on the completely described drum on sustained height Wire rod.