CN202905285U - A doubling winder - Google Patents

Abstract

The utility model provides a doubling winder comprising a wire releasing device, a touch control device, a wire winding device, and a bobbin-wire forming device. The touch control device comprises touch rods and a sensing shaft which is disposed in the touch control device and which is connected with a controller. The ends of the touch rods are disposed on the sidewall of the touch control device, while the other ends of the touch rods are equipped with small holes used for passing metal wires through. The bobbin-wire forming device comprises a bobbin and a motor. The bobbin is driven by the motor to rotate. The wire winding device is disposed on a transmission shaft which is driven by an electrical device to move left and right. After released by the wire releasing device, multiple strands of metal wires pass through the small holes on the touch rods and are wound into one strand by the wire winding device. Then the one stand metal wire is wound on the bobbin. The controller is connected with the motor. The beneficial effects of the doubling winder are that the doubling winder can be automatically stopped from rotating after the metal wires are fractured or wound so that advantages of reducing burden of manual labor and enterprise cost are achieved.

Description

A kind of doubling winder

Technical field

The utility model belongs to electric wire manufacturing equipment field, especially relates to a kind of doubling winder.

Background technology

Before cables manufacturing, at first will be by doubling winder with strands of metal wire and become one, because in the process of doubling, rotating speed is very high, easily so that the wire fracture, and in the existing doubling winder, still continuing to twine silk thread after the wire fracture, can make like this wire that makes to satisfy the requirement of performance and number of share of stock, need to artificial continual winding process wiry monitored, can cause so a large amount of wastes of manpower and materials, increase cost and the burden of enterprise.

Summary of the invention

Problem to be solved in the utility model provides a kind of doubling winder, especially so that wire in fracture or twine and can automatically stop operating after finishing, has reduced the burden of manpower work, has reduced entreprise cost.

For solving the problems of the technologies described above, the technical solution adopted in the utility model is: a kind of doubling winder, comprise outgoing line device, contactor control device, Winder and become shaft device, described contactor control device comprises feeler lever and inductive axis, inductive axis is located at the inside of contactor control device, described inductive axis is connected with a controller, and the end of feeler lever is located on the sidewall of contactor control device, and the other end is provided with aperture and can be used for passing wire; Described one-tenth shaft device comprises coil and motor, described coil is rotated by driven by motor, described Winder is located on the power transmission shaft, described power transmission shaft drives move left and right by power equipment, after outgoing line device was emitted strands of metal wire, wire passed the aperture on the described feeler lever, and strands of metal wire is wound in one through Winder, be wrapped at last on the described coil, described controller links to each other with described motor.

Further, the quantity of described number of share of stock wiry and described feeler lever is complementary.

Further, the length of described feeler lever between L1 and L2, described L1 be the end of feeler lever to the distance of inductive axis, described L2 is that the end of feeler lever is to the distance of relative contactor control device sidewall.

Advantage and the good effect that the utlity model has are: owing to adopt technique scheme, can automatically stop operating after finishing so that the utlity model has wire in fracture or twine, reduce the burden of manpower work, reduce the advantages such as entreprise cost.

Description of drawings

Fig. 1 is structural representation of the present utility model

Fig. 2 is the vertical view of the utility model contactor control device

Fig. 3 is the end view of the utility model contactor control device

Among the figure:

1, outgoing line device 2, contactor control device 3, wire

4, controller 5, Winder 6, power transmission shaft

7, coil 8, motor 9, feeler lever

10, inductive axis

Embodiment

As shown in Figure 1, 2, 3, the utility model comprises outgoing line device 1, contactor control device 2, Winder 5 and becomes shaft device, described contactor control device 2 comprises feeler lever 9 and inductive axis 10, inductive axis 10 is located at the inside of contactor control device 2, described inductive axis 10 is connected with a controller 4, the end of feeler lever 9 is located on the sidewall of contactor control device 2, and the other end is provided with aperture and can be used for passing wire 3; Described one-tenth shaft device comprises coil 7 and motor 8, described coil 7 is driven by motor 8 and rotates, described Winder 5 is located on the power transmission shaft 6, described power transmission shaft 6 drives move left and right by power equipment, after outgoing line device 1 is emitted strands of metal wire 3, wire 3 passes the aperture on the described feeler lever 9, the quantity of the number of share of stock of described wire 3 and described feeler lever 9 is complementary, strands of metal wire 3 is wound in one through Winder 5, be wrapped at last on the described coil 7, described controller 4 links to each other with described motor 8, the length of described feeler lever 9 is between L1 and L2, described L1 be the end of feeler lever 9 to the distance of inductive axis 10, described L2 is that the end of feeler lever 9 is to the distance of relative contactor control device 2 sidewalls.

The course of work of this example: when equipment is worked; power equipment drives power transmission shaft 6 move left and right; motor 8 band moving windings 7 rotate; this with regard to so that Winder 5 can back and forth wind the line to coil 7; after certain one metal wire 3 broke, the feeler lever 9 that passes this wire 3 can drop on inductive axis 10, and inductor 10 passes to controller 4 with signal; controller 4 control motors 8 stop operating, and can realize that wire 3 disconnects the purpose of rear autostop.Controller 4 can arrange the length of required winding in addition, and after coil 7 was wound to designated length, controller 4 can be controlled motor 8 and stop operating, can realize wire 3 twine finish after the purpose of autostop.Whole equipment can be a plurality of uses side by side simultaneously, and shuts down and only limit to wire 3 and disconnect or completed equipment, can not affect the normal operation of other equipment.

More than an embodiment of the present utility model is had been described in detail, but described content only is preferred embodiment of the present utility model, can not be considered to be used to limiting practical range of the present utility model.All equalizations of doing according to the utility model application range change and improve etc., all should still belong within the patent covering scope of the present utility model.

Claims (3)

1. doubling winder, it is characterized in that: comprise outgoing line device, contactor control device, Winder and become shaft device, described contactor control device comprises feeler lever and inductive axis, inductive axis is located at the inside of contactor control device, described inductive axis is connected with a controller, the end of feeler lever is located on the sidewall of contactor control device, and the other end is provided with aperture and can be used for passing wire; Described one-tenth shaft device comprises coil and motor, described coil is rotated by driven by motor, described Winder is located on the power transmission shaft, described power transmission shaft drives move left and right by power equipment, after outgoing line device was emitted strands of metal wire, wire passed the aperture on the described feeler lever, and strands of metal wire is wound in one through Winder, be wrapped at last on the described coil, described controller links to each other with described motor.

2. a kind of doubling winder according to claim 1, it is characterized in that: the quantity of described number of share of stock wiry and described feeler lever is complementary.

3. a kind of doubling winder according to claim 1 is characterized in that: the length of described feeler lever between L1 and L2, described L1 be the end of feeler lever to the distance of inductive axis, described L2 is that the end of feeler lever is to the distance of relative contactor control device sidewall.

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