CN209922600U - Intelligent wire drawing twisting winding machine - Google Patents

Abstract

The utility model provides an intelligence wire drawing twisting rolling machine, including the coiling mechanism body, coiling mechanism body front end is equipped with monofilament locating support, is equipped with a roll filament plate shelf between coiling mechanism body and the monofilament locating support, rolls up filament plate shelf and coiling mechanism body along fore-and-aft direction sliding connection, the coiling mechanism body is close to and is equipped with the rolling subassembly on a terminal surface of rolling filament plate, be equipped with monofilament locating component on the monofilament locating support, roll up the round hole internal surface on the filament plate and be equipped with rather than fixed complex's steel collar circle, be equipped with rather than matched with steel collar hook in the annular groove of steel collar circle. The beneficial effects of the utility model are that realize carrying out synchronous twisting to the monofilament at the in-process of monofilament rolling, reduced subsequent twisting process, shorten production time, improved numerical control automatic twisting machine production efficiency by a wide margin.

Description

Intelligent wire drawing twisting winding machine

Technical Field

The utility model relates to a fishing net technical field, especially the intelligent wire drawing twisting rolling machine of fishing net technique.

Background

The wire drawing process flow is as follows: heating and melting plastic resin raw materials, extruding monofilaments through a spinneret plate of a machine head to a cold water tank for cooling, then heating and stretching in a hot water tank, and finally rolling the monofilaments onto an I-shaped shaft or a straight pipe according to the required number of heads.

The winding device is a device of the last procedure in the wire drawing process flow, and winds the drawn monofilaments onto an I-shaped shaft or a straight pipe, and the drawn monofilaments are only a semi-finished product, and the wound monofilaments are raw materials of procedures of rope making, thread combining, net weaving and the like.

In the existing device, monofilaments are directly wound on an I-shaped shaft or a straight pipe driven by a motor according to the required number of heads after being led out from a last drafting auxiliary machine.

The existing winding device of the wire drawing machine can be used on the original old twisting and rope making equipment, and needs an operator to inspect the running condition of the equipment and timely eliminate faults; however, the filament bundle in the winding mode cannot be used on a numerical control automatic twisting machine, the automatic control system of the novel twisting machine is sensitive in induction, a large amount of automatic shutdown can be caused by the current package, and the equipment cannot work normally.

Therefore, the monofilaments need to be twisted properly, and then the monofilaments wound on the I-shaped shaft or the straight pipe are twisted, and the process of twisting needs to draw out the monofilaments on the I-shaped shaft or the straight pipe, twist the monofilaments by a twisting device and then wind the monofilaments on another I-shaped shaft or the straight pipe.

The existing winding device of the wire drawing machine cannot twist in the winding process, but draws out the monofilaments on the I-shaped shaft or the straight pipe again for twisting after winding, and needs to wind the monofilaments by the winding device of the wire drawing machine, the monofilaments on the I-shaped shaft or the straight pipe which are wound are drawn out again, twisted by the twisting device and then wound on another I-shaped shaft or the straight pipe, the wire drawing speed of the wire drawing machine is very high, the wire is 120 meters per minute, and the winding speed is faster than the twisting speed, so that enough space is needed for storing the I-shaped shaft or the straight pipe which is full of the monofilaments to be twisted.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming prior art not enough, provide a rational in infrastructure, satisfy follow-up processing equipment normal operating's requirement, solve the loose problem of package silk bundle, avoided the silk bundle appear in the use different in size, pile up the winding phenomenon, realize the twisting coiling mechanism to the silk bundle twisting simultaneously at the in-process of silk bundle rolling.

The technical scheme of the utility model is that: an intelligent wiredrawing twisting winding machine comprises a winding device body, a wiredrawing plate frame, a monofilament positioning support and a power supply driving system, wherein the winding device body, the wiredrawing plate frame and the monofilament positioning support are sequentially arranged in a front-back order, the wiredrawing plate frame is in sliding connection with the winding device body between the winding device body and the monofilament positioning support, a track or a sliding component is respectively arranged on the wiredrawing plate frame and the winding device body, the wiredrawing plate frame and the winding device body can move in position by sliding the sliding component on the track, the sliding component is arranged on the wiredrawing plate frame or the winding device body, a track matched with the sliding component is required to be arranged in the wiredrawing plate frame and the winding device body, namely the track or the sliding component is respectively arranged on the wiredrawing plate frame and the winding device body, and the sliding component is connected with a power device, the power device is an electric motor, the sliding assembly rotates through the rotation of the electric motor, the braking control and the moving range are realized through the electric motor, the back and forth reciprocating motion is realized through the positive and negative rotation principle of the electric motor, a limit switch is added on the first limit part and the second limit part or the displacement of each circle of rotation of the electric motor is used, and the control of the displacement of the sliding device moving in sequence is realized through methods such as a program and the like, so that the automatic control of the pulley is realized, and the automatic control of the back and forth reciprocating motion of the wire winding plate frame is realized.

The silk winding plate frame moves along the direction from the winding device body to the monofilament positioning support or the direction from the monofilament positioning support to the winding device body.

The silk winding plate frame comprises a silk winding plate, the silk winding plate is arranged between a winding device body and a monofilament positioning support, a winding assembly is arranged on one end face, close to the silk winding plate, of the winding device body, and the faces, adjacent to the winding assembly, of the winding assembly and the silk winding plate are perpendicular.

The rolling component on the rolling device body is more than or equal to 1, and when the rolling component is multiple, the rolling component can be arranged according to a matrix.

The winding device body comprises motor driving devices which are fixedly arranged on the winding device body and have the same number as winding components, the motor driving devices are fixedly arranged on the winding device body, the motor driving devices and the winding components have the same number, each winding component comprises a spindle shaft and a winding bobbin, one end of each spindle shaft, close to a filament winding plate, is fixedly connected with one end of each winding bobbin, a monofilament is wound on each winding bobbin, the spindle shafts and the winding bobbins are concentric, the central lines of the spindle shafts and the winding bobbins are in the same straight line, the other end of each spindle shaft is connected with a rotating shaft end of a motor driving device of the winding device body, the motor driving devices are fixedly arranged in the winding device body and are motors, each motor driving device is independently connected with one corresponding spindle shaft, each motor driving device is controlled to be opened and closed independently, and the preferred driving device is a servo motor capable of adjusting the rotating speed, the rotating speed of each servo motor can be independently adjusted through the control panel, so that the speed selected by the spindle shaft is adjusted, and a control system for adjusting the rotating speed of the servo motors is obtained through the prior art and can also be adjusted through connecting a frequency converter.

The spindle shaft and the winding bobbin which are connected with each other are vertical to the surface of the wire winding plate adjacent to the winding bobbin.

The wire winding plate is provided with round holes which penetrate through the plate surface and have the same number as the winding assemblies, the number of the round holes is the same as the number of the winding assemblies, the round holes correspond to the winding assemblies one by one, each round hole corresponds to one winding assembly, and the circle center of each round hole is positioned on the central line of the spindle shaft and the winding bobbin and the extension line of the central line of the spindle shaft and the winding bobbin and on a straight line formed by the central lines of the spindle shaft and the winding bobbin.

The winding assembly number is more than or equal to 1, the number of the motor driving devices in the winding device body and the number of the round holes in the wire winding plate are the same as the number of the winding assemblies, the winding assemblies are in one-to-one correspondence, each winding assembly is connected with one motor driving device in the winding device body, and the round holes in the wire winding plate are formed in the side surface of the winding wire barrel on each winding assembly.

The steel collar is characterized in that a steel collar ring is arranged on each round hole, the inner surface of each round hole is fixedly matched with the steel collar ring, the steel collar ring wraps the inner diameter and the edge of each round hole, the inner diameter of each steel collar ring is larger than the diameters of the upper end face and the lower end face of each winding bobbin, an annular groove is formed in the steel collar body and is parallel to the winding filament plates, the annular groove in each steel collar ring is close to the monofilament positioning support, a steel collar hook matched with the steel collar ring is arranged in the annular groove in each steel collar ring, the two ends of each steel collar hook are clamped on the two end faces of each steel collar ring respectively, one end of each steel collar hook is arranged in the annular groove of each steel collar.

The winding component is defined behind the round holes on the winding plate, the monofilament positioning component is arranged on the monofilament positioning support, the monofilament positioning component is arranged in front of each round hole on the winding plate and fixed on the monofilament positioning support, the monofilament positioning component comprises a positioning support and a bearing with a groove in the outer surface of an outer ring, one end of the positioning support is fixed on the monofilament positioning support, the other end of the positioning support is connected with the bearing, the direction of the bearing inner diameter is perpendicular to the direction of the monofilament, generally, the direction of the monofilament is parallel to the ground, namely, the direction of the bearing inner diameter is in the up-down direction, the inner diameter is perpendicular to the ground, and the outer surface of the outer ring at the cross section with the smallest outer surface diameter of the bearing outer ring is positioned on.

The wire winding plate is characterized in that a corresponding wire winding barrel is arranged in each round hole on the wire winding plate, namely, the periphery of the annular side surface of the wire winding barrel and the upper part of the annular side surface of the wire winding barrel correspond to the round holes on the wire winding plate, and the forward and backward movement track of the wire winding plate is the length of the wire winding barrel, namely, the forward and backward movement is carried out in the distance from the front end to the rear end of the wire winding barrel.

The monofilament positioning component is used for changing the movement direction of the monofilaments in all directions coming out of the wire drawing machine through the monofilament positioning component, so that the monofilaments move according to a required track, the movement track after the monofilaments are changed meets the requirements of the monofilament twisting and winding device during twisting and winding, the filament winding plate is arranged between the winding device body and the monofilament positioning support and moves back and forth along the direction from the winding device body to the monofilament positioning support or the direction from the monofilament positioning support to the winding device body, and the monofilaments are wound on the winding component.

The monofilament positioning support can be fixedly connected with the winding device body, can also be arranged on the horizontal ground and is fixed on the ground, and the power supply driving system is used for supplying power to all electrical elements and motors.

Preferably, the cross section of the bearing outer surface groove is V-shaped or U-shaped.

The utility model has the advantages and positive effects that: by adopting the technical scheme, the device solves the problem of loose packaged tows, avoids the phenomena of different lengths and stacking and winding in the use of the tows, and becomes a monofilament coiling device which is necessary to be matched with a numerical control automatic twisting machine for use. The synchronous twisting of the monofilaments is realized in the monofilament winding process, the subsequent twisting procedures are reduced, the production time is shortened, and the production efficiency of the numerical control automatic twisting machine is greatly improved; waste product consumption is reduced; the product quality is stable. The storage space for filling the single-wire I-shaped shaft or straight pipe is reduced, the device is easy to operate, and the labor intensity of workers is reduced.

Drawings

Fig. 1 is a front view of the present invention.

Fig. 2 is a plan view of the present invention.

Fig. 3 is a schematic diagram of the mechanism of the winding assembly according to the present invention.

Fig. 4 is a partially enlarged mechanism schematic view of the monofilament positioning assembly of the present invention.

In the figure:

1. coiling mechanism body 2, roll up silk grillage 3, monofilament locating support

4. Winding component 5, ring 6 and ring hook

7. Monofilament positioning component 21, wire winding plate 41 and spindle shaft

42. Winding bobbin 71, positioning bracket 72 and bearing

Detailed Description

As shown in fig. 1-4, the utility model relates to an intelligence wire drawing twisting rolling machine, including coiling mechanism body 1, 1 front end of coiling mechanism body is equipped with monofilament locating support 3, is equipped with wire winding plate shelf 2 between coiling mechanism body 1 and the monofilament locating support 3, and wire winding plate shelf 2 is along fore-and-aft direction sliding connection with coiling mechanism body 1.

The wire coiling plate frame 2 comprises a wire coiling plate 21, the wire coiling plate 21 is arranged between the coiling device body 1 and the monofilament positioning support 3, and a round hole penetrating through the plate surface is formed in the wire coiling plate 21.

And one end surface of the winding device body 1 close to the wire winding plate 21 is provided with a winding component 4, the winding component 4 and the wire winding plate 21 perpendicular to the wire winding plate.

The winding component 4 comprises a spindle shaft 41 and a winding bobbin 42, the central lines of which are on the same straight line, one end of the spindle shaft 41 is fixedly connected with one end of the winding bobbin 42, the other end of the spindle shaft 41 is connected with the winding device body 1, the winding bobbin 42 is arranged in a circular hole on the wire winding plate 21, and the circle center of the circular hole is on the central line of the winding bobbin 42.

The monofilament positioning bracket 3 is provided with a monofilament positioning component 7, the monofilament positioning component 7 comprises a bearing 72 with a groove on the outer ring outer surface, and the outer ring outer surface at the position of the minimum groove inner diameter of the bearing 72 is on the extension line of the straight line formed by the central lines of the spindle shaft 41 and the winding bobbin 42.

The inner surface of the round hole on the wire winding plate 21 is provided with a steel collar 5 fixedly matched with the wire winding plate, the inner diameter of the steel collar 5 is larger than the diameters of the upper end surface and the lower end surface of the wire winding cylinder 42, the surface of the steel collar 5 close to the monofilament positioning support 3 is provided with an annular groove, and the annular groove of the steel collar 5 is internally provided with a steel collar hook 6 matched with the steel collar hook.

A motor driving device is arranged in the winding device body 1, and the other end of the spindle shaft 41 is connected with a rotating shaft end of the motor driving device in the winding device body 1.

4 quantity of rolling component equals 36, rolling component 4 arranges according to the rectangle matrix, the round hole quantity on the book silk board 21 equals 36, monofilament locating component 7 quantity equals 36.

Each winding component 4 is connected with a motor driving device in the winding device body 1, each winding wire drum 42 is arranged in a round hole in the wire winding plate 21, each winding wire drum 42 corresponds to one bearing 72, each round hole in the wire winding plate 21 is provided with a steel collar 5 in fixed fit, and each steel collar 5 is provided with a steel collar hook 6 in fit.

The monofilament positioning component 7 further comprises a positioning support 71, one end of the positioning support 71 is fixed on the monofilament positioning support 3, the other end of the positioning support 71 is connected with a bearing 72, the direction of the inner diameter of the bearing 72 is located in the up-down direction, and the inner diameter is perpendicular to the ground.

The cross section of the groove on the outer surface of the bearing 72 is V-shaped.

While one embodiment of the present invention has been described in detail, the description is only a preferred embodiment of the present invention, and should not be considered as limiting the scope of the present invention. All the equivalent changes and improvements made according to the application scope of the present invention should still fall within the patent coverage of the present invention.

Claims (7)

1. The utility model provides an intelligence wire drawing twisting rolling machine, includes coiling mechanism body (1), its characterized in that: the winding device is characterized in that a monofilament positioning support (3) is arranged at the front end of the winding device body (1), a wire winding plate frame (2) is arranged between the winding device body (1) and the monofilament positioning support (3), and the wire winding plate frame (2) is connected with the winding device body (1) in a sliding mode along the front-back direction;

the filament rolling plate frame (2) comprises a filament rolling plate (21), the filament rolling plate (21) is arranged between the winding device body (1) and the monofilament positioning support (3), and a circular hole penetrating through the plate surface is formed in the filament rolling plate (21);

one end face, close to the wire winding plate (21), of the winding device body (1) is provided with a winding component (4), and the winding component (4) is perpendicular to the wire winding plate (21);

the winding assembly (4) comprises a spindle shaft (41) and a winding bobbin (42) of which the center lines are on the same straight line, one end of the spindle shaft (41) is fixedly connected with one end of the winding bobbin (42), the other end of the spindle shaft (41) is connected with the winding device body (1), the winding bobbin (42) is arranged in a circular hole in the wire winding plate (21), and the circle center of the circular hole is on the center line of the winding bobbin (42);

the monofilament positioning support (3) is provided with a monofilament positioning component (7), the monofilament positioning component (7) comprises a bearing (72) with a groove on the outer ring outer surface, and the outer ring outer surface at the position of the minimum inner diameter of the groove of the bearing (72) is on the extension line of the straight line formed by the central lines of the spindle shaft (41) and the winding bobbin (42);

the inner surface of the round hole on the wire coiling plate (21) is provided with a steel collar (5) fixedly matched with the wire coiling plate, the inner diameter of the steel collar (5) is larger than the diameter of the upper end surface and the lower end surface of the wire coiling cylinder (42), the surface of the steel collar (5) close to the monofilament positioning support (3) is provided with an annular groove, and the annular groove of the steel collar (5) is internally provided with a steel collar hook (6) matched with the annular groove.

2. The intelligent wiredrawing twisting winder according to claim 1, wherein: the winding device is characterized in that a motor driving device is arranged in the winding device body (1), and the other end of the spindle shaft (41) is connected with a rotating shaft end of the motor driving device in the winding device body (1).

3. The intelligent wiredrawing twisting winder according to claim 1 or 2, characterized in that: the number of the winding components (4) is more than or equal to 1, the number of the round holes on the filament winding plate (21) is more than or equal to 1, and the number of the monofilament positioning components (7) is more than or equal to 1.

4. The intelligent wiredrawing twisting winder according to claim 3, wherein: the winding device is characterized in that the number of the winding assemblies (4) is more than or equal to 1, each winding assembly (4) is connected with a motor driving device in the winding device body (1), each winding bobbin (42) is arranged in a round hole in the wire winding plate (21), each winding bobbin (42) corresponds to one bearing (72), each round hole in the wire winding plate (21) is provided with a steel collar ring (5) in fixed fit, and each steel collar ring (5) is provided with a matched steel collar hook (6).

5. The intelligent wiredrawing twisting winder according to claim 3, wherein: the winding assemblies (4) are arranged according to a matrix.

6. The intelligent wiredrawing twisting winder according to claim 1, wherein: the monofilament positioning component (7) further comprises a positioning support (71), one end of the positioning support (71) is fixed on the monofilament positioning support (3), the other end of the positioning support is connected with a bearing (72), and the direction of the inner diameter of the bearing (72) is perpendicular to the direction of the monofilament.

7. The intelligent wiredrawing twisting winder according to claim 1, wherein: the cross section of the groove on the outer surface of the bearing (72) is V-shaped or U-shaped.

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