CN216632435U - Automatic wire winding device of wire strainer - Google Patents

Abstract

The utility model discloses an automatic wire winding device of a wire strainer, which relates to the field of wire strainer production equipment, and adopts the technical scheme that the automatic wire winding device comprises a wire winding assembly and a shaping mold; the wire winding assembly comprises a rotary drum, a base station, a wire winding seat, a wire winding disc and a push rod; the shaping mould comprises a pin cylinder and a plurality of positioning plates which radiate outwards from the pin cylinder in the radial direction; the positioning plates are distributed in a one-to-one correspondence mode with the accommodating seams, a plurality of cracks are formed in the positioning plates in a mode that the positioning plates extend backwards from the front plate edge, and the cracks and the spiral steps are arranged in a one-to-one correspondence mode. This scheme can realize quick wire winding, can be very convenient after the wire winding fix its shape through the design mould to follow-up welding, whole process is simple and convenient, can show improvement production efficiency and reduction human cost, is applicable to mass production.

Description

Automatic wire winding device of wire strainer

Technical Field

The utility model relates to the field of a line strainer production device, in particular to an automatic wire winding device of a line strainer.

Background

The line leaks the utensil commonly used of kitchen the inside, its structure mainly includes strainer and handle, wherein the strainer includes the mutual welding in spiral iron wire and warp iron wire integrative, the processing of present strainer is manual to participate in more, wherein the spiral silk needs the workman to go to fix on the pivoted mould, then manual winding shaping, because the iron wire has certain toughness, the shape can not be fixed completely after the shaping, in the time of later stage welding warp iron wire, the shape precision of spiral iron wire can have great error, and this kind of scheme production efficiency is very low, and human cost is great, be unfavorable for large-scale production.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problems, the utility model provides the automatic wire winding device for the wire strainer, which can realize quick wire winding, can conveniently fix the shape of the wire strainer through a shaping die after wire winding so as to facilitate subsequent welding, has simple and convenient whole process, can obviously improve the production efficiency and reduce the labor cost, and is suitable for mass production.

The technical scheme adopted by the utility model for solving the technical problems is as follows: the automatic wire winding device of the wire strainer comprises a wire winding assembly and a shaping die;

the wire winding assembly comprises a rotary drum, a base station, a wire winding seat, a wire winding disc and a push rod;

the rotary drum is in rotating fit with the base station and is driven to rotate by a motor;

the front end of the rotary drum is provided with the wire winding seat and the wire winding disc;

the front end surface of the wire winding seat is fixed with the rear end surface of the wire winding disc, the front end of the wire winding disc is provided with a conical structure coaxial with the rotary drum, the side surface of the conical structure is provided with a spiral stepped structure, and the top of the conical structure is provided with a positioning clamping opening;

an inner hole in butt joint with a cylinder hole of the rotary cylinder is formed in the wire winding seat;

the wire winding disc is provided with a plurality of accommodating seams in a radial radiation manner from the axis, and the accommodating seams extend from the front end surface of the wire winding disc to the front section of the wire winding seat;

the push rod is matched with the rotary drum in a sliding mode, the push rod is matched with the rotary drum in a moving mode in an axial direction and a cylinder direction, the front end of the push rod extends to the front section of the inner hole of the wire winding, and the rear section of the push rod extends to the outside of the rear end of the rotary drum;

the shaping mould comprises a pin cylinder and a plurality of positioning plates which radiate outwards and radially from the pin cylinder;

the positioning plates are distributed in a one-to-one correspondence mode with the accommodating seams, a plurality of cracks are formed in the positioning plates in a mode that the positioning plates extend backwards from the front plate edge, and the cracks and the spiral steps are arranged in a one-to-one correspondence mode.

Before winding, the shaping die is inserted into the containing slot, the die slides into the containing slot of the winding seat, and at the moment, the rear plate of the die enters the inner hole along the middle part, so that the middle part of the rear plate edge of the die can be contacted with the front end of the push rod, one end of the rear plate of the die is outward, and the slots are distributed corresponding to each step of the spiral steps.

The front end face of the wire winding disc is arranged to be of a spiral step structure, the front end of the iron wire is positioned at the positioning clamping opening, then the rotary drum is rotated according to the direction of the spiral steps, the rotary drum drives the wire winding disc to rotate, and the wire winding disc drives the iron wire to be wound into a spiral shape along the spiral steps.

Then slide outwards through the push rod, the front end of push rod slides in the hole, along the contact with design mould backplate, will design the mould and outwards promote, because seam and spiral ladder are the one-to-one, the iron wire winding is on spiral ladder simultaneously, therefore when design mould outwards slided, the crack of design mould will carry the spiral silk, keeps the spiral shape with the spiral silk and takes off from the wire winding dish.

Preferably, the spatial positions of the seam bottoms of all the seams of the sizing die are correspondingly distributed on the cambered surface of the net leakage of the finished product line. When the shaping die and the spiral wire are taken off from the wire winding disc, the spiral wire is directly slid into the bottom of the crack of the shaping die, so that the shape for shaping the spiral wire is the shape of the line leakage which is finally made.

Preferably, a wire feeding assembly is further included, the wire feeding assembly is located on one side of the wire winding disc, and the wire feeding assembly comprises a transverse moving module, a longitudinal moving module and a traction clamping jaw;

the transverse moving module comprises a transverse sliding rail and a transverse driving seat, the transverse sliding rail is arranged in parallel to the rotating shaft of the rotating drum, and the transverse driving seat is matched with the transverse sliding rail in a sliding manner;

the longitudinal moving module comprises a longitudinal sliding rod and a longitudinal driving seat, the longitudinal driving seat is fixed on the transverse driving seat, the longitudinal sliding rod is in sliding fit with the longitudinal driving seat, and the longitudinal sliding rod is perpendicular to the transverse sliding rail;

one end of the longitudinal sliding rod, which is close to the wire winding disc, is provided with the traction clamping jaw;

and an automatic scissors is arranged between the wire feeding assembly and the wire winding disc.

Through the combination of the transverse moving module and the longitudinal moving module, the traction clamping jaw fixed at the end part of the longitudinal sliding rod can move to any point in a stroke interval. Therefore, the front end of the iron wire is firstly fixed on the traction clamping jaw, then the iron wire is pulled and fixed in the positioning clamping opening through the traction clamping jaw, the front end of the iron wire is released, the traction clamping jaw moves to the wire winding disc based on the principle, the wire winding disc is rotated to wind the wire, after the wire winding is finished, the traction clamping jaw moves to the connection part (the part surrounding the wire) of the spiral wire and the linear iron wire, one side of the traction clamping jaw is clamped and fixed, then the iron wire linear and the spiral wire are cut and separated through the scissors, the traction clamping jaw clamps and fixes the linear iron wire at the moment, and the linear iron wire can be pulled to continue to wind the next round.

Preferably, a feed wheel is provided in the other direction of the wire feed assembly relative to the wire forming drum. The iron wire is wound through the feeding rotating wheel and then is fixed at the positioning clamping opening of the wire winding disc, and the iron wire can be better fed to the wire winding disc through the feeding rotating wheel.

Preferably, the material blocking assembly comprises a base plate and contact plates, the surface of the base plate is vertically provided with a plurality of contact plates, the contact plates are distributed radially outwards from the center, the contact plates are arranged in a staggered mode corresponding to the containing gaps, the rear ends of the contact plates are fixed with the base plate, and the front ends of the contact plates are inclined plate edges matched with the front end face of the wire winding disc.

The material stopping assembly is buckled on the wire winding disc, the contact plate of the material stopping assembly and the accommodating gap are arranged in a staggered mode, so that when the shaping mold slides out of the accommodating gap, the spiral wire can be tightly pressed on the wire winding disc through the contact plate, the shaping mold can be matched with the spiral wire better, the spiral wire can be matched with the crack better, the contact plate can be staggered when the shaping mold slides out, and interference is avoided after each other. After the sizing die is completely matched with the spiral wire, the material blocking assembly is separated from the wire winding disc, the sizing die can be normally taken off from the wire winding disc at the moment, and the efficiency of the whole wire winding process is very high.

Preferably, the inclined plate of the contact plate is provided in a stepped shape along the corresponding spiral step. The spiral step shape that can better adaptation wire winding dish compresses tightly the spiral silk on the wire winding dish better.

Preferably, the material blocking assemblies are distributed corresponding to the wire winding disc, the substrate is fixed at the output end of the material blocking cylinder, and the output end of the material blocking cylinder is parallel to the direction of the axial lead of the rotary drum. Promote base plate and contact plate through keeping off the material cylinder and slide to one side of wire winding dish, and then detain on the wire winding dish, compress tightly fixedly to the spiral silk on the wire winding dish, avoid the spiral silk not hard up, compress tightly the process and can automize more.

The utility model has the beneficial effects that:

can realize quick wire winding through above scheme to can be very convenient after the wire winding fix its shape through the design mould, so that follow-up welding, whole process is simple and convenient, can show improvement production efficiency and reduction human cost, is applicable to mass production.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments will be briefly introduced below, it is obvious that the drawings in the following description are only three of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic structural view of a drum and a push rod according to an embodiment of the present invention;

FIG. 3 is a schematic view of a forming plate, a sizing die and a stock stop assembly in accordance with an embodiment of the present invention;

the device comprises a rotary drum 1, a wire winding seat 2, a wire winding disc 3, a spiral step 4, an accommodating seam 5, a positioning clamping opening 6, a material blocking cylinder 7, a contact plate 8, a base plate 9, electric scissors 10, a traction clamping jaw 11, a longitudinal driving seat 12, a feeding rotary wheel 13, a longitudinal sliding rod 14, a transverse driving seat 15, a transverse sliding rail 16, a push rod 17, an inner hole 18, a positioning plate 19, a pin cylinder 20, a shaping mold 21 and a clamping seam 22.

Detailed Description

For the purpose of enhancing the understanding of the present invention, the present invention will be described in further detail with reference to the accompanying drawings and examples, which are provided for the purpose of illustration only and are not intended to limit the scope of the present invention.

Examples

As shown in figure 1, the automatic wire winding device of the wire strainer comprises a wire winding assembly and a shaping die.

The wire winding assembly comprises a rotary drum 1, a base station, a wire winding seat 2, a wire winding disc 3 and a push rod 17.

The rotating drum 1 is in rotating fit with the base station, and the rotating drum 1 is driven to rotate by a motor.

The front end of the rotary drum 1 is provided with the wire winding seat 2 and the wire winding disc 3.

The front end face of the wire winding seat 2 is fixed with the rear end face of the wire winding disc 3, the front end of the wire winding disc 3 is of a conical structure coaxial with the rotary drum 1, the side face of the conical structure is of a spiral step 4 structure, and the top of the conical structure is provided with a positioning clamping opening 6.

An inner hole 18 for butt joint of the cylinder holes of the rotary cylinder 1 is arranged in the wire winding seat 2.

The wire winding disc 3 is provided with a plurality of accommodating seams 5 which are radially radiated from the axis, and the accommodating seams 5 extend from the front end surface of the wire winding disc 3 to the front section of the wire winding seat 2.

The push rod 17 is matched with the rotary drum 1 in a sliding mode, the push rod 17 is matched with the rotary drum 1 in an axial direction and a cylinder movement mode, the front end of the push rod 17 extends to the front section of the inner hole 18 for filament winding, and the rear section of the push rod 17 extends to the outside of the rear end of the rotary drum 1.

The shaping mold 21 includes a pin cylinder 20 and a plurality of positioning plates 19 radially radiating outward from the pin cylinder 20.

The positioning plates 19 are distributed in a one-to-one correspondence manner with the accommodating slits 5, a plurality of cracks 22 are formed in the positioning plates 19 in a mode that the positioning plates extend backwards from the front plate, and the cracks 22 are arranged in a one-to-one correspondence manner with the spiral steps 4.

Referring to fig. 3, before winding, the shaping mold 21 is inserted into the receiving slot 5, the shaping mold slides into the receiving slot 5 of the winding seat 2, and at this time, the rear plate of the shaping mold 21 enters the inner hole 18 along the middle part, so that the middle part of the rear plate of the shaping mold 21 can contact with the front end of the push rod 17, wherein the end with the slit 22 faces outwards, and the slit 22 is distributed corresponding to each step of the spiral step 4.

The preceding terminal surface of wire winding dish 3 sets up to spiral ladder 4 structure, and the front end of iron wire is fixed a position at location clamp mouth 6, then rotates rotary drum 1 according to spiral ladder 4's direction, and rotary drum 1 drives wire winding dish 3 and rotates, and wire winding dish 3 drives the iron wire and winds into the heliciform along spiral ladder 4.

Then the push rod 17 slides outwards, the front end of the push rod 17 slides into the inner hole 18 and contacts with the rear plate edge of the shaping mold, the shaping mold is pushed outwards, and the seams correspond to the spiral steps 4 one by one, and meanwhile, the iron wire is wound on the spiral steps 4, so when the shaping mold slides outwards, the seams of the shaping mold clamp the spiral wire, and the spiral wire is taken down from the wire winding disc 3 in a spiral shape.

The spatial positions of the seam bottoms of all the seams of the shaping die are correspondingly distributed on the cambered surface of the net leakage of the finished product line. When the sizing die and the spiral thread are removed from the winding disc 3, the spiral thread is directly slid into the bottom of the slit of the sizing die, and thus the shape of the spiral thread is the shape of the thread leakage which is finally desired to be made.

The wire feeding device also comprises a wire feeding assembly, wherein the wire feeding assembly is positioned on one side of the wire winding disc 3 and comprises a transverse moving module, a longitudinal moving module and a traction clamping jaw 11;

the transverse moving module comprises a transverse sliding rail 16 and a transverse driving seat, the transverse sliding rail 16 is arranged parallel to the rotating shaft of the rotating drum 1, and the transverse driving seat is matched with the transverse sliding rail 16 in a sliding manner;

the longitudinal moving module comprises a longitudinal sliding rod 14 and a longitudinal driving seat 12, the longitudinal driving seat 12 is fixed on the transverse driving seat, the longitudinal sliding rod 14 is in sliding fit with the longitudinal driving seat 12, and the longitudinal sliding rod 14 is perpendicular to the transverse sliding rail 16,

The end of the longitudinal slide 14 close to the winding disc 3 is provided with the pulling jaw 11.

And an automatic scissors is arranged between the wire feeding assembly and the wire winding disc 3.

By means of the combination of the transverse movement module and the longitudinal movement module, the pulling j aw 11 fixed to the end of the longitudinal slide 14 can be moved to any point of the travel interval. Therefore, the front end of the iron wire is firstly fixed on the traction clamping jaw 11, then the iron wire is traction fixed in the positioning clamping opening 6 through the traction clamping jaw 11, the front end of the iron wire is released, the traction clamping jaw 11 is moved to the wire winding disc 3 according to the principle, the wire winding disc 3 is rotated to wind the wire, after the wire winding is finished, the traction clamping jaw 11 is moved to the connection part (the part surrounding the wire) of the spiral wire and the linear iron wire, one linear side of the traction clamping jaw 11 is clamped and fixed, then the linear iron wire and the spiral wire are cut and separated through scissors, at the moment, the traction clamping jaw 11 clamps and fixes the linear iron wire, and the linear iron wire can be traction to continue to wind the next round.

A feeding rotating wheel 13 is arranged at the other direction of the wire feeding assembly of the wire winding disc 3. The iron wire is wound through the feeding runner 13 and then fixed in the positioning clamp opening 6 of the wire winding disc 3, and the iron wire can be better fed to the wire winding disc 3 through the feeding runner 13.

Keep off the material subassembly and include base plate 9 and contact plate 8, the face of base plate 9 is equipped with a plurality ofly immediately contact plate 8, each contact plate 8 outwards radiation distribution from the center, contact plate 8 corresponds accepts the seam 5 setting of staggering, contact plate 8's rear end with base plate 9 is fixed, contact plate 8's front end be with the hang plate edge of the preceding terminal surface adaptation of wire winding dish 3.

Keep off the material subassembly lock on wire winding dish 3, keep off the material subassembly contact plate 8 with accept the setting of staggering of seam 5, consequently the design mould when accepting roll-off in seam 5, contact plate 8 can compress tightly the spiral silk on wire winding dish 3, the spiral silk cooperation that the design mould can be better, the spiral silk can be better promptly the cooperation to the crack in, will stagger contact plate 8 in the time of the design mould roll-off simultaneously, avoid each other afterwards to take place the interference. After the sizing die is completely matched with the spiral wire, the material blocking assembly is separated from the wire winding disc 3, the sizing die can be normally taken off from the wire winding disc 3 at the moment, and the efficiency of the whole wire winding process is very high.

The inclined plate of the contact plate 8 is stepped along the corresponding spiral step 4. The spiral steps 4 of the forming disc 3 can be better adapted to better press the spiral wire against the forming disc 3.

The material blocking assembly corresponds to the wire winding disc 3 and is distributed, the substrate 9 is fixed at the output end of the material blocking cylinder 7, and the output end of the material blocking cylinder 7 is parallel to the direction of the axial lead of the rotary drum 1. Promote base plate 9 and contact plate 8 through keeping off material cylinder 7 and slide to one side of wire winding dish 3, and then detain on wire winding dish 3, compress tightly fixedly to the spiral silk on the wire winding dish 3, avoid the spiral silk not hard up, compress tightly the process and can automize more.

Can realize quick wire winding through above scheme to can be very convenient after the wire winding fix its shape through the design mould, so that follow-up welding, whole process is simple and convenient, can show improvement production efficiency and reduction human cost, is applicable to mass production.

In the scheme, the transverse moving module and the longitudinal moving module are common linear electric modules, which are the prior art, and therefore are not described in detail in the scheme. The cylinder that uses in this scheme also can adopt linear drive's such as electric putter device to replace.

The above embodiments should not limit the present invention in any way, and all technical solutions obtained by using equivalent alternatives or equivalent transformations fall within the protection scope of the present invention.

Claims (7)

1. The automatic wire winding device of the wire strainer is characterized by comprising a wire winding assembly and a shaping die;

the wire winding assembly comprises a rotary drum (1), a base station, a wire winding seat (2), a wire winding disc (3) and a push rod (17);

the rotary drum (1) is in rotating fit with the base station, and the rotary drum (1) is driven to rotate by a motor;

the front end of the rotary drum (1) is provided with the wire winding seat (2) and the wire winding disc (3);

the front end face of the wire winding seat (2) is fixed with the rear end face of the wire winding disc (3), the front end of the wire winding disc (3) is of a conical structure coaxial with the rotary drum (1), the side face of the conical structure is of a spiral step (4) structure, and the top of the conical structure is provided with a positioning clamping opening (6);

an inner hole (18) butted with a cylinder hole of the rotary cylinder (1) is formed in the wire winding seat (2);

the wire winding disc (3) is radially provided with a plurality of accommodating seams (5) from the axis, and the accommodating seams (5) extend from the front end surface of the wire winding disc (3) to the front section of the wire winding seat (2);

the push rod (17) is matched with the rotary drum (1) in a sliding mode, the push rod (17) is matched with the rotary drum (1) in a moving mode in an axial direction and a cylinder direction, the front end of the push rod (17) extends to the front section of the inner hole (18) for wire winding, and the rear section of the push rod (17) extends to the outside of the rear end of the rotary drum (1);

the shaping mould (21) comprises a pin barrel (20) and a plurality of positioning plates (19) which radiate outwards and radially from the pin barrel (20);

each positioning plate (19) is distributed in a one-to-one correspondence mode with the containing seams (5), a plurality of cracks (22) are formed in the positioning plates (19) in a mode that the positioning plates extend backwards from the front plate edge, and the cracks (22) are arranged in a one-to-one correspondence mode with the spiral steps (4).

2. The automatic wire winding device of the wire strainer according to claim 1, characterized in that: the spatial positions of the seam bottoms of all the seams (22) of the shaping mould (21) are correspondingly distributed on the cambered surface of the net leakage of the finished product line.

3. The automatic wire winding device of the wire strainer according to claim 1, wherein: the wire feeding device is characterized by also comprising a wire feeding assembly, wherein the wire feeding assembly is positioned on one side of the wire winding disc (3), and comprises a transverse moving module, a longitudinal moving module and a traction clamping jaw (11);

the transverse moving module comprises a transverse sliding rail (16) and a transverse driving seat (15), the transverse sliding rail (16) is arranged in parallel to the rotating shaft of the rotating drum (1), and the transverse driving seat (15) is matched with the transverse sliding rail (16) in a sliding manner;

the longitudinal moving module comprises a longitudinal sliding rod (14) and a longitudinal driving seat (12), the longitudinal driving seat (12) is fixed on the transverse driving seat (15), the longitudinal sliding rod (14) is in sliding fit with the longitudinal driving seat (12), and the longitudinal sliding rod (14) is perpendicular to the transverse sliding rail (16);

one end of the longitudinal sliding rod (14) close to the wire winding disc (3) is provided with the traction clamping jaw (11);

an automatic scissors is arranged between the wire feeding assembly and the wire winding disc (3).

4. The automatic wire winding device of the wire strainer according to claim 3, wherein: a feeding rotating wheel (13) is arranged in the other direction of the wire feeding assembly relative to the wire winding disc (3).

5. The automatic wire winding device of the wire strainer according to claim 1, wherein: keep off material subassembly and include base plate (9) and contact plate (8), the face of base plate (9) is equipped with a plurality of immediately contact plate (8), each contact plate (8) are from the outside radial distribution in center, contact plate (8) correspond accept seam (5) and stagger the setting, the rear end of contact plate (8) with base plate (9) are fixed, the front end of contact plate (8) be with the hang plate edge of wire winding dish (3) front end face adaptation.

6. The automatic wire winding device of the wire strainer according to claim 5, wherein: the inclined plate of the contact plate (8) is arranged in a step shape along the spiral step (4).

7. The automatic wire winding device of the wire strainer according to claim 5, wherein: the material blocking assembly is distributed corresponding to the wire winding disc (3), the substrate (9) is fixed at the output end of the material blocking cylinder (7), and the output end of the material blocking cylinder (7) is parallel to the direction of the axial lead of the rotary drum (1).

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