CN218289921U - Automatic winding device for producing tin welding wires - Google Patents

Abstract

The utility model discloses a belong to tin welding wire apparatus for producing technical field, specifically be the automatic winding device of production tin welding wire, including brace table, guide roll one, guide roll two and guide roll three, the upper left end at the brace table is installed respectively to guide roll one, guide roll two and the guide roll three, the beneficial effects of the utility model are that: the disconnected tin soldering wire is clamped automatically and then pulled outwards, so that the tin soldering wire is far away from the wire cutter, the hand of a worker is protected, the hand is prevented from being accidentally injured, and meanwhile, the worker can conveniently pull out the tin soldering wire; through making two reels automatic rotate on the carousel, the workman only need insert the one end of reel to the soldering silk, and the reel rotates and can carry out the wire winding, when a reel carries out the wire winding, another reel can be followed the carousel and taken off, changes new reel, makes the reel constantly work, improves the wire winding of reel, takes off and the efficiency of changing.

Description

Automatic winding device for producing tin welding wires

Technical Field

The utility model relates to a soldering silk apparatus for producing technical field specifically is automatic winding device of production tin welding wire.

Background

Through patent office database retrieval publication No. CN112110287A, an automatic winding device for tin welding wires and a winding method thereof are disclosed, a tin welding wire needs to be wound after being extruded, after a reel is fully wound with the tin welding wire, the tin welding wire can be disconnected, a new reel is replaced to perform winding again, however, the disconnected tin welding wire needs to be manually pulled out and wound on the reel and then winding is continued, danger exists to hands when the tin welding wire is pulled out, the reel can continue winding after the new reel is taken down, and the winding efficiency of the tin welding wire is reduced, so that the automatic winding device for producing the tin welding wires is necessary.

SUMMERY OF THE UTILITY MODEL

The present invention has been made in view of the above and/or the problems existing in the existing automatic winding device for producing tin welding wires.

Therefore, the utility model aims at providing an automatic winding device for producing tin welding wires, which automatically clamps the disconnected tin welding wires and then pulls the tin welding wires outwards, so that the tin welding wires are far away from a wire cutter, thereby protecting the hands of workers, avoiding the hands from being accidentally injured and facilitating the workers to pull out the tin welding wires; through making the reel be provided with two, it is automatic to rotate on the carousel, the workman only need insert the one end of reel to the tin wire, the reel rotates and can carry out the wire winding, when a reel carries out the wire winding, another reel can be followed the carousel and taken off, change new reel, make the reel constantly work, improve the wire winding of reel, take off and the efficiency of changing, can solve above-mentioned present reel and wind after full line, can break off the tin wire, more change new reel and wind again, but the tin wire after the cutting off need manually pull out and continue to wind after winding on the reel again, there is the person danger in hand when pulling out the tin wire, and just can continue to wind after the reel need take off more change reel, the problem of the wire winding efficiency of tin wire has been reduced.

For solving the technical problem, according to the utility model discloses an aspect, the utility model provides a following technical scheme:

automatic winding device of production tin welding wire, it includes: supporting bench, guide roll one, guide roll two and guide roll three, the upper left end at the supporting bench is installed respectively to guide roll one, guide roll two and guide roll three, still includes:

the wire moving assembly is used for pulling the soldering wire to reduce the risk of hand injury and is arranged at the upper end of the support platform;

a winding components for conveniently coiling and taking off soldering silk, winding components installs the upper right end at a supporting bench.

As a production tin welding wire's automatic winding device's an optimal selection scheme, wherein: the wire moving assembly comprises a vertical plate, a transverse plate and a supporting frame, the vertical plate is installed at the upper end of the supporting table, the transverse plate is installed at the upper end of the vertical plate, and the supporting frame is installed at the upper end of the transverse plate.

As a production tin welding wire's automatic winding device's an optimal selection scheme, wherein: a first telescopic rod is installed at the upper end of the supporting frame, and a wire cutting knife is installed at the output end of the first telescopic rod.

As an automatic winding device of production tin welding wire an preferred scheme, wherein: the inner walls of the two side ends of the support frame are respectively rotatably provided with a first connecting shaft and a second connecting shaft, the right end of the first connecting shaft is provided with a first connecting rod, the left end of the second connecting shaft is provided with a second connecting rod, the left end of the support frame is provided with a first motor, and the first motor output end is connected with the first connecting shaft.

As an automatic winding device of production tin welding wire an preferred scheme, wherein: the right-hand member of connecting rod one installs telescopic link two, telescopic link three is installed to the left end of connecting rod two, the clamp splice is all installed to the output of telescopic link two and telescopic link three.

As an automatic winding device of production tin welding wire an preferred scheme, wherein: the winding assembly comprises a second motor, a support shaft and a turntable, the second motor is installed at the lower end of the support table, the support shaft is installed at the output end of the second motor, and the turntable is installed at the upper end of the support shaft.

As an automatic winding device of production tin welding wire an preferred scheme, wherein: the inner wall of the upper end of the rotary table is respectively provided with a first rotating shaft and a second rotating shaft in a rotating mode, and the outer walls of the first rotating shaft and the second rotating shaft are respectively provided with a clamping ring.

As an automatic winding device of production tin welding wire an preferred scheme, wherein: the outer wall of snap ring is pegged graft the reel, the plug wire hole has all been seted up at the both ends of reel, motor three is installed to the lower extreme of carousel.

Compared with the prior art:

the disconnected tin soldering wire is clamped automatically and then pulled outwards, so that the tin soldering wire is far away from the wire cutter, the hand of a worker is protected, the hand is prevented from being accidentally injured, and meanwhile, the worker can conveniently pull out the tin soldering wire;

through making the reel be provided with two, rotate on the carousel automatically, the workman only need insert the one end of reel to the soldering silk, the reel rotates and can carry out the wire winding, when a reel carries out the wire winding, another reel can be followed the carousel and taken off, changes new reel, makes the reel constantly work, improves the wire winding of reel, takes off and the efficiency of changing.

Drawings

FIG. 1 is a structural diagram of an automatic winding device for producing tin welding wires according to the present invention;

FIG. 2 is a schematic view of the installation of the snap ring in the automatic wire winding device for producing tin welding wires according to the present invention;

FIG. 3 is a schematic view of the installation of a wire cutter in the automatic wire winding device for producing tin welding wires according to the present invention;

FIG. 4 is a schematic view of the installation of the clamp blocks in the automatic wire winding device for producing tin welding wires according to the present invention;

fig. 5 is a schematic view of a reel in the automatic winding device for producing tin welding wires according to the present invention.

In the figure: the wire moving device comprises a supporting table 1, a first guide roller 11, a second guide roller 12, a third guide roller 13, a wire moving assembly 2, a vertical plate 21, a transverse plate 22, a supporting frame 23, a first telescopic rod 24, a wire cutting knife 25, a second telescopic rod 26, a third telescopic rod 261, a clamping block 262, a first connecting rod 27, a second connecting rod 271, a first connecting shaft 28, a second connecting shaft 281, a first motor 29, a wire winding assembly 3, a second motor 31, a supporting shaft 32, a rotary table 33, a third motor 34, a clamping ring 35, a first rotating shaft 36, a second rotating shaft 361, a reel 37 and a wire inserting hole 371.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, embodiments of the present invention will be described in further detail below with reference to the accompanying drawings.

The utility model provides an automatic winding device for producing tin welding wires, please refer to fig. 1-5, which comprises a support table 1, a first guide roll 11, a second guide roll 12 and a third guide roll 13;

a first guide roller 11, a second guide roller 12 and a third guide roller 13 are respectively arranged at the left upper end of the support platform 1, the first guide roll 11, the second guide roll 12, and the third guide roll 13 are used for guiding movement of the solder wire, and further include: the wire moving assembly 2 is used for pulling the tin soldering wires to reduce the risk of hand injury, and the wire moving assembly 2 is arranged at the upper end of the support table 1; a winding component 3 for facilitating the winding and the taking off of the soldering wire, wherein the winding component 3 is arranged at the upper right end of the supporting platform 1.

The wire moving assembly 2 comprises a vertical plate 21, a transverse plate 22 and a supporting frame 23, wherein the vertical plate 21 is installed at the upper end of the supporting table 1, the vertical plate 21 is used for supporting and installing the transverse plate 22, the transverse plate 22 is installed at the upper end of the vertical plate 21, the transverse plate 22 is used for supporting and installing the supporting frame 23 and also used for supporting the cutting-off effect of solder wires, the supporting frame 23 is installed at the upper end of the transverse plate 22 and used for supporting and installing a first telescopic rod 24, the upper end of the supporting frame 23 is provided with a first telescopic rod 24, the first telescopic rod 24 pushes a wire cutting knife 25 downwards to enable the wire cutting knife 25 to cut off the solder wires, the output end of the first telescopic rod 24 is provided with the wire cutting knife 25 and used for cutting off the solder wires, the inner walls of the two side ends of the supporting frame 23 are respectively and rotatably provided with a first connecting shaft 28 and a second connecting shaft 281, a first motor 29 drives the first connecting shaft 28 to rotate, and the first connecting shaft 28 drives a first connecting rod 27 to rotate, the right end of the first connecting shaft 28 is provided with a first connecting rod 27, the first connecting rod 27 is used for supporting a second telescopic rod 26 to rotate, the left end of the second connecting shaft 281 is provided with a second connecting rod 271, the second connecting rod 271 is used for supporting a third telescopic rod 261 to rotate, the left end of the support frame 23 is provided with a first motor 29, the output end of the first motor 29 is connected with the first connecting shaft 28, the right end of the first connecting rod 27 is provided with a second telescopic rod 26, the left end of the second connecting rod 271 is provided with a third telescopic rod 261, the output ends of the second telescopic rod 26 and the third telescopic rod 261 are provided with clamping blocks 262, the second telescopic rod 26 and the third telescopic rod 261 are used for pushing the clamping blocks 262, the clamping blocks are used for clamping the cut tin soldering wires, when the two clamping blocks 262 are attached together, the second telescopic rod 26 rotates, and the third telescopic rod 261 can be driven to rotate by taking the second connecting shaft 281 as a rotating shaft.

The winding assembly 3 comprises a second motor 31, a support shaft 32 and a rotary disc 33, the second motor 31 is installed at the lower end of the support platform 1, the second motor 31 is used for rotating the support shaft 32, the support shaft 32 is installed at the output end of the second motor 31, the support shaft 32 is used for supporting the rotary disc 33 to rotate, the rotary disc 33 is installed at the upper end of the support shaft 32, the rotary disc 33 is used for supporting a first rotary shaft 36 and a second rotary shaft 361 to rotate, a first rotary shaft 36 and a second rotary shaft 361 are respectively installed on the inner wall of the upper end of the rotary disc 33, the first rotary shaft 36 and the second rotary shaft 361 both rotate to drive a winding wheel 37 to rotate, a clamping ring 35 is installed on the outer walls of the first rotary shaft 36 and the second rotary shaft 361, the clamping ring 35 is not only used for clamping the winding wheel 37 and facilitating the winding wheel 37 to be pulled upwards and taken off, the outer wall of the winding wheel 35 is connected with the winding wheel 37 in an inserting mode, the winding wheel 37 rotates, wire is inserted into two insertion holes 371 at two ends of the winding wheel 37, then the winding wheel 37 rotates to drive the winding wheel 37 through the corresponding to drive the first rotary shaft 36 and the winding wheel 37, and the winding wheel 37 when a new winding wheel 37 is inserted into the winding wheel 361, and then the winding wheel 37, and a new winding wheel 37 can be taken off the winding wheel 37.

When the support platform is used specifically, the vertical plate 21 is installed at the upper end of the support platform 1, the horizontal plate 22 is installed at the upper end of the vertical plate 21, the support frame 23 is installed at the upper end of the horizontal plate 22, the first telescopic rod 24 is installed at the upper end of the support frame 23, the wire cutter 25 is installed at the output end of the first telescopic rod 24, the first connecting shaft 28 and the second connecting shaft 281 are respectively installed on the inner walls of the two side ends of the support frame 23 in a rotating mode, the first connecting rod 27 is installed at the right end of the first connecting shaft 28, the second connecting rod 271 is installed at the left end of the second connecting shaft 281, the first motor 29 is installed at the left end of the support frame 23, the output end of the first motor 29 is connected with the first connecting shaft 28, the second telescopic rod 26 is installed at the right end of the first connecting rod 27, the third telescopic rod 261 is installed at the left end of the second connecting rod 271, the clamping blocks 262 are installed at the output ends of the second telescopic rods 26 and the third telescopic rods 261, the motor 31 is installed at the lower end of the support platform 1, the rotary table 33 is arranged at the upper end of the supporting shaft 32, the inner wall of the upper end of the rotary table 33 is respectively and rotatably provided with a first rotating shaft 36 and a second rotating shaft 361, the outer walls of the first rotating shaft 36 and the second rotating shaft 361 are respectively provided with a snap ring 35, the outer wall of the snap ring 35 is inserted with a reel 37, two ends of the reel 37 are respectively provided with wire insertion holes 371, the lower end of the rotary table 33 is provided with a third motor 34, a tin welding wire is output from production equipment and guided to move through a first guide roller 11, a second guide roller 12 and a third guide roller 13, the tin welding wire penetrates through the upper end of the transverse plate 22, a first telescopic rod 24 downwards pushes the wire cutter 25, the wire cutter 25 cuts the tin welding wire, a second motor 31 drives the rotary table 33 to rotate, the rotary table 33 drives the reel 37 to rotate 180 degrees, then a second telescopic rod 26 and a third telescopic rod 261 are used for pushing the clamping blocks 262, the clamping blocks 262 are used for clamping the tin welding wire after cutting, and after the two clamping blocks 262 are tightly attached together, the second telescopic rod 26 rotates to drive the third telescopic rod 261 to rotate 180 degrees by taking the second connecting shaft 281 as a rotating shaft, the second telescopic rod 26 and the third telescopic rod 261 retract the clamping block 262, a worker takes a tin solder wire to insert into the wire inserting hole 371 of the reel 37, then the third motor 34 drives the reel 37 to rotate to wind the tin solder wire, and the reel 37 can take down another reel 37 after winding when winding works and then insert a new reel 37.

While the invention has been described above with reference to an embodiment, various modifications may be made and equivalents may be substituted for elements thereof without departing from the scope of the invention. In particular, as long as there is no structural conflict, the various features of the disclosed embodiments of the present invention can be used in any combination with each other, and the non-exhaustive description of these combinations in this specification is merely for the sake of brevity and resource conservation. Therefore, it is intended that the invention not be limited to the particular embodiments disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.

Claims (8)

1. Automatic winding device of production tin welding wire, including brace table (1), guide roll (11), guide roll two (12) and guide roll three (13), the upper left end at brace table (1) is installed respectively in guide roll (11), guide roll two (12) and guide roll three (13), its characterized in that still includes:

the wire moving assembly (2) is used for reducing the hand injury risk by pulling the soldering wires, and the wire moving assembly (2) is installed at the upper end of the support table (1);

a winding assembly (3) for facilitating winding and removal of tin soldering wires, the winding assembly (3) is mounted at the upper right end of the support table (1).

2. The automatic winding device for producing the tin welding wire is characterized in that the wire moving assembly (2) comprises a vertical plate (21), a transverse plate (22) and a supporting frame (23), the vertical plate (21) is installed at the upper end of the supporting table (1), the transverse plate (22) is installed at the upper end of the vertical plate (21), and the supporting frame (23) is installed at the upper end of the transverse plate (22).

3. The automatic winding device for producing the tin welding wire is characterized in that a first telescopic rod (24) is installed at the upper end of the supporting frame (23), and a wire cutter (25) is installed at the output end of the first telescopic rod (24).

4. The automatic winding device for producing the tin welding wire is characterized in that a first connecting shaft (28) and a second connecting shaft (281) are rotatably mounted on the inner walls of the two side ends of the supporting frame (23) respectively, a first connecting rod (27) is mounted at the right end of the first connecting shaft (28), a second connecting rod (271) is mounted at the left end of the second connecting shaft (281), a first motor (29) is mounted at the left end of the supporting frame (23), and the output end of the first motor (29) is connected with the first connecting shaft (28).

5. The automatic winding device for producing the tin welding wire is characterized in that a second telescopic rod (26) is installed at the right end of the first connecting rod (27), a third telescopic rod (261) is installed at the left end of the second connecting rod (271), and clamping blocks (262) are installed at the output ends of the second telescopic rod (26) and the third telescopic rod (261).

6. The automatic winding device for producing the tin welding wire is characterized in that the winding assembly (3) comprises a second motor (31), a supporting shaft (32) and a rotary table (33), the second motor (31) is installed at the lower end of the supporting table (1), the supporting shaft (32) is installed at the output end of the second motor (31), and the rotary table (33) is installed at the upper end of the supporting shaft (32).

7. The automatic winding device for producing the tin welding wire is characterized in that a first rotating shaft (36) and a second rotating shaft (361) are respectively rotatably installed on the inner wall of the upper end of the rotary disc (33), and clamping rings (35) are installed on the outer walls of the first rotating shaft (36) and the second rotating shaft (361).

8. The automatic winding device for producing the tin welding wire according to claim 7, characterized in that a winding wheel (37) is inserted into the outer wall of the clamping ring (35), wire inserting holes (371) are formed in two ends of the winding wheel (37), and a motor III (34) is installed at the lower end of the rotary table (33).

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