CN212450078U - Gland rectifying and anti-rotation stress device for barreled welding wire - Google Patents

Abstract

The utility model relates to a barreled is gland rectification rotation-proof stress device for welding wire belongs to welding wire processing equipment technical field, the wire feed hole that can supply the welding wire to pass is seted up at gland plate's center, fixed mounting has the filament plate of putting on the gland plate, fixed mounting has swivel bearing on putting the filament plate, swivel bearing and the coaxial setting in wire feed hole, swivel bearing is located gland plate's top and with gland plate interval setting, the coaxial fixed mounting of swivel bearing inner circle has the seal wire pipe, the seal wire pipe is spiral rising form, the wire feed hole is worn out to the lower extreme of seal wire pipe. The utility model provides an arc of seal wire pipe makes the welding wire can keep original arc rising when taking out, reduces original direct reverse stress that twists production when drawing the time of getting, and seal wire pipe is installed on putting the filament plate by swivel bearing, makes seal wire pipe last rotation when the extraction, and the welding wire is and lasts the heliciform and rises. The wire guide pipe rotates along with the welding wire direction, so that the welding wire on the inner side of the welding wire can be prevented from emerging, and the barreled welding wire can be ensured to smoothly feed.

Description

Gland rectifying and anti-rotation stress device for barreled welding wire

Technical Field

The utility model belongs to the technical field of the welding wire processing equipment technique and specifically relates to a barreled is gland rectification rotation stress prevention device for welding wire.

Background

The welding wire is often stored and packaged in a drum-like package, wound in a coil and then stored in a drum, from which the welding wire is welded in a variety of processes while in use. In most cases, the welding wire is removed from the drum in the amount used, and the entire drum of welding wire does not need to be moved. The welding wire is stored in the barrel container according to a certain force during production, so that a user can pull out the welding wire for use without twisting.

When the welding wire is pulled out for use, the torsional stress of the welding wire can cause the problems of welding waves, uneven welding and the like during welding of the welding wire, and particularly, the welding waves and the undercuts of nonferrous metals with soft materials are bent, the straightness is poor, the welding wire is tangled in a container, and knotting can cause serious faults, time waste and fracture. The welding wire is tangled in many ways, and the welding wire is probably tangled due to the fact that the welding wire is drawn out for multiple circles when being drawn out, the welding wire coil is loosened and falls down, and the tangling and knotting phenomena are caused on the lower part of the welding wire coil, so that the continuous automatic welding production is not facilitated.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is: in order to overcome the problems that welding waves appear during welding of the welding wire and the welding is not uniform due to torsional stress of the welding wire when the welding wire is pulled out for use in the prior art, the gland rectifying and anti-rotating stress device for the barreled welding wire is provided.

The utility model provides a technical scheme that its technical problem adopted is: the utility model provides a barreled is gland rectification rotation stress device for welding wire, includes gland plate, the wire feed hole that can supply the welding wire to pass is seted up at gland plate's center, fixed mounting has the filament plate of putting on the gland plate, fixed mounting has swivel bearing on putting the filament plate, swivel bearing and the coaxial setting in wire feed hole, swivel bearing is located gland plate's top and sets up with gland plate interval, the coaxial fixed mounting of swivel bearing inner race has the silk guide pipe, the silk guide pipe is spiral rising form, the wire feed hole is worn out to the lower extreme of silk guide pipe.

The utility model discloses a barreled is gland rectification rotation-proof stress device for welding wire, when using, will the utility model discloses flat cover on the welding wire of lapping, the welding wire passes the guide wire pipe, and the welding wire is at the in-process of extraction, because the arc of guide wire pipe makes the welding wire can keep original arc rising when taking out, reduces the reverse stress that the distortion produced when directly drawing to get originally, and the guide wire pipe is installed on putting the filament plate by swivel bearing, makes the guide wire pipe continuously rotatory when the extraction, and the welding wire is and lasts the heliciform and rises. During welding, the wire guide pipe rotates along with the welding wire direction, so that the phenomenon that the welding wire on the inner side of the welding wire is blown out, jumped and disordered can be prevented, the barreled welding wire can be smoothly fed, and the rotating stress of the welding wire during torsion and straightening can be reduced; the whole device is uniformly descended due to the self gravity and the balance weight when the use of the welding wire is reduced, and the effectiveness of the device can be ensured.

In order to facilitate the coaxial fixed mounting of the guide wire tube on the inner ring of the rotary bearing, the guide wire tube is coaxially and fixedly mounted on the inner ring of the rotary bearing through the guide cylinder, the guide cylinder is coaxially and fixedly mounted in the inner ring of the rotary bearing, the guide wire tube is coaxially and fixedly mounted at the lower end of the guide cylinder, and the inner cavity of the guide cylinder is communicated with the inner cavity of the guide wire tube.

Further, a wire placing head is fixedly mounted on the wire placing plate, a wire outlet hole with the radius equal to that of the welding wire is formed in the wire placing head, the wire outlet hole and the inner ring of the rotary bearing are coaxially arranged, and the wire outlet hole is communicated with the inner cavity of the wire guide pipe.

Can be for lasting heliciform after making the welding wire take out and rise, it installs the filament placing head to rotate on the filament placing plate, the filament placing has seted up out the wire hole on the filament placing head, the filament placing plate is worn out to the guide cylinder upper end, the coaxial fixed mounting of filament placing head is in the upper end of guide cylinder, and with filament placing plate interval setting, go out wire hole and guide cylinder inner chamber intercommunication, filament placing head rotates and installs on filament placing plate, filament placing head can rotate along with the welding wire, can be lasting heliciform after making the welding wire take out and rise.

Further, in order to realize unreeling the silk board fixed mounting on the gland plate, and satisfy that swivel bearing is located gland plate top and sets up with gland plate interval, it passes through support column fixed mounting on gland plate to unreel the silk board, the lower extreme fixed mounting of support column is on gland plate, upper end and unreel silk board fixed connection, the support column has a plurality ofly, and is a plurality of the support column is the round platform type along the central axis circumference equipartition in wire passing hole.

In order to prevent the welding wire from jumping out of the two adjacent support columns, a guide plate is fixedly arranged between the two adjacent support columns on the press cover plate.

When the utility model discloses when placing in the container that is equipped with the welding wire, if gapped between gland plate side and the container inner wall, the welding wire pops out, jumps the silk in the clearance easily, in order to solve above-mentioned problem, fixed mounting has a plurality of slipmats, and is a plurality of on the outer wall of gland plate the slipmat is along the central axis circumference equipartition in wire feed hole, and the slipmat is laminated with the container inner wall, can prevent that the welding wire from popping out in the clearance.

The beneficial effects of the utility model are that the utility model discloses a barreled is gland rectification anti-rotation stress device for welding wire, when using, will the utility model discloses flat cover on the welding wire of lapping, the welding wire passes the silk guide pipe, and the welding wire is at the in-process of extraction, because the arc of silk guide pipe makes the welding wire can keep original arc to rise when taking out, reduces original direct drawing reverse stress that twists the production when getting, and the silk guide pipe is installed on putting the filament plate by swivel bearing, makes the silk guide pipe continuously rotate when the extraction, and the welding wire is and lasts the heliciform and rises. During welding, the wire guide pipe rotates along with the welding wire direction, so that the phenomenon that the welding wire on the inner side of the welding wire is blown out, jumped and disordered can be prevented, the barreled welding wire can be smoothly fed, and the rotating stress of the welding wire during torsion and straightening can be reduced; the whole device is uniformly descended due to the self gravity and the balance weight when the use of the welding wire is reduced, and the effectiveness of the device can be ensured.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is a three-dimensional schematic diagram of embodiment 1 of the present invention;

fig. 2 is a plan view of embodiment 1 of the present invention;

fig. 3 is a cross-sectional view taken at a-a of fig. 2 in accordance with the present invention;

fig. 4 is an enlarged view of fig. 3B according to the present invention;

fig. 5 is a two-dimensional cross-sectional view of embodiment 2 of the present invention.

In the figure: 1. the novel silk drawing device comprises a pressing cover plate, 1-1 silk threading holes, 2 silk discharging plates, 3 rotating bearings, 4 silk guide pipes, 5 guide cylinders, 6 silk discharging heads, 6-1 silk discharging holes, 7 supporting columns, 8 guide plates and 9 anti-slip pads.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic drawings and illustrate the basic structure of the present invention only in a schematic manner, and thus show only the components related to the present invention.

Example 1:

as shown in fig. 1 and 2, the gland rectification anti-rotation stress device for the barreled welding wire comprises a gland plate 1, a wire feeding hole 1-1 through which a welding wire can pass is formed in the center of the gland plate 1, a wire feeding plate 2 is fixedly mounted on the gland plate 1, the wire feeding plate 2 is fixedly mounted on the gland plate 1 through a support column 7, the lower end of the support column 7 is fixedly mounted on the gland plate 1, the upper end of the support column is fixedly connected with the wire feeding plate 2, the number of the support columns 7 is 4, and the 4 support columns 7 are uniformly distributed along the circumference of the central axis of the wire feeding hole 1-1 and are in a circular truncated cone shape. All fixed mounting has deflector 8 between two adjacent support columns 7 on gland plate 1. The filament placing plate 2 is fixedly provided with a rotary bearing 3, as shown in fig. 3 and 4, the rotary bearing 3 is coaxially arranged with the filament passing hole 1-1, the rotary bearing 3 is positioned above the gland plate 1 and is arranged at a distance from the gland plate 1, the inner ring of the rotary bearing 3 is coaxially and fixedly provided with a thread guiding pipe 4, the thread guiding pipe 4 is spirally raised, and the lower end of the thread guiding pipe 4 penetrates out of the filament passing hole 1-1.

The guide wire tube 4 is coaxially and fixedly arranged in the inner ring of the rotary bearing 3 through the guide cylinder 5, the guide cylinder 5 is coaxially and fixedly arranged in the inner ring of the rotary bearing 3, the guide wire tube 4 is coaxially and fixedly arranged at the lower end of the guide cylinder 5, and the inner cavity of the guide cylinder 5 is communicated with the inner cavity of the guide wire tube 4.

The wire placing plate 2 is fixedly provided with a wire placing head 6, the wire placing head 6 is provided with a wire outlet 6-1 with the radius equal to that of the welding wire, the wire outlet 6-1 is coaxially arranged with the inner ring of the rotary bearing 3, and the wire outlet 6-1 is communicated with the inner cavity of the wire guide pipe 4.

The outer wall of the gland plate 1 is fixedly provided with a plurality of anti-slip pads 9, the anti-slip pads 9 are uniformly distributed along the circumference of the central axis of the wire feeding hole 1-1, the anti-slip pads 9 are rubber pads, and the anti-slip pads 9 are attached to the inner wall of the container to prevent the welding wires from popping out of the gap.

The utility model discloses a barreled is gland rectification rotation-proof stress device for welding wire, when using, will the utility model discloses flat cover on the welding wire of lapping, the welding wire passes seal wire pipe 4, and the welding wire is at the in-process of extraction, because seal wire pipe 4's arc makes the welding wire can keep original arc rising when taking out, reduces original direct draw reverse stress that twists the production when taking, and seal wire pipe 4 is installed on putting filament plate 2 by swivel bearing 3, makes seal wire pipe 4 continuously rotatory when the extraction, and the welding wire is and lasts the heliciform and rises. During welding, the wire guide pipe 4 rotates along with the welding wire direction, so that the phenomenon that the welding wire on the inner side of the welding wire is blown out, jumped and disordered can be prevented, the barreled welding wire can be smoothly fed, and the rotating stress of the welding wire during torsion and straightening can be reduced; the whole device is uniformly descended due to the self gravity and the balance weight when the use of the welding wire is reduced, so that the effectiveness of the device can be ensured; after the welding wire comes out from the wire outlet hole 6-1, the welding wire is straightened by the straightening wheel, because the stress of the welding wire is reduced during drawing, the welding wire which passes through the welding gun after being straightened can not rotate at a welding nozzle along the stress direction, and the conditions of welding wave bending, undercut and poor straightness are caused

Example 2:

in order to allow the wire to continuously spirally rise after being drawn out, example 2 shown in fig. 5 is different from example 1 only in that: put and rotate on the silk board 2 and install and put the silk head 6, put and seted up out a hole 6-1 on the silk head 6, the silk board 2 is put to 5 upper ends of guide cylinder wearing out, put the coaxial fixed mounting of silk head 6 in the upper end of guide cylinder 5, and set up with putting 2 intervals of silk board, go out a hole 6-1 and 5 inner chambers of guide cylinder intercommunication, put silk head 6 and rotate and install on putting silk board 2, put silk head 6 and can rotate along with the welding wire, can be continuous heliciform after making the welding wire take out and rise.

In light of the foregoing, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (7)

1. The utility model provides a barreled is anti-rotation stress device of gland rectification for welding wire, includes gland plate (1), characterized in that: wire feed hole (1-1) that can supply the welding wire to pass are seted up at the center of gland plate (1), fixed mounting has wire feeding plate (2) on gland plate (1), fixed mounting has swivel bearing (3) on wire feeding plate (2), swivel bearing (3) and the coaxial setting of wire feed hole (1-1), swivel bearing (3) are located the top of gland plate (1) and set up with gland plate (1) interval, the coaxial fixed mounting of swivel bearing (3) inner circle has guide wire pipe (4), guide wire pipe (4) are spiral rising form, wire feed hole (1-1) is worn out to the lower extreme of guide wire pipe (4).

2. A gland rectifying anti-rotational stress device for a barreled wire as in claim 1, wherein: wire guide pipe (4) are through guide cylinder (5) coaxial fixed mounting at swivel bearing (3) inner circle, the coaxial fixed mounting of guide cylinder (5) is in swivel bearing (3) inner circle, the coaxial fixed mounting of wire guide pipe (4) is at the lower extreme of guide cylinder (5), guide cylinder (5) inner chamber and wire guide pipe (4) inner chamber intercommunication.

3. A gland rectifying anti-rotational stress device for a barreled wire as in claim 1, wherein: the wire feeding plate is characterized in that a wire feeding head (6) is fixedly mounted on the wire feeding plate (2), a wire outlet hole (6-1) with the radius equal to that of a welding wire is formed in the wire feeding head (6), the wire outlet hole (6-1) and an inner ring of the rotary bearing (3) are coaxially arranged, and the wire outlet hole (6-1) is communicated with an inner cavity of the wire guide pipe (4).

4. A gland rectifying anti-rotational stress device for a barreled wire as in claim 2, wherein: put and rotate on the silk board (2) and install and put silk head (6), put and seted up out a silk hole (6-1) on the silk head (6), the silk board (2) are put to guide cylinder (5) upper end wear out, put the coaxial fixed mounting of silk head (6) in the upper end of guide cylinder (5), and with put silk board (2) interval setting, go out silk hole (6-1) and guide cylinder (5) inner chamber intercommunication.

5. A gland rectifying anti-rotational stress device for a barreled wire as in claim 1, wherein: put filament plate (2) and pass through support column (7) fixed mounting on gland board (1), the lower extreme fixed mounting of support column (7) is on gland board (1), the upper end with put filament plate (2) fixed connection, support column (7) have a plurality ofly, a plurality ofly support column (7) are the round platform type along the central axis circumference equipartition of threading hole (1-1).

6. A gland rectifying anti-rotational stress device for barreled wire as in claim 5, wherein: and a guide plate (8) is fixedly arranged between two adjacent support columns (7) on the gland plate (1).

7. A gland rectifying anti-rotational stress device for a barreled wire as in claim 1, wherein: the anti-slip cover plate is characterized in that a plurality of anti-slip pads (9) are fixedly mounted on the outer wall of the pressing cover plate (1), and the anti-slip pads (9) are uniformly distributed along the circumference of the central axis of the wire penetrating hole (1-1).

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