CN110605503A - Production and preparation system for copper wires for bridge assembly welding - Google Patents

Abstract

The invention relates to a production and preparation system for a copper wire for assembly bridge welding, which comprises a bottom plate, wherein a supporting guide ring is arranged at the left end of the bottom plate, a guide operation pipe is rotatably arranged in the supporting guide ring, an auxiliary support is arranged at the right end of the bottom plate, a plastic pipe is slidably arranged in the auxiliary support, processing mechanisms are arranged on the guide operation pipe at equal intervals from left to right, and a shaping mechanism is arranged in the plastic pipe. The invention can solve the following problems in the wire drawing process during the production and preparation of the traditional welding wire, firstly, the traditional welding wire is controlled to pass through the preparation mould to obtain the welding wire with the specified specification mainly through the pulling force during the wire drawing, the uniformity of the whole specification of the welding wire cannot be ensured through the welding wire obtained through pulling, errors exist, secondly, the corresponding wire drawing mould needs to be replaced aiming at the welding wires with different specifications, the automatic adaptive adjustment operation cannot be carried out aiming at the welding wires with different specifications, and the adaptive range is small.

Description

Production and preparation system for copper wires for bridge assembly welding

Technical Field

The invention relates to the technical field of welding wire manufacturing, in particular to a production and preparation system for a copper wire for bridge assembly welding.

Background

Copper materials are used as preparation raw materials in the welding wire, the welding wire is more common particularly in the process of bridge assembly welding operation, the welding wire is required to be made into finished products with different specifications according to actual production requirements in the process of preparing the welding wire by using the copper wires, the wire drawing treatment of the welding wire is a key step for preparing the welding wire, the diameter of the welding wire is required to be changed according to the actual requirements, and the use effect of the welding wire under different conditions can be improved only by ensuring the wire drawing accuracy of the welding wire in the wire drawing preparation.

However, the following problems in the wire drawing process during the production and preparation of the existing welding wires include that firstly, the welding wires are controlled to pass through the preparation mold to obtain the welding wires with the specified specifications mainly by pulling force during the wire drawing of the traditional welding wires, the uniformity of the overall specifications of the welding wires cannot be guaranteed by pulling the welding wires, errors exist, secondly, the corresponding wire drawing molds need to be replaced aiming at the welding wires with different specifications, the automatic adaptive adjustment operation cannot be carried out aiming at the welding wires with different specifications, and the adaptive range is small.

Regarding some problems that the welding wire exists in the production preparation operation, research is made in related industries, and specific technical schemes are provided, for example, the Chinese utility model patent with the patent number of 2017218061494 is a welding wire drawing and shredding integrated machine, so that the processing time of the welding wire is saved, the labor force is saved, and the technical problem existing in the preparation and drawing of the welding wire in the prior art is not solved.

Disclosure of Invention

In order to solve the problems, the invention provides a production and preparation system for an assembly bridge welding copper wire, which can solve the problems in the preparation and drawing of the welding wire.

In order to achieve the purpose, the invention adopts the following technical scheme to realize the purpose: the utility model provides a group's bridge welding copper wire production preparation system, includes the bottom plate, and the left end of bottom plate is provided with supports the guide ring, supports the guide intra-annular and rotates and be provided with the guide operation pipe, and the right-hand member of bottom plate is provided with the auxiliary stand, and it is provided with the plastic pipe to slide in the auxiliary stand, turns right equidistant processing mechanism that is provided with from a left side on the guide operation pipe, is provided with moulding mechanism in the plastic pipe.

Processing agency includes the concertina hole that evenly is provided with along guide operation pipe circumference direction, is provided with the pole of pounding through the sliding fit mode in the concertina hole, and the upper end of pounding the pole supports and leans on the inner wall that supports the guide ring, is provided with the spring between the outer wall of pounding pole and guide operation pipe, and the one end that the pole of pounding is located the concertina hole inboard is uneven structure.

The shaping pipe comprises a rotary pipe, a rotating pipe and a working pipe, the rotary pipe and the rotating pipe are arranged on the left side and the right side of the auxiliary support respectively in a sliding fit mode, the rotary pipe and the rotating pipe are of concentric circle structures, the left end of the rotary pipe is fixed on the guiding operation pipe, and the rotary pipe is connected with the inner wall of the rotating pipe through the working pipe.

Moulding mechanism includes the plastic groove that evenly sets up along work tube circumference direction, install the spring beam on the lateral wall of rotating tube, install L type frame on the spring beam, install the cylinder on the L type frame, install the executive frame on the cylinder, the executive frame is located the plastic groove, the upper end of executive frame is provided with the lift hole, the downthehole slip that goes up and down is provided with the crane, the upper end of crane supports and leans on the inner wall of rotating tube, the cover is equipped with the spring between the inner wall of crane and executive frame, the lower extreme of crane is provided with the mounting bracket, install between the inner wall of mounting bracket and smooth the roller.

Preferably, the guide operation pipe and the support guide ring are of a concentric structure, and the diameters of the guide operation pipe and the support guide ring are of structures which are sequentially reduced from left to right; .

Preferably, the inner wall of the guide operation pipe is provided with an annular groove used in cooperation with the treatment mechanism, the upper end of the hammering rod abuts against the annular groove, and the annular groove is uniformly provided with protruding blocks.

Preferably, the shaping pipe is connected with the guide operation pipe, the shaping pipe and the guide operation pipe are respectively provided with a driven wheel, the bottom plate is provided with a double-shaft motor through a motor base, the double-shaft motor is symmetrically provided with driving wheels, and the driving wheels are connected with the driven wheel through a linkage belt.

Preferably, the thickness of the rotating pipe is reduced in a step shape from left to right, and the step fall position is in an arc structure.

Preferably, the outer wall of the L-shaped frame is obliquely sleeved with a driven plate, the lower end of the driven plate is arranged in the control groove in a sliding mode, and the control groove is arranged on the auxiliary support.

The invention has the beneficial effects that:

1. the invention can solve the following problems in the wire drawing process during the production and preparation of the traditional welding wire, firstly, the traditional welding wire is controlled to pass through the preparation mould to obtain the welding wire with the specified specification mainly through the pulling force during the wire drawing, the uniformity of the whole specification of the welding wire cannot be ensured through the welding wire obtained through pulling, errors exist, secondly, the corresponding wire drawing mould needs to be replaced aiming at the welding wires with different specifications, the automatic adaptive adjustment operation cannot be carried out aiming at the welding wires with different specifications, and the adaptive range is small.

2. The processing mechanism and the shaping mechanism are designed to rotatably extrude the welding wire mainly in a rotating mode, the welding wire penetrates through the welding wire forming machine at a constant speed, the processing mechanism firstly rotatably beats the outer part of the welding wire at the center, the specification of the welding wire is gradually changed, the specification requirement of the welding wire of the shaping mechanism is automatically adjusted, the application range is wide, the welding wire is not required to be pulled and dragged by a strong force, and the uniformity of welding wire preparation can be ensured.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic plan view of the present invention;

FIG. 2 is a cross-sectional view taken along line A-A of FIG. 1 in accordance with the present invention;

FIG. 3 is an enlarged view of the invention taken from the direction I of FIG. 1;

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

As shown in fig. 1 to 3, a production and preparation system for copper wires for assembly bridge welding comprises a base plate 1, wherein a supporting guide ring 2 is arranged at the left end of the base plate 1, a guiding operation pipe 3 is arranged in the supporting guide ring 2 in a rotating mode, an auxiliary support 4 is arranged at the right end of the base plate 1, a plastic pipe 5 is arranged in the auxiliary support 4 in a sliding mode, a processing mechanism 6 is arranged on the guiding operation pipe 3 at an interval from left to right, and a shaping mechanism 7 is arranged in the plastic pipe 5.

The plastic pipe 5 is connected with the guide operation pipe 3, the driven wheels are arranged on the plastic pipe 5 and the guide operation pipe 3 respectively, the double-shaft motor is installed on the bottom plate 1 through the motor base, the driving wheels are symmetrically arranged on the double-shaft motor, and the driving wheels are connected with the driven wheels through the linkage belt.

The double-shaft motor controls the plastic pipe 5 and the guide operation pipe 3 to rotate simultaneously in a belt wheel transmission mode.

Processing agency 6 includes the concertina hole that evenly is provided with along 3 circumference directions of guide operation pipe, is provided with the pole 61 of pounding through the sliding fit mode in the concertina hole, and the upper end of the pole 61 of pounding supports and leans on the inner wall that supports guide ring 2, is provided with the spring between the outer wall of the pole 61 of pounding and guide operation pipe 3, and the pole 61 of pounding is located the inboard one end in concertina hole and is the rugged structure.

The guide operation pipe 3 and the support guide ring 2 are of a concentric structure, and the diameters of the guide operation pipe 3 and the support guide ring 2 are of structures which are sequentially reduced from left to right.

The inner wall of the guide operation pipe 3 is provided with an annular groove used in cooperation with the processing mechanism 6, the upper end of the hammering rod 61 is abutted against the annular groove, and the annular groove is uniformly provided with protruding blocks.

When the guide operation pipe 3 rotates, the hammering rod 61 is controlled to rotate synchronously, the annular groove extrudes the hammering rod 61 in the movement of the hammering rod 61, so that the hammering rod 61 can perform reciprocating hammering on the welding wire, the welding wire passes through the guide operation pipe 3 at a constant speed, the hammering rod 61 is gradually changed to reduce the diameter of the welding wire, and the mode of changing the diameter of the welding wire by rotary multi-stage hammering can improve the accuracy of wire drawing preparation of the welding wire.

The plastic pipe 5 comprises a rotating pipe 51, a rotating pipe 52 and a working pipe 53, the rotating pipe 51 and the rotating pipe 52 are arranged on the left side and the right side of the auxiliary support 4 respectively in a sliding fit mode, the rotating pipe 51 and the rotating pipe 52 are of concentric circle structures, the left end of the rotating pipe 51 is fixed on the guiding operation pipe 3, and the inner walls of the rotating pipe 51 and the rotating pipe 52 are connected through the working pipe 53.

Moulding mechanism 7 includes the plastic groove that evenly sets up along working tube 53 circumferential direction, install spring beam 72 on the lateral wall of rotating tube 52, install L type frame on the spring beam 72, install cylinder 71 on the L type frame, install executive frame 73 on the cylinder 71, executive frame 73 is located the plastic groove, executive frame 73's upper end is provided with the lift hole, the downthehole slip that goes up and down is provided with crane 74, crane 74's upper end supports and leans on the inner wall of rotating tube 51, the cover is equipped with the spring between crane 74 and executive frame 73's the inner wall, crane 74's lower extreme is provided with mounting bracket 75, install between mounting bracket 75's the inner wall and smooth the roller 76.

The cylinder 71 controls the execution frame 73 to move to a proper working position through the spring rod 72, the smoothing roller 76 can be abutted against a welding wire passing through the working pipe 53, the welding wire can be subjected to shaping wire drawing processing according to specified specifications, and the working pipe 53 is subjected to rotary extrusion processing through the smoothing roller 76 in the rotating process, so that the accuracy of the wire drawing processing is ensured.

The thickness of the rotating pipe 51 is reduced in a step shape from left to right, and the step fall position is in an arc structure.

According to the specification requirements of different welding wires, the contact position between the lifting frame 74 and the inner wall of the rotating pipe 51 is changed, and then the working position of the leveling roller 76 is adjusted, so that the purpose of accurately drawing the welding wires with different specifications is achieved.

The outer wall of the L-shaped frame is obliquely sleeved with a driven plate 531, the lower end of the driven plate 531 is arranged in a control groove 532 in a sliding mode, and the control groove 532 is arranged on the auxiliary support 4.

During rotary wire drawing, the driven disc 531 synchronously rotates, the driven disc 531 in rotation synchronously controls the leveling roller 76 to perform reciprocating adjustment operation in a small range under the action of the control groove 532, the upper end of the lifting frame 74 is ensured to be always abutted against a specified step surface on the rotary pipe 51 in movement, the driven disc 531 and the control groove 532 are ensured to be matched, only the leveling roller 76 can be controlled to perform left-right translation, and the leveling roller 76 can perform left-right translation type welding wire processing simultaneously in the process of rotationally extruding the welding wire.

When in work:

in the first step, the welding wire passes through the welding wire feeding device from left to right, and the welding wire is controlled to move at a constant speed in the welding wire feeding device.

And secondly, the double-shaft motor is pneumatic, the hammering rod 61 is controlled to synchronously rotate when the guiding operation pipe 3 rotates, the annular groove extrudes the hammering rod 61 in the movement of the hammering rod 61, so that the hammering rod 61 can perform reciprocating hammering on the welding wire, and the hammering rod 61 gradually changes and reduces the diameter of the welding wire when the welding wire passes through the guiding operation pipe 3 at a constant speed.

Thirdly, the cylinder 71 controls the execution frame 73 to move to a proper working position through the spring rod 72, so that the flattening roller 76 can abut against the welding wire passing through the working pipe 53, the welding wire can be subjected to shaping wire drawing processing according to specified specifications, and the working pipe 53 is subjected to rotary extrusion processing on the welding wire through the flattening roller 76 in the rotating process, so that the accuracy of the wire drawing processing is ensured.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. The utility model provides a group's bridge welding copper wire production preparation system, includes bottom plate (1), its characterized in that: a supporting guide ring (2) is arranged at the left end of the bottom plate (1), a guiding operation pipe (3) is rotationally arranged in the supporting guide ring (2), an auxiliary support (4) is arranged at the right end of the bottom plate (1), a plastic pipe (5) is slidably arranged in the auxiliary support (4), processing mechanisms (6) are arranged on the guiding operation pipe (3) at equal intervals from left to right, and a plastic mechanism (7) is arranged in the plastic pipe (5);

the treatment mechanism (6) comprises telescopic holes uniformly formed in the circumferential direction of the guide operation pipe (3), a hammering rod (61) is arranged in each telescopic hole in a sliding fit mode, the upper end of each hammering rod (61) abuts against the inner wall of the support guide ring (2), a spring is arranged between each hammering rod (61) and the outer wall of the guide operation pipe (3), and one end, located on the inner side of each telescopic hole, of each hammering rod (61) is of a rugged structure;

the plastic pipe (5) comprises a rotating pipe (51), a rotating pipe (52) and a working pipe (53), the rotating pipe (51) and the rotating pipe (52) are arranged on the left side and the right side of the auxiliary support (4) respectively in a sliding fit mode, the rotating pipe (51) and the rotating pipe (52) are of concentric circle structures, the left end of the rotating pipe (51) is fixed on the guiding working pipe (3), and the rotating pipe (51) is connected with the inner wall of the rotating pipe (52) through the working pipe (53);

moulding mechanism (7) are including the plastic groove that evenly sets up along work tube (53) circumferential direction, install spring arm (72) on the lateral wall of rotating tube (52), install L type frame on spring arm (72), install cylinder (71) on the L type frame, install executive frame (73) on cylinder (71), executive frame (73) are located the plastic groove, the upper end of executive frame (73) is provided with the lift hole, the downthehole slip of lift is provided with crane (74), the upper end of crane (74) is supported and is leaned on the inner wall of rotating tube (51), the cover is equipped with the spring between the inner wall of crane (74) and executive frame (73), the lower extreme of crane (74) is provided with mounting bracket (75), install between the inner wall of mounting bracket (75) and smooth roller (76).

2. The system for producing and preparing the bridge-welding copper wire according to claim 1, wherein: the guide operation pipe (3) and the support guide ring (2) are of a concentric structure, and the diameters of the guide operation pipe (3) and the support guide ring (2) are of a structure which is sequentially reduced from left to right.

3. The system for producing and preparing the bridge-welding copper wire according to claim 1, wherein: the inner wall of the guide operation pipe (3) is provided with an annular groove used in cooperation with the processing mechanism (6), the upper end of the hammering rod (61) is abutted against the annular groove, and the inner part of the annular groove is uniformly provided with protruding blocks.

4. The system for producing and preparing the bridge-welding copper wire according to claim 1, wherein: the plastic pipe (5) is connected with the guide operation pipe (3), the plastic pipe (5) and the guide operation pipe (3) are respectively provided with a driven wheel, the bottom plate (1) is provided with a double-shaft motor through a motor base, the double-shaft motor is symmetrically provided with driving wheels, and the driving wheels are connected with the driven wheel through a linkage belt.

5. The system for producing and preparing the bridge-welding copper wire according to claim 1, wherein: the thickness of the rotating pipe (51) is reduced in a step shape from left to right, and the step fall position is of an arc structure.

6. The system for producing and preparing the bridge-welding copper wire according to claim 1, wherein: the outer wall of the L-shaped frame is obliquely sleeved with a driven plate (531), the lower end of the driven plate (531) is arranged in a control groove (532) in a sliding mode, and the control groove (532) is installed on the auxiliary support (4).