CN210497761U - Flattening device for multi-port conveying on welding ring forming machine - Google Patents

Abstract

The utility model provides a flattening device for multi-port conveying on a welding ring forming machine, which belongs to the technical field of welding ring forming machines and comprises a material distribution mechanism and a welding ring flattening mechanism arranged at two sides of the material distribution mechanism, wherein the material distribution mechanism comprises a material distribution cavity and a material feeding cavity, the material feeding cavity comprises a first material feeding cavity and a second material feeding cavity, a workpiece bowl is respectively butted below the first material feeding cavity and the second material feeding cavity, a baffle plate is arranged in the material feeding cavity and can swing in a reciprocating manner and be shielded at the inlet of the first material feeding cavity, a material distribution module is arranged in the material distribution cavity, a workpiece enters from the upper opening of the material distribution cavity, the pushing of the material distribution module can sequentially pass through the inlet of the first material feeding cavity and the inlet of the second material feeding cavity, the baffle plate shields the inlet of the first material feeding cavity to form a first guiding state, the workpiece enters the inlet of the second material feeding cavity through the guide of the baffle plate, the baffle plate is staggered with the inlet, the material distributing module and the baffle plate are driven to rotate by a driving mechanism. The utility model discloses shorten process time, improved production machining efficiency.

Description

Flattening device for multi-port conveying on welding ring forming machine

Technical Field

The utility model relates to a weld ring make-up machine technical field, especially a last flattening device that many mouthfuls of carried of weld ring make-up machine.

Background

The solder used generally has a structure in the form of a rather partial ring, called solder ring. The original welding ring forming technology is that a welding ring forming machine is used for forming, a feeding mechanism in the welding ring forming machine conveys a welding wire into an arc-shaped guide rail to be coiled into a ring shape, a blade arranged above the welding wire is used for downwards cutting, the welding ring falls off, and two ends of the cut welding ring are distributed in a staggered mode and need to be pressed flat.

The existing welding ring flattening technology is that the welding ring forming machine is not provided with a device for flattening the two ends of the welding ring, the welding ring which is cut off is required to be flattened by taking the welding ring flattening device which is specially arranged additionally, the welding ring which is cut off is required to be carried to the flattening device by manpower, the complexity of the machining process is improved, the existing welding ring flattening device is used for flattening a single workpiece and flattening the next workpiece, the machining time is prolonged by the operation, and the production and machining efficiency is reduced.

Therefore, the flattening device which is conveyed in a split mode and can flatten a plurality of workpieces is of great significance.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the above-mentioned problem of current, provide a last flattening device that carries of many mouthfuls of weld ring make-up machine.

The purpose of the utility model can be realized by the following technical proposal: a flattening device for multi-port conveying on a welding ring forming machine is arranged on a machine body below a winding device of the welding ring forming machine and comprises a material distribution mechanism and welding ring flattening mechanisms arranged on two sides of the material distribution mechanism, wherein the material distribution mechanism comprises an upper material distribution cavity and a lower material conveying cavity, the material conveying cavities comprise a first material conveying cavity and a second material conveying cavity, inlets of the first material conveying cavity and the second material conveying cavity are respectively butted with the material distribution cavity, the lower parts of the first material conveying cavity and the second material conveying cavity are respectively butted with a material processing bowl,

a baffle plate is arranged in the feeding cavity, can swing in a reciprocating way and is shielded at the inlet of the first feeding cavity,

a material distributing module is arranged in the material distributing cavity, the material distributing module rotates along one direction, a workpiece enters from the upper opening of the material distributing cavity, can sequentially pass through the inlet of the first feeding cavity and the inlet of the second feeding cavity after being pushed by the material distributing module,

the baffle plate shields the inlet of the first feeding cavity to form a first guiding state, the workpiece enters the inlet of the second feeding cavity through the guiding of the baffle plate,

the baffle plate and the inlet of the first feeding cavity are staggered to form a second guiding state,

the material distributing module and the baffle plate are driven to rotate by a driving mechanism.

The inner wall of the material distributing cavity is annular, the thickness of the material distributing module is the same as the width of the material distributing cavity, the two ends of the material distributing module are provided with arc ends, the rotating point of the material distributing module is at the center, the end edges of the arcs are clung to the inner wall of the material distributing cavity, a storage space is arranged between the two sides of the material distributing module and the inner wall of the material distributing cavity, the material distributing cavity is provided with a lower opening,

when the first guiding state is adopted, the object placing space rotates to be communicated with the lower opening, and the baffle plate shields the inlet of the first feeding cavity.

The material distributing module rotates for a circle in the material distributing cavity, and the baffle swings once in a single direction.

The driving mechanism comprises a driving source and a plurality of groups of transmission gears, the driving source comprises a motor, a driving gear is arranged on the motor, the driving gear is further meshed with a group of transmission gears, the transmission gears are connected with first driven gears, and the first driven gears are fixedly connected with the material distribution module.

The driving mechanism further comprises a reciprocating assembly, the reciprocating assembly comprises a first rack, the first rack is limited to move linearly on a first guide rail of the machine body, an eccentric rotating point of the driving gear is hinged to one end of a rocker, the other end of the rocker is hinged to the first rack, a baffle plate is fixedly connected with a second driven gear, and the second driven gear is connected with the first rack through a transmission gear.

Be equipped with the second guide rail on the organism, be equipped with the restriction of second rack linear motion on the second guide rail, be connected through drive gear between second driven gear and the second rack, the reverse linear motion of first rack and second rack, first rack and second rack on all connect and weld ring flattening mechanism.

The baffle swings between an included angle of 10 degrees to 90 degrees with the horizontal plane.

The feed mechanism is equipped with the workstation with weld ring flattening mechanism below, and the worker material bowl is fixed on the workstation, and worker material bowl bottom is equipped with the through-hole, and the through-hole runs through the workstation, and the workstation below is equipped with the conveyer belt, is connected with a plurality of divisions on the conveyer belt and has the assembly part that connects the silo, and the work piece falls into the assembly part along the worker material bowl and connects in the silo.

The driving mechanism drives the two welding ring flattening mechanisms to do staggered reciprocating motion, the welding ring flattening mechanisms comprise sliding blocks and pressing rods, the pressing rods are fixedly connected to the bottoms of the sliding blocks, the sliding blocks are limited to slide in a sliding rail of the machine body in a reciprocating mode, and when the sliding blocks slide downwards, the pressing rods can penetrate through holes in the bottom ends of the material bowls and press assembling parts on the conveying belt to be connected into the material grooves.

The conveying belt is provided with a limiting screw, the bottom of the assembly part is provided with a limiting groove, and the limiting screw is inserted into the limiting groove.

Compared with the prior art, the utility model is provided with a welding ring flattening mechanism which comprises a material distributing mechanism and two sides of the material distributing mechanism, the material distributing mechanism comprises an upper material distributing cavity and a lower material feeding cavity, the material feeding cavity comprises a first material feeding cavity and a second material feeding cavity, the inlets of the first material feeding cavity and the second material feeding cavity are butted with the material distributing cavity, the lower parts of the first material feeding cavity and the second material feeding cavity are respectively butted with a material feeding bowl, a baffle plate is arranged in the material feeding cavity, the baffle plate can swing in a reciprocating way and is shielded at the inlet of the first material feeding cavity, a workpiece enters from the upper opening of the material distributing cavity, the workpiece can sequentially pass through the inlet of the first material feeding cavity and the inlet of the second material feeding cavity through the pushing of the material distributing module, the workpiece falls into the first material feeding cavity or the second material feeding cavity according to the condition that the baffle plate swings in a reciprocating way, the workpiece is sent into the corresponding material feeding bowl and falls into the assembly part below, the workpiece is, the utility model discloses a feed mechanism continuously divides the material with the work piece and carries both sides, flattens by the ring mechanism that flattens of welding on both sides again, has shortened process time, has improved production machining efficiency.

Drawings

Fig. 1 is an overall schematic view of the present invention.

Fig. 2 is a structural schematic diagram of a first guiding state of the material distributing mechanism.

Fig. 3 is a structural schematic diagram of a second guiding state of the material distributing mechanism.

FIG. 4 is a schematic structural diagram of a weld ring flattening mechanism.

FIG. 5 is a schematic view of the attachment of the fitting to the conveyor belt.

Fig. 6 is a schematic diagram of the driving mechanism.

In the figure: 1. a body; 2. a weld ring flattening mechanism; 3. a material bowl; 4. a through hole; 5. a conveyor belt; 6. a work table; 7. a slide rail; 8. a material distributing mechanism; 9. a material distributing module; 10. an object placing space; 11. a baffle plate; 12. a first feeding cavity; 13. a second feeding cavity; 14. a feeding cavity; 15. a material distributing cavity; 16. a slider; 17. a pressure lever; 18. a material receiving groove; 19. an assembly member; 20. a limiting screw; 21. a limiting groove; 22. a second rack; 23. a second guide rail; 24. a transmission gear; 25. a second driven gear; 26. a first guide rail; 27. a first rack; 28. a rocker; 29. a driving gear; 30. a drive source; 31. a first driven gear.

Detailed Description

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

As shown in figures 1-3, the utility model is arranged on a lower machine body 1 of a winding device of a welding ring forming machine, and comprises a material distributing mechanism 8 and a welding ring flattening mechanism 2 arranged at two sides of the material distributing mechanism 8, the material distributing mechanism 8 comprises a material distributing cavity 15 at the upper part and a material feeding cavity 14 at the lower part, the material feeding cavity 14 comprises a first material feeding cavity 12 and a second material feeding cavity 13, inlets of the first material feeding cavity 12 and the second material feeding cavity 13 are both butted with the material distributing cavity 15, the lower parts of the first material feeding cavity 12 and the second material feeding cavity 13 are respectively butted with a material bowl 3, a baffle plate 11 is arranged in the material feeding cavity 14, the baffle plate 11 can swing back and forth and is shielded at the inlet of the first material feeding cavity 12, a material distributing module 9 is arranged in the material distributing cavity 15, the material distributing module 9 rotates according to one direction, a workpiece enters from an upper opening of the material distributing cavity 15, the workpiece can pass through the inlets of the first material feeding cavity 12 and the second material feeding cavity 13, the baffle plate 11 shields an inlet of the first feeding cavity 12 to form a first guiding state, a workpiece enters an inlet of the second feeding cavity 13 through the guiding of the baffle plate 11, the baffle plate 11 and the inlet of the first feeding cavity 12 are staggered to form a second guiding state, the rotation of the material distribution module 9 and the baffle plate 11 is driven by the driving mechanism, and the workpiece enters the inlet of the first feeding cavity 12 or the inlet of the second feeding cavity 13 respectively through different guiding states of the baffle plate 11.

The inner wall of the material distribution cavity 15 is annular, the thickness of the material distribution module 9 is the same as the width of the material distribution cavity 15, the two ends of the material distribution module 9 are provided with arc ends, the rotation point of the material distribution module 9 is at the center, the end edges of the arc are tightly attached to the inner wall of the material distribution cavity 15, an object placing space 10 is arranged between the two sides of the material distribution module 9 and the inner wall of the material distribution cavity 15, the material distribution cavity 15 is provided with a lower opening, the object placing space 10 rotates to be communicated with the lower opening in a first guiding state, and the baffle plate 11 shields the inlet of.

The material distributing module 9 rotates for a circle in the material distributing cavity 15, the baffle 11 swings in a single direction, the plane where the rotating point is located of the baffle 11 is taken as the horizontal plane, the baffle 11 rotates above the horizontal plane, and the baffle 11 swings between 10 degrees and 90 degrees in the horizontal plane.

As shown in fig. 1 and 4, the driving mechanism further drives the two welding ring flattening mechanisms 2 to reciprocate alternately, each welding ring flattening mechanism 2 comprises a sliding block 16 and a pressing rod 17, the pressing rods 17 are fixedly connected to the bottoms of the sliding blocks 16, and the sliding blocks 16 are limited in the sliding rails 7 of the machine body 1 to slide in a reciprocating manner.

Fig. 1 and 5 show, feed mechanism 8 and weld that ring flattening mechanism 2 below is equipped with workstation 6, and work material bowl 3 is fixed on workstation 6, and work material bowl 3 bottom is equipped with through-hole 4, and through-hole 4 runs through workstation 6, and 6 below of workstation is equipped with conveyer belt 5, is connected with a plurality of division on the conveyer belt 5 and has the assembly part 19 that connects silo 18, and the work piece falls into assembly part 19 along work material bowl 3 and connects in the silo 18. The conveying belt 5 is provided with a limiting screw 20, the bottom of the assembly part 19 is provided with a limiting groove 21, and the limiting screw 20 is inserted into the limiting groove 21.

As shown in fig. 6, the transmission relationship of the flattening device is as follows: the driving mechanism comprises a driving source 30 and a plurality of groups of transmission gears 24, the driving source 30 comprises a motor, a driving gear 29 is arranged on the motor, the driving gear 29 is also meshed with the group of transmission gears 24, the transmission gears 24 are connected with a first driven gear 31, and the first driven gear 31 is fixedly connected with the material distribution module 9; the driving mechanism further comprises a reciprocating assembly, the reciprocating assembly comprises a first rack 27, the first rack 27 is limited on a first guide rail 26 of the machine body 1 to move linearly, an eccentric rotating point of the driving gear 29 is hinged to one end of a rocker 28, the other end of the rocker 28 is hinged to the first rack 27, the baffle plate 11 is fixedly connected with a second driven gear 25, the second driven gear 25 is connected with the first rack 27 through a transmission gear 24, the machine body 1 is provided with a second guide rail 23, the second rack 22 is limited on the second guide rail 23 to move linearly, the second driven gear 25 is connected with the second rack 22 through the transmission gear 24, the first rack 27 and the second rack 22 move linearly in opposite directions, and the first rack 27 and the second rack 22 are both connected with the welding ring flattening mechanism 2. The transmission mode enables the rotation of the material distributing module 9 and the baffle plate 11 and the alternate reciprocating downward pressing of the two welding ring flattening mechanisms 2 to be simultaneously driven by the driving mechanism, so that the structure is more compact.

The operation principle of the flattening device is as follows: the workpiece falls into an upper opening of a material distribution cavity 15 from a winding device of a welding ring forming machine, the workpiece enters a material placing space 10 formed between a material distribution module 9 and the inner wall of the material distribution cavity 15, the material distribution module 9 pushes the workpiece to sequentially pass through an inlet of a first material conveying cavity 12 and an inlet of a second material conveying cavity 13, when a baffle plate 11 shields the inlet of the first material conveying cavity 12, the workpiece slides into the inlet of the second material conveying cavity 13 from the baffle plate 11, the material distribution module 9 rotates for a circle, the baffle plate 11 rotates from a state of shielding the inlet of the first material conveying cavity 12 to a state of shielding the inlet of the baffle plate 11 and the inlet of the first material conveying cavity 12, the material distribution module 9 pushes the workpiece to slide into the inlet of the first material conveying cavity 12, the material distribution module 9 rotates for a circle again, the baffle plate 11 rotates from a state of shielding the inlet of the first material conveying cavity 12 to a state of shielding the inlet of the first material conveying cavity 11, the workpiece circularly reciprocates, the workpiece falls into the workpiece bowls 3 corresponding to the inlets of the two sides along the inlet of the first material conveying cavity 12, the workpiece falls into a material receiving groove 18 of an assembly part 19 through a through hole 4 along the edge of a material bowl 3, a driving mechanism drives welding ring flattening mechanisms 2 on two sides to be matched with a material distributing mechanism 8, a pressing rod 17 penetrates through the through hole 4 in the material bowl 3 to be pressed on the workpiece in the material receiving groove 18, the workpiece is flattened by the pressing rod 17, and the assembly part 19 and the flattened workpiece are conveyed to the edge and fall into a material receiving box by a conveyor belt 5.

All the embodiments are not limited to this, and the embodiments are only explained as specific examples of the above aspects of the invention.

Claims (10)

1. A flattening device for multi-port conveying on a welding ring forming machine is characterized in that the flattening device is arranged on a machine body below a winding device of the welding ring forming machine and comprises a material distribution mechanism and welding ring flattening mechanisms arranged on two sides of the material distribution mechanism, the material distribution mechanism comprises an upper material distribution cavity and a lower material feeding cavity, the material feeding cavity comprises a first material feeding cavity and a second material feeding cavity, inlets of the first material feeding cavity and the second material feeding cavity are respectively butted with the material distribution cavity, the lower parts of the first material feeding cavity and the second material feeding cavity are respectively butted with a workpiece bowl,

a baffle plate is arranged in the feeding cavity, can swing in a reciprocating way and is shielded at the inlet of the first feeding cavity,

a material distributing module is arranged in the material distributing cavity, the material distributing module rotates along one direction, a workpiece enters from the upper opening of the material distributing cavity, can sequentially pass through the inlet of the first feeding cavity and the inlet of the second feeding cavity after being pushed by the material distributing module,

the baffle plate shields the inlet of the first feeding cavity to form a first guiding state, the workpiece enters the inlet of the second feeding cavity through the guiding of the baffle plate,

the baffle plate and the inlet of the first feeding cavity are staggered to form a second guiding state,

the material distributing module and the baffle plate are driven to rotate by a driving mechanism.

2. The flattening device for multi-port conveying on the weld ring forming machine according to claim 1, characterized in that the inner wall of the material distributing cavity is annular, the thickness of the material distributing module is the same as the width of the material distributing cavity, the two ends of the material distributing module are provided with arc ends, the rotation point of the material distributing module is at the center, the arc ends are clung to the inner wall of the material distributing cavity, a storage space is provided between the two sides of the material distributing module and the inner wall of the material distributing cavity, the material distributing cavity is provided with a lower opening,

when the first guiding state is adopted, the object placing space rotates to be communicated with the lower opening, and the baffle plate shields the inlet of the first feeding cavity.

3. The flattening device for multi-port conveying on the weld ring forming machine according to claim 1, wherein the material distributing module rotates one circle in the material distributing cavity, and the baffle swings one time in a single direction.

4. The flattening device for multi-port conveying on the weld ring forming machine according to claim 1, wherein the driving mechanism comprises a driving source and a plurality of sets of transmission gears, the driving source comprises a motor, a driving gear is arranged on the motor, the driving gear is further meshed with one set of transmission gears, the transmission gears are connected with a first driven gear, and the first driven gear is fixedly connected with the material distributing module.

5. The flattening device for multi-port conveying on the weld ring forming machine according to claim 4, wherein the driving mechanism further comprises a reciprocating assembly, the reciprocating assembly comprises a first rack, the first rack is limited on a first guide rail of the machine body to move linearly, an eccentric rotating point of the driving gear is hinged to one end of a rocker, the other end of the rocker is hinged to the first rack, a baffle is fixedly connected with a second driven gear, and the second driven gear is connected with the first rack through a transmission gear.

6. The flattening device for multi-port conveying on the weld ring forming machine according to claim 5, characterized in that a second guide rail is arranged on the machine body, a second rack is arranged to limit the linear motion on the second guide rail, a second driven gear is connected with the second rack through a transmission gear, the first rack and the second rack perform reverse linear motion, and the first rack and the second rack are both connected with a weld ring flattening mechanism.

7. The flattening device for multi-port conveying on a weld ring forming machine according to claim 1, characterized in that the baffle swings between an included angle of 10 ° and 90 ° with the horizontal plane.

8. The flattening device for multi-port conveying on the welding ring forming machine according to claim 1, characterized in that a workbench is arranged below the material distributing mechanism and the welding ring flattening mechanism, a workpiece bowl is fixed on the workbench, a through hole is arranged at the bottom end of the workpiece bowl, the through hole penetrates through the workbench, a conveyor belt is arranged below the workbench, a plurality of assembly parts with material receiving grooves are connected to the conveyor belt, and workpieces fall into the material receiving grooves of the assembly parts along the workpiece bowl.

9. The multi-port conveying flattening device for the weld ring forming machine according to claim 8, wherein the driving mechanism drives the two weld ring flattening mechanisms to reciprocate alternately, the weld ring flattening mechanisms comprise slide blocks and pressure rods, the pressure rods are fixedly connected to the bottoms of the slide blocks, the slide blocks are limited in slide rails of the machine body to slide in a reciprocating mode, and when the slide blocks slide downwards, the pressure rods can penetrate through holes at the bottom ends of the workpiece bowls and press the workpiece receiving grooves in the conveying belts.

10. The flattening device for multi-port conveying on a weld ring forming machine according to claim 8, wherein the conveyor belt is provided with a limiting screw, the bottom of the assembly part is provided with a limiting groove, and the limiting screw is inserted into the limiting groove.

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