CN209956907U - Zinc alloy stacking mechanism - Google Patents

Abstract

The utility model discloses a zinc alloy stacking mechanism, which comprises a track plate, a sliding plate, a blocking mechanism and a driving mechanism; the track plate is obliquely arranged, the sliding plate is positioned below the track plate, and a plurality of containing frames are arranged on the sliding plate and used for containing the alloy columns rolled down from the track plate; rotating the connecting rod, wherein the partition plate extends into the upper part of the track plate from the lower part of the track plate through the through groove to partition the sequentially stacked alloy columns, the blocking plate is opened, and the alloy columns positioned in front of the partition plate roll off from the track plate; the driving mechanism comprises a rotating shaft, a cam, round teeth and bar-shaped teeth, the cam is arranged on the rotating shaft and used for jacking the lower supporting rod, the round teeth are arranged on the rotating shaft and meshed with the round teeth, and one end of the bar-shaped teeth is connected with the sliding plate. This serves as a convenient stacking function.

Description

Zinc alloy stacking mechanism

Technical Field

The invention relates to alloy stacking equipment, in particular to a zinc alloy stacking mechanism.

Background

The zinc alloy is an alloy formed by adding other elements on the basis of zinc. The common alloy elements comprise low-temperature zinc alloy such as aluminum, copper, magnesium, cadmium, lead, titanium and the like. The zinc alloy has low melting point, good fluidity, easy fusion welding, brazing and plastic processing, corrosion resistance in the atmosphere and convenient recovery and remelting of residual wastes.

In some fields, the zinc alloy needs to be made into a cylindrical shape, but the cylindrical zinc alloy is often laborious in the stacking process, generally placed in a storage rack for storage, and the zinc alloy needs to be manually transported due to the special properties of the zinc alloy, so that the zinc alloy is time-consuming and labor-consuming.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a zinc alloy stacking mechanism convenient for stacking.

In order to achieve the purpose, the invention provides the following technical scheme:

a zinc alloy stacking mechanism, which is characterized in that,

comprises a track plate, a sliding plate, a blocking mechanism and a driving mechanism;

the track plate is obliquely arranged, the sliding plate is positioned below the track plate, a plurality of containing frames are arranged on the sliding plate, and the containing frames are used for containing alloy columns rolled down from the track plate;

the blocking mechanism comprises a connecting rod, an upper supporting rod and a lower supporting rod, the upper supporting rod is located above the track plate, the lower supporting rod is located below the track plate, a blocking plate is arranged on the upper supporting rod and faces the track plate, the blocking plate is used for blocking the alloy column from rolling down, a partition plate is arranged on the lower supporting rod, a through groove with the width smaller than that of the alloy column is arranged on the track plate, the connecting rod is rotatably connected to the track plate, and the blocking plate is located in front of the partition plate in the alloy column rolling direction;

rotating the connecting rod, wherein the partition plate extends into the upper part of the track plate from the lower part of the track plate through the through groove, the sequentially stacked alloy columns are partitioned, the blocking plate is opened, and the alloy columns positioned in front of the partition plate roll down from the track plate;

the driving mechanism comprises a rotating shaft, a cam, round teeth and strip-shaped teeth, the cam is arranged on the rotating shaft and used for jacking the lower supporting rod, the round teeth are arranged on the rotating shaft and meshed with the round teeth, and one end of the strip-shaped teeth is connected with the sliding plate.

As a further improvement of the present invention,

the track plate is provided with a blocking edge, the blocking edge is provided with a hinge post, the connecting rod is provided with a hinge hole, and the hinge hole is hinged to the hinge post.

As a further improvement of the present invention,

and the lower supporting rod is provided with a touch plate which keeps touching with the cam.

As a further improvement of the present invention,

the sliding plate is provided with a limiting groove, the limiting groove is provided with an opening, the containing frame enters the limiting groove from the opening, the bottom of the sliding plate is provided with rollers, and one side of the sliding plate, which is provided with the opening, is provided with an inclined table.

As a further improvement of the present invention,

the rolling wheel device also comprises a running track, and the rolling wheel moves in the running track.

As a further improvement of the present invention,

go up branch and include main tributary pole and go up the auxiliary branch, it is connected with the connecting rod to go up the main tributary pole, go up and be provided with a plurality of first screw holes on the main tributary pole, go up and be provided with on the auxiliary branch and be used for with the endocentric second screw hole of first screw hole, the barrier plate is connected on last auxiliary branch.

As a further improvement of the present invention,

the baffle plate is provided with overhead gage and lower baffle, the overhead gage is connected with last support bar, be provided with a plurality of third screw holes on the overhead gage, be provided with a plurality of fourth screw holes that are used for with the third screw hole is endocentric on the baffle down.

As a further improvement of the present invention,

the partition plate comprises an upper partition plate and a lower partition plate, the lower partition plate is connected with the lower support rod, a plurality of fifth threaded holes are formed in the lower partition plate, and a plurality of sixth threaded holes which are concentric with the fifth threaded holes are formed in the upper partition plate.

As a further improvement of the present invention,

a plurality of hinge holes are distributed on the connecting rod.

As a further improvement of the present invention,

and a slot is arranged below the sliding plate relative to the limiting groove, is communicated with the limiting groove and has a width smaller than that of the limiting groove.

The invention has the advantages that in the actual use process, the output end of the equipment which can produce the cylindrical alloy column is directly connected, the alloy column falls through the track plate and is blocked by the blocking plate in the rolling process, at the moment, the sliding plate can be pulled to drive the strip-shaped teeth to move through the movement of the sliding plate, then the strip-shaped teeth are meshed with the circular teeth, at the moment, the rotating shaft can be driven to rotate, simultaneously, the cam can rotate along with the continuous rotation of the rotating shaft, the cam jacks up the lower supporting rod, the lower supporting rod is connected with the connecting rod to drive the connecting rod to rotate, at the moment, the lower supporting rod rises to drive the partition plate to pass through the through groove and enter the track plate to block the alloy column behind the partition plate, at the same time, the upper supporting plate rises in the rotating process and drives the blocking plate to rise to play a role of contacting and blocking the alloy column, so that the alloy column, then, the alloy column can enter the storage frame on the sliding plate, then the sliding plate is continuously pulled, the rotating shaft continuously rotates, the cam releases the jacking state of the lower support rod, the lower support rod and the upper support rod are restored to the original state, the partition plate leaves the track plate through the through groove, the blocking is removed, the blocking plate enters the track plate, the alloy column is blocked again, then the alloy column continuously rolls down and is blocked by the blocking plate, and therefore the effect of facilitating stacking is achieved.

Drawings

Fig. 1 is a schematic overall structure diagram of a first embodiment of the present invention;

FIG. 2 is a schematic side view of the overall structure of the first embodiment of the present invention;

FIG. 3 is a schematic overall structure diagram of a second embodiment of the present invention;

FIG. 4 is a schematic partial structure diagram according to a third embodiment of the present invention;

fig. 5 is a schematic side view of a part of the structure of the third embodiment of the present invention.

Reference numerals:

1. a track plate; 2. a sliding plate; 3. a blocking mechanism; 4. a drive mechanism; 5. a storage rack; 6. an alloy pillar; 7. a connecting rod; 8. an upper support rod; 9. a lower support rod; 10. a blocking plate; 11. a partition plate; 12. a through groove; 13. a rotating shaft; 14. a cam; 15. round teeth; 16. a bar-shaped tooth; 17. blocking edges; 18. a hinged column; 19. a hinge hole; 20. a touch plate; 21. a limiting groove; 22. an opening; 23. a roller; 24. a tilting table; 25. running the track; 26. an upper main support rod; 27. an upper auxiliary supporting rod; 28. a first threaded hole; 29. a second threaded hole; 30. an upper baffle plate; 31. a lower baffle plate; 32. a third threaded hole; 33. a fourth threaded hole; 34. an upper partition plate; 35. a lower partition plate; 36. a fifth threaded hole; 47. a sixth threaded hole; 38. a slot; 39. a rotating electric machine.

Detailed Description

The invention will be further described in detail with reference to the following examples, which are given in the accompanying drawings.

As shown with reference to figures 1 to 5,

referring to fig. 1 to 2, in a first embodiment:

a zinc alloy stacking mechanism, which is characterized in that,

comprises a track plate 1, a sliding plate 2, a blocking mechanism 3 and a driving mechanism 4;

the track plate 1 is obliquely arranged, the sliding plate 2 is positioned below the track plate 1, a plurality of containing frames 5 are arranged on the sliding plate 2, and the containing frames 5 are used for containing alloy columns 6 rolled down from the track plate 1;

the blocking mechanism 3 comprises a connecting rod 7, an upper support rod 8 positioned above the track plate 1 and a lower support rod 9 positioned below the track plate 1, wherein the upper support rod 8 is provided with a blocking plate 10 towards the track plate 1, the blocking plate 10 is used for blocking the alloy column 6 from rolling down, the lower support rod 9 is provided with a partition plate 11, the track plate 1 is provided with a through groove 12 with the width smaller than that of the alloy column 6, the connecting rod 7 is rotatably connected to the track plate 1, and the blocking plate 10 is positioned in front of the partition plate 11 in the rolling-down direction of the alloy column 6;

rotating the connecting rod 7, extending the partition plate 11 from the lower part of the track plate 1 to the upper part of the track plate 1 through the through groove 12, partitioning the sequentially stacked alloy columns 6, opening the blocking plate 10, and rolling off the alloy columns 6 positioned in front of the partition plate 11 from the track plate 1;

the driving mechanism 4 comprises a rotating shaft 13, a cam 14, a round tooth 15 and a strip tooth 16, wherein the cam 14 is arranged on the rotating shaft 13, the cam 14 is used for jacking the lower support rod 9, the round tooth 15 is arranged on the rotating shaft 13, the strip tooth 16 is meshed with the round tooth 15, and one end of the strip tooth 16 is connected with the sliding plate 2.

Through the technical scheme, in the actual use process, the output end of equipment capable of producing the cylindrical alloy column 6 is directly connected, the alloy column 6 falls through the track plate 1 and is blocked by the blocking plate 10 in the rolling process, the sliding plate can be pulled at the moment, the strip-shaped teeth 16 are driven to move through the movement of the sliding plate, then the strip-shaped teeth 16 are meshed with the circular teeth 15, the rotating shaft 13 can be driven to rotate at the moment, the cam 14 can rotate along with the continuous rotation of the rotating shaft 13, the cam 14 jacks up the lower support rod 9, the lower support rod 9 is driven to rotate due to the connection of the lower support rod 9 and the connecting rod 7, at the moment, the lower support rod 9 rises to drive the partitioning plate 11 to penetrate through the through groove 12 and enter the track plate 1, the alloy column 6 behind the partitioning plate 11 is blocked, and simultaneously the upper support rod rises in the rotation process and drives the blocking plate 10 to rise, the function of contacting and blocking the alloy column 6 is achieved, so that the alloy column 6 slides downwards along the track plate 1 and then can enter the containing frame 5 on the sliding plate 2, then the sliding plate 2 is pulled continuously, the rotating shaft 13 rotates continuously, the cam 14 releases the jacking state of the lower support rod 9, the lower support rod 9 and the upper support rod 8 are restored to the original state, the partition plate 11 leaves the track plate 1 through the through groove 12 and releases the blocking, the blocking plate 10 enters the track plate 1 and blocks the alloy column 6 again, and then the alloy column 6 continues to roll down and is blocked by the blocking plate 10, so that the function of facilitating stacking is achieved.

And may be stacked in groups of several alloy pillars 6 as shown.

As a further improvement of the present invention,

be provided with on the track board 1 and keep off along 17, keep off and be provided with hinge post 18 on the edge 17, be provided with hinge hole 19 on the connecting rod, hinge hole 19 articulates on hinge post 18.

Through above-mentioned technical scheme, keep off along 17 setting, can play the limiting displacement to alloy post 6 for alloy post 6 can not take place to deflect the emergence rolling the in-process, rolls in the track board 1, through the cooperation of hinge post 18 and hinge hole 19, can play a control connecting rod pivoted technological effect, makes the connecting rod can not take place the skew.

As a further improvement of the present invention,

the lower strut 9 is provided with a contact plate 20, the contact plate 20 being kept in contact with the cam 14.

Through the technical scheme, the contact area of the cam 14 is increased through the arrangement of the abutting plate 20, so that the matching fault tolerance of the cam 14 is higher.

As a further improvement of the present invention,

the sliding plate 2 is provided with a limiting groove 21, the limiting groove 21 is provided with an opening 22, the storage rack 5 enters the limiting groove 21 from the opening 22, the bottom of the sliding plate 2 is provided with a roller 23, and one side of the sliding plate 2 with the opening 22 is provided with an inclined table 24.

Through the technical scheme, the limiting groove 21 is arranged to play a limiting role in the storage frame 5, so that the storage frame 5 can be stably placed on the sliding plate 2, the opening 22 is arranged to facilitate the storage frame 5 to enter the limiting groove 21, and in addition, the inclined table 24 is arranged to be more convenient to assemble and disassemble the storage frame 5 into the limiting groove 21 manually and to be pushed in along the inclined table 24.

As a further improvement of the present invention,

and the running track 25 is further included, and the roller 23 moves in the running track 25.

The track 25 is arranged to limit the position of the roller 23, so as to limit the motion track of the sliding plate 2.

The sliding plate 2 is provided with a slot 38 below the limiting groove 21, and the slot 38 is communicated with the limiting groove 21 and has a width smaller than that of the limiting groove 21.

Through the technical scheme, through the arrangement of the slot 38, the fork strip of the forklift can be inserted into the slot 38, and the storage rack 5 is jacked up. Is convenient to use.

Referring to fig. 3, embodiment two:

on the basis of the first embodiment, a rotating motor 39 is arranged on the rotating shaft 13, so that the rotating shaft 13 can be rotated by controlling the motor dynamically, and the movement of the sliding plate and the movement of the upper support rod 8 and the lower support rod 9 are realized.

Referring to fig. 4 to 5, embodiment three:

on the basis of the first embodiment:

go up branch 8 and include main tributary pole 26 and go up auxiliary branch 27, it is connected with connecting rod 7 to go up main tributary pole 26, upward be provided with a plurality of first screw holes 28 on the main tributary pole 26, upward be provided with on the auxiliary branch 27 and be used for the second screw hole 29 with first screw hole 28 concentricity, barrier plate 10 is connected on last auxiliary branch 27.

Through the technical scheme, the length of the upper supporting rod 8 can be adjusted as required, so that the stacking of alloy columns 6 with different specifications can be controlled, and the two second threaded holes 29 are optimally arranged only by aligning the second threaded holes 29 with the first threaded holes 28 and screwing bolts after the length is adjusted, so that the upper main supporting rod 26 and the upper auxiliary supporting rod 27 can be prevented from rotating.

The baffle 10 is provided with an upper baffle 30 and a lower baffle 31, the upper baffle 30 is connected with the upper support rod 8, a plurality of third threaded holes 32 are formed in the upper baffle 30, and a plurality of fourth threaded holes 33 which are used for being concentric with the third threaded holes 32 are formed in the lower baffle 31.

Through above-mentioned technical scheme, can adjust the length of baffle 10 as required to the stack of the alloy post 6 of control different specifications only need after adjusting length align fourth screw hole 33 wherein third screw hole 32 twist the bolt can, with set up two fourth screw holes 33 best, can avoid taking place to rotate between overhead gage 30 and the lower baffle 31 like this.

The partition plate 11 comprises an upper partition plate 34 and a lower partition plate 35, the lower partition plate 35 is connected with the lower support rod 9, a plurality of fifth threaded holes 36 are formed in the lower partition plate 35, and a plurality of sixth threaded holes 47 which are concentric with the fifth threaded holes 36 are formed in the upper partition plate 34.

Through above-mentioned technical scheme, can adjust the length of division board 11 as required to the stack of the alloy post 6 of control different specifications only need after adjusting length with sixth screw hole 47 aim at wherein fifth screw hole 36 screw in the bolt can, with set up two sixth screw holes 47 best, can avoid taking place to rotate between last baffle 34 and the lower baffle 35 like this.

A plurality of hinge holes 19 are distributed on the connecting rod.

Through the technical scheme, the connecting rod can be inserted into the hinge column 18 through different hinge holes 19 on the connecting rod, so that the force arm is adjusted, and the stacking of the alloy columns 6 with different specifications is adapted. The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the invention may occur to those skilled in the art without departing from the principle of the invention, and are considered to be within the scope of the invention.

Claims (10)

1. A zinc alloy stacking mechanism is characterized in that:

comprises a track plate (1), a sliding plate (2), a blocking mechanism (3) and a driving mechanism (4);

the track plate (1) is obliquely arranged, the sliding plate (2) is positioned below the track plate (1), a plurality of containing frames (5) are arranged on the sliding plate (2), and the containing frames (5) are used for containing alloy columns (6) rolled down from the track plate (1);

the blocking mechanism (3) comprises a connecting rod (7), an upper supporting rod (8) located above the track plate (1) and a lower supporting rod (9) located below the track plate (1), wherein the upper supporting rod (8) is provided with a blocking plate (10) towards the track plate (1), the blocking plate (10) is used for blocking the alloy column (6) from rolling down, a partition plate (11) is arranged on the lower supporting rod (9), a through groove (12) with the width smaller than that of the alloy column (6) is formed in the track plate (1), the connecting rod (7) is rotatably connected to the track plate (1), and the blocking plate (10) is located in front of the partition plate (11) in the rolling direction of the alloy column (6);

rotating the connecting rod (7), wherein the partition plate (11) extends into the upper part of the track plate (1) from the lower part of the track plate (1) through the through groove (12), the sequentially stacked alloy columns (6) are partitioned, the blocking plate (10) is opened, and the alloy columns (6) positioned in front of the partition plate (11) roll off from the track plate (1);

the driving mechanism (4) comprises a rotating shaft (13), a cam (14), round teeth (15) and strip-shaped teeth (16), the cam (14) is arranged on the rotating shaft (13), the cam (14) is used for jacking the lower supporting rod (9), the round teeth (15) are arranged on the rotating shaft (13), the strip-shaped teeth (16) are meshed with the round teeth (15), and one end of the strip-shaped teeth (16) is connected with the sliding plate (2).

2. The zinc alloy stacking mechanism of claim 1, wherein:

be provided with on track board (1) and keep off along (17), keep off and be provided with hinge post (18) on following (17), be provided with hinge hole (19) on the connecting rod, hinge hole (19) articulate on hinge post (18).

3. The zinc alloy stacking mechanism of claim 1, wherein:

the lower support rod (9) is provided with a contact plate (20), and the contact plate (20) keeps abutting against the cam (14).

4. The zinc alloy stacking mechanism of claim 1, wherein:

the storage rack is characterized in that a limiting groove (21) is formed in the sliding plate (2), the limiting groove (21) is provided with an opening (22), the storage rack (5) enters the limiting groove (21) from the opening (22), rollers (23) are arranged at the bottom of the sliding plate (2), and an inclined table (24) is arranged on one side, provided with the opening (22), of the sliding plate (2).

5. A zinc alloy stacking mechanism according to claim 4, wherein:

the device also comprises a running track (25), and the roller (23) moves in the running track (25).

6. The zinc alloy stacking mechanism of claim 1, wherein:

go up branch (8) including last main tributary pole (26) and go up auxiliary branch (27), it is connected with connecting rod (7) to go up main tributary pole (26), it is provided with a plurality of first screw holes (28) on main tributary pole (26) to go up, be provided with on auxiliary branch (27) and be used for with first screw hole (28) endocentric second screw hole (29), baffle (10) are connected on last auxiliary branch (27).

7. The zinc alloy stacking mechanism of claim 1, wherein:

the baffle (10) is provided with an upper baffle (30) and a lower baffle (31), the upper baffle (30) is connected with the upper support rod (8), a plurality of third threaded holes (32) are formed in the upper baffle (30), and a plurality of fourth threaded holes (33) which are used for being concentric with the third threaded holes (32) are formed in the lower baffle (31).

8. The zinc alloy stacking mechanism of claim 1, wherein:

the partition plate (11) comprises an upper partition plate (34) and a lower partition plate (35), the lower partition plate (35) is connected with the lower support rod (9), a plurality of fifth threaded holes (36) are formed in the lower partition plate (35), and a plurality of sixth threaded holes (47) which are concentric with the fifth threaded holes (36) are formed in the upper partition plate (34).

9. A zinc alloy stacking mechanism according to claim 2, wherein:

a plurality of hinge holes (19) are distributed on the connecting rod.

10. The zinc alloy stacking mechanism of claim 1, wherein:

the lower part of the sliding plate (2) relative to the limiting groove (21) is provided with a slot (38), the slot (38) is communicated with the limiting groove (21), and the width of the slot is smaller than that of the limiting groove (21).

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