CN111452249A - Rubber extrusion device based on mechanical transmission - Google Patents

Abstract

The invention relates to the technical field of rubber production, and discloses a rubber extrusion forming device based on mechanical transmission, which comprises a first input shaft, wherein the outer side of the first input shaft is movably connected with a first gear, the outer side of the first gear is movably connected with a second gear, the bottom end of a ninth connecting rod is movably connected with a push plate, the inner part of a second workbench is movably connected with a slide way, the bottom end of the ninth connecting rod is movably connected with a second slide block, the outer side of the second slide block is movably connected with a connecting plate, the right end of the connecting plate is provided with a through groove, and the right end of the second workbench is movably connected with a connecting channel. This rubber extrusion forming device first input shaft based on mechanical transmission, the connection of placing the platform have been solved and have been met the equipment among the prior art in the processing rubber process usually and have the incomplete problem of dehydration, have reduced the bubble that produces of gas composition such as residual air in rubber, improve machining efficiency.

Description

Rubber extrusion device based on mechanical transmission

Technical Field

The invention relates to the technical field of rubber production, in particular to a rubber extrusion forming device based on mechanical transmission.

Background

The rubber is a high-elasticity polymer material with reversible deformation, is rich in elasticity at room temperature, can generate large deformation under the action of small external force, and can recover the original shape after the external force is removed. The rubber has good wear resistance, high elasticity, tensile strength at break and elongation, so the rubber becomes necessary material for manufacturing airplanes, warships, automobiles, tractors, harvesters, water conservancy irrigation and drainage machines, medical appliances and the like.

When rubber is applied to manufacturing, need generally with rubber machine-shaping, the equipment that can meet among the prior art in the rubber processing process usually exists the incomplete condition of dehydration, and gas composition such as residual air in the rubber and bubble make machining efficiency reduce, and most rubber extrusion device generally can increase power equipment in addition, has increased the energy consumption of processing man-hour, has improved manufacturing cost.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a rubber extrusion forming device based on mechanical transmission, which has the advantages of extruding bubbles, improving the processing efficiency, reducing the energy consumption and the production cost, and solves the problems of bubble residue, low processing efficiency, high energy consumption and high production cost.

(II) technical scheme

In order to achieve the purpose, the invention provides the following technical scheme: a rubber extrusion forming device based on mechanical transmission comprises a first input shaft, wherein a first gear is movably connected to the outer side of the first input shaft, a second gear is movably connected to the outer side of the first gear, a second input shaft is movably connected to the inner side of the second gear, a cam is movably connected to the outer side of the second input shaft, a first connecting rod is movably connected to the outer side of the cam, one end of the first connecting rod is movably connected with a first rotating piece, the top end of the first rotating piece is movably connected with a second rotating piece, the outer side of the second rotating piece is movably connected with a second connecting rod, a first workbench is movably connected to the surface of the second connecting rod, a first support is movably connected to one end of the first connecting rod, a second workbench is movably connected to the bottom of the first support, a second support is movably connected to the surface of the second workbench, a placing table is movably connected to the top end of the second support, and a third input shaft is movably; one end of the third connecting rod is movably connected with a fourth connecting rod, the bottom end of the fourth connecting rod is movably connected with a fifth connecting rod, the outer side of the fifth connecting rod is sleeved with a pressing plate, the bottom end of the fifth connecting rod is movably connected with a spring, one end of the pressing plate is movably connected with a fixed plate, the outer side of the first input shaft is movably connected with a sixth connecting rod, one end of the sixth connecting rod is movably connected with a first sliding block, the outer side of the first sliding block is movably connected with a connecting piece, the outer side of the connecting piece is movably connected with a seventh connecting rod, the inner wall of the second workbench is movably connected with a sleeve shaft, one end of the seventh connecting rod is movably connected with an eighth connecting rod, one end of the eighth connecting rod is movably connected with a ninth connecting rod, the bottom end of the ninth connecting rod is movably connected with a push plate, the inner part of the second workbench, the right end of the connecting plate is provided with a through groove, and the right end of the second workbench is movably connected with a connecting channel.

Preferably, a boss is arranged on the outer side of the cam, a protrusion is arranged at one end of the first connecting rod, and the boss is movably connected with the protrusion.

Preferably, a groove is formed in the outer side of the first rotating part and movably connected with the first connecting rod.

Preferably, the first input shaft is movably connected with a motor, the inside of the placing table is movably connected with the motor, and the motor is movably connected with the third input shaft.

Preferably, the outer side of the third input shaft is movably connected with a third gear, the outer side of the third gear is movably connected with a third connecting rod, one end of the third input shaft is movably connected with a sword gear, and the number of the sword gears is not less than three, and the three sword gears are movably connected.

Preferably, the sleeve shaft is movably connected with the seventh connecting rod.

Preferably, the top end of the ninth connecting rod is movably connected with a sliding block, and the sliding block is movably connected with the slide way.

(III) advantageous effects

Compared with the prior art, the invention provides a rubber extrusion forming device based on mechanical transmission, which has the following beneficial effects:

1. this rubber extrusion forming device first input shaft, second gear, second input shaft, first support based on mechanical transmission, place the connection of platform, solved and to have met the equipment among the prior art in the processing rubber process usually and have the incomplete problem of dehydration, reduced the bubble that produces of gas composition such as residual air in the rubber, improve machining efficiency.

2. This rubber extrusion device based on mechanical transmission through the connection of fourth connecting rod, fifth connecting rod, spring, ninth connecting rod, interface channel, has solved most rubber extrusion device and can increase the problem of power equipment usually, has reduced the energy consumption of adding man-hour, has reduced manufacturing cost.

Drawings

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

FIG. 2 is a schematic side view of a connecting channel according to the present invention;

FIG. 3 is a schematic top view of a second stage according to the present invention;

FIG. 4 is a schematic front view of the extruding apparatus of the present invention;

FIG. 5 is a schematic top view of the toggle apparatus of the present invention;

FIG. 6 is an enlarged view of the structure at A in FIG. 1 according to the present invention;

FIG. 7 is an enlarged view of the structure at B in FIG. 1 according to the present invention.

In the figure: 1. a first input shaft; 2. a first gear; 3. a second gear; 4. a second input shaft; 5. a cam; 6. a first link; 7. a first rotating member; 8. a second rotating member; 9. a second link; 10. a first table; 11. a first bracket; 12. a second table; 13. a second bracket; 14. a placing table; 15. a third input shaft; 16. a third link; 17. a fourth link; 18. a fifth link; 19. pressing a plate; 20. a spring; 21. a fixing plate; 22. a sixth link; 23. a first slider; 24. a connecting member; 25. a seventh connecting rod; 26. a sleeve shaft; 27. an eighth link; 28. a ninth link; 29. pushing the plate; 30. a slideway; 31. a second slider; 32. a connecting plate; 33. a through groove; 34. a connecting channel.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-7, a rubber extrusion molding apparatus based on mechanical transmission comprises a first input shaft 1, a first gear 2 movably connected to the outer side of the first input shaft 1, a second gear 3 movably connected to the outer side of the first gear 2, a second input shaft 4 movably connected to the inner side of the second gear 3, a cam 5 movably connected to the outer side of the second input shaft 4, a first connecting rod 6 movably connected to the outer side of the cam 5, a boss arranged on the outer side of the cam 5, a protrusion arranged on one end of the first connecting rod 6 and movably connected to the boss, a first rotating member 7 movably connected to one end of the first connecting rod 6, a groove arranged on the outer side of the first rotating member 7 and movably connected to the first connecting rod 6, a second rotating member 8 movably connected to the top end of the first rotating member 7, a second connecting rod 9 movably connected to the outer side of the second rotating member 8, a first worktable 10 movably connected to the surface of the second connecting rod 9, one end swing joint of first connecting rod 6 has first support 11, the bottom swing joint of first support 11 has second workstation 12, the surperficial swing joint of second workstation 12 has second support 13, the top swing joint of second support 13 has places first input shaft 1 of platform 14 and motor swing joint, place the inside swing joint of platform 14 and have the motor, motor and 15 swing joint of third input shaft, the outside swing joint who places platform 14 has third input shaft 15, the outside swing joint of third input shaft 15 has the third gear, third gear outside swing joint has third connecting rod 16, the one end swing joint of third input shaft 15 has sword gear.

The number of the sword gears is not less than three, the three sword gears are movably connected, one end of a third connecting rod 16 is movably connected with a fourth connecting rod 17, the bottom end of the fourth connecting rod 17 is movably connected with a fifth connecting rod 18, the outer side of the fifth connecting rod 18 is sleeved with a pressing plate 19, the bottom end of the fifth connecting rod 18 is movably connected with a spring 20, one end of the pressing plate 19 is movably connected with a fixing plate 21, the outer side of a first input shaft 1 is movably connected with a sixth connecting rod 22, one end of the sixth connecting rod 22 is movably connected with a first sliding block 23, the outer side of the first sliding block 23 is movably connected with a connecting piece 24, the outer side of the connecting piece 24 is movably connected with a seventh connecting rod 25, the inner wall of the second workbench 12 is movably connected with a sleeve shaft 26, the sleeve shaft 26 is movably connected with the seventh connecting rod 25, one end of the seventh connecting rod 25 is movably connected with an eighth connecting rod 27, one, the inside swing joint of second workstation 12 has slide 30, and the top swing joint of ninth connecting rod 28 has the slider, slider and slide 30 swing joint, and the bottom swing joint of ninth connecting rod 28 has second slider 31, and the outside swing joint of second slider 31 has connecting plate 32, and the right-hand member of connecting plate 32 is provided with logical groove 33, and the right-hand member swing joint of second workstation 12 has interface channel 34.

The working principle is that the rubber extrusion forming device based on mechanical transmission comprises a first input shaft 1, wherein the first input shaft 1 is connected with a motor, the first input shaft 1 is connected with a first gear 2, the first gear 2 is connected with a second gear 3, the first input shaft 1 drives the first gear 2 and the second gear 3 to rotate by starting the motor, the inner side of the second gear 3 is connected with a second input shaft 4, the second input shaft 4 is connected with a cam 5, the second input shaft 4 rotates to drive the cam 5 to rotate, the cam 5 is connected with a first connecting rod 6, the outer side of the cam 5 is provided with a boss, one end of the first connecting rod 6 is provided with a boss which is connected with the boss, the cam 5 rotates to drive the boss to drive the first connecting rod 6 to swing clockwise, the first connecting rod 6 is connected with a first rotating piece 7, the outer side of the first rotating piece 7 is provided with a groove, and the groove is connected with the first connecting, the first connecting rod 6 releases the groove, the first rotating piece 7 rotates clockwise, the top end of the first rotating piece 7 is connected with the second rotating piece 8, the second rotating piece 8 is connected with the second connecting rod 9, the first rotating piece 7 enables the second rotating piece 8 to drive the second connecting rod 9 to rotate clockwise for a half circle, and the surface of the second connecting rod 9 is connected with the first workbench 10 to enable the rubber material to move downwards.

The surface of the second workbench 12 is connected with a second bracket 13, the top end of the second bracket 13 is connected with a placing platform 14, the interior of the placing platform 14 is connected with a motor, the motor is connected with a third input shaft 15, the motor is started, the placing platform 14 is connected with a third input shaft 15, the third input shaft 15 is connected with a third gear, the third input shaft 15 is connected with a sword gear, the sword gear is not less than three, the three sword gears are connected, the right sword gear drives the third gear to rotate, the third input shaft 15 drives the third gear to rotate, the outer side of the third gear is connected with a third connecting rod 16, the third gear drives the third connecting rod 16 to rotate from the bottommost end to the highest end, the third connecting rod 16 is connected with a fourth connecting rod 17, the fourth connecting rod 17 is connected with a fifth connecting rod 18, the third connecting rod 16 drives the fourth connecting rod 17 and the fifth connecting rod 18 to move upwards, the outer side of the fifth connecting rod 18 is sleeved with a pressing plate 19, the third gear drives the third connecting rod 16 from the highest end to the lowest end, so that the pressing plate 19 moves downwards to extrude the rubber, the fifth connecting rod 18 is connected with a spring 20, the pressing plate 19 is connected with a fixing plate 21, and the fixing plate 21 fixes two sides of the rubber material.

The first input shaft 1 is connected with a sixth connecting rod 22 to enable the sixth connecting rod 22 to rotate, the sixth connecting rod 22 is connected with a first sliding block 23, the first sliding block 23 is connected with a connecting piece 24, the sixth connecting rod 22 rotates to enable the first sliding block 23 to drive the connecting piece 24 to reciprocate on the same straight line, the connecting piece 24 is connected with a seventh connecting rod 25 to enable the seventh connecting rod 25 to reciprocate on the same straight line, the seventh connecting rod 25 is connected with an eighth connecting rod 27, the eighth connecting rod 27 is connected with a ninth connecting rod 28, the ninth connecting rod 28 is connected with a push plate 29, the inside of the second workbench 12 is connected with a slide way 30, the top end of the ninth connecting rod 28 is connected with a sliding block, the sliding block is connected with the slide way 30, the seventh connecting rod 25 drives the eighth connecting rod 27 to move towards a connecting channel 34 to enable the sliding block connected with the ninth connecting rod 28 to move in the slide way 30, the ninth connecting rod, the second sliding block 31 moves rightwards on the upper side of the connecting plate 32, a through groove 33 is formed in the right end of the connecting plate 32, a connecting channel 34 is connected to the right end of the second workbench 12, and the second sliding block 31 moves into the through groove 33, so that the pushing plate 29 pushes the rubber materials into the connecting channel 34.

In conclusion, the rubber extrusion molding device based on mechanical transmission is connected with the first input shaft 1, the second gear 3, the second input shaft 4, the first bracket 11 and the placing table 14, so that the problem that the conventional equipment is not completely dehydrated in the rubber processing process is solved, bubbles generated by residual air and other gas components in the rubber are reduced, and the processing efficiency is improved.

This rubber extrusion device based on mechanical transmission through the connection of fourth connecting rod 17, fifth connecting rod 18, spring 20, ninth connecting rod 28, interface channel 34, has solved most rubber extrusion device and can increase the problem of power equipment usually, has reduced the energy consumption of processing man-hour, has reduced manufacturing cost.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides a rubber extrusion device based on mechanical transmission, includes first input shaft (1), its characterized in that: the outer side of the first input shaft (1) is movably connected with a first gear (2), the outer side of the first gear (2) is movably connected with a second gear (3), the inner side of the second gear (3) is movably connected with a second input shaft (4), the outer side of the second input shaft (4) is movably connected with a cam (5), the outer side of the cam (5) is movably connected with a first connecting rod (6), one end of the first connecting rod (6) is movably connected with a first rotating piece (7), the top end of the first rotating piece (7) is movably connected with a second rotating piece (8), the outer side of the second rotating piece (8) is movably connected with a second connecting rod (9), the surface of the second connecting rod (9) is movably connected with a first workbench (10), one end of the first connecting rod (6) is movably connected with a first support (11), the bottom of the first support (11) is movably connected with a second workbench (12), the surface of the second workbench (12) is movably connected with a second bracket (13), the top end of the second bracket (13) is movably connected with a placing table (14), and the outer side of the placing table (14) is movably connected with a third input shaft (15); one end of the third connecting rod (16) is movably connected with a fourth connecting rod (17), the bottom end of the fourth connecting rod (17) is movably connected with a fifth connecting rod (18), the outer side of the fifth connecting rod (18) is sleeved with a pressing plate (19), the bottom end of the fifth connecting rod (18) is movably connected with a spring (20), one end of the pressing plate (19) is movably connected with a fixing plate (21), the outer side of the first input shaft (1) is movably connected with a sixth connecting rod (22), one end of the sixth connecting rod (22) is movably connected with a first sliding block (23), the outer side of the first sliding block (23) is movably connected with a connecting piece (24), the outer side of the connecting piece (24) is movably connected with a seventh connecting rod (25), the inner wall of the second workbench (12) is movably connected with a sleeve shaft (26), one end of the seventh connecting rod (25) is movably connected with an eighth connecting rod (27), one end of the eighth, the bottom end of the ninth connecting rod (28) is movably connected with a push plate (29), the inside of the second workbench (12) is movably connected with a slide way (30), the bottom end of the ninth connecting rod (28) is movably connected with a second sliding block (31), the outer side of the second sliding block (31) is movably connected with a connecting plate (32), the right end of the connecting plate (32) is provided with a through groove (33), and the right end of the second workbench (12) is movably connected with a connecting channel (34).

2. A rubber extrusion moulding apparatus based on mechanical transmission as claimed in claim 1, wherein: the outer side of the cam (5) is provided with a boss, one end of the first connecting rod (6) is provided with a protrusion, and the boss is movably connected with the protrusion.

3. A rubber extrusion moulding apparatus based on mechanical transmission as claimed in claim 1, wherein: the outer side of the first rotating part (7) is provided with a groove, and the groove is movably connected with the first connecting rod (6).

4. A rubber extrusion moulding apparatus based on mechanical transmission as claimed in claim 1, wherein: the first input shaft (1) is movably connected with a motor, the interior of the placing table (14) is movably connected with the motor, and the motor is movably connected with the third input shaft (15).

5. A rubber extrusion moulding apparatus based on mechanical transmission as claimed in claim 1, wherein: the outer side of the third input shaft (15) is movably connected with a third gear, the outer side of the third gear is movably connected with a fourth connecting rod (16), one end of the third input shaft (15) is movably connected with a sword gear, the number of the sword gears is not less than three, and the three sword gears are movably connected.

6. A rubber extrusion moulding apparatus based on mechanical transmission as claimed in claim 1, wherein: the sleeve shaft (26) is movably connected with the seventh connecting rod (25).

7. A rubber extrusion moulding apparatus based on mechanical transmission as claimed in claim 1, wherein: the top end of the ninth connecting rod (28) is movably connected with a sliding block, and the sliding block is movably connected with a slide way (30).

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