CN218020292U - Tire mounting mechanism of large-specification hydraulic vulcanizing machine - Google Patents

Abstract

The utility model discloses a big specification hydraulic pressure vulcanizer dress child mechanism, it grabs the child ware and passes through guide rail I to be installed on the front end of left or right wallboard, it moves from top to bottom to grab the I drive of power device of child ware installation on corresponding the wallboard down, a left side, right side wallboard is installed respectively in a left side, on right guide rail I, a left side, right side guide rail I is installed respectively in a left side, on the right rail seat, a left side, right side wallboard is left, preceding under the drive of right power device II, back synchronous motion, on vulcanize the room and install on left guide rail II and the right wallboard of installation on the left wallboard, on vulcanize the room on a left side, power device III drive that sets up respectively on left rail seat and right rail seat moves from top to bottom, it sets up the front side of vulcanizing the room under to deposit the child ware. The utility model discloses a grab child ware and need not rotate and can adorn the child of unloading promptly, reduced the height of host computer wallboard frame, and intensity is high, and the operation is stable, has improved the reliability and the precision of vulcanizer, has reduced manufacturing cost.

Description

Tire mounting mechanism of large-specification hydraulic vulcanizing machine

Technical Field

The utility model relates to a tire design vulcanizer part structure specifically is a big specification hydraulic pressure vulcanizer dress child mechanism.

Background

At present, no large-specification hydraulic vulcanizing machine tire mounting mechanism is used on line at home, only a conventional hydraulic vulcanizing machine tire mounting mechanism is used on line, the conventional hydraulic vulcanizing machine tire mounting mechanism needs a tire grabber to rotate in and out of a vulcanizing station to mount and dismount tires, the tire grabber needs to be lower than an upper vulcanizing chamber and higher than a bladder straightening height when rotating in, a host wallboard frame needs to be manufactured to be very high, and the host wallboard frame of a large-specification hydraulic vulcanizing machine needs to be higher, so that the large-specification hydraulic vulcanizing machine is poor in operation stability, large in shaking and low in precision when the tire grabber rotates in and out of the vulcanizing station.

SUMMERY OF THE UTILITY MODEL

The not enough to prior art, the utility model aims to solve the technical problem that a big specification hydraulic pressure vulcanizer dress child mechanism that operation is stable, safe and reliable, production efficiency is high has been proposed.

The large-specification hydraulic vulcanizing machine tire mounting mechanism comprises a tire grabbing device, the tire grabbing device is arranged at the front end of a left wall plate or a right wall plate through a guide rail I, the tire grabbing device moves up and down under the driving of a power device I arranged on the corresponding wall plate, the left wall plate and the right wall plate are respectively arranged on the left guide rail I and the right guide rail I, the left guide rail I and the right guide rail I are respectively arranged on a left rail seat and a right rail seat, the left wall plate and the right wall plate move front and back under the driving of a left power device II and a right power device II, an upper vulcanizing chamber is arranged on a left guide rail II arranged on the left wall plate and a right guide rail II arranged on the right wall plate, the upper vulcanizing chamber moves up and down under the driving of a power device III respectively arranged on the left wall plate and the right wall plate, a lower vulcanizing chamber is arranged at the front part of the left rail seat and the right rail seat, and a tire storage device is arranged at the front side of the lower vulcanizing chamber.

And further, the left wall plate and the right wall plate move forwards to a tire grabbing position where the upper vulcanizing chamber and the lower vulcanizing chamber are concentric, and the tire grabbing device is aligned with the tire storing device to grab the green tire.

And further, the left wall plate and the right wall plate move backwards to a tire mounting position where the upper vulcanizing chamber and the lower vulcanizing chamber are staggered, and the tire grabber is aligned with the lower vulcanizing chamber to place a green tire.

Preferably, the power device I adopts a lifting oil cylinder, and a cylinder rod extending upwards from the lifting oil cylinder is connected with the tire grabber.

And the driving gears on the rotating shafts of the speed reducing motors are respectively meshed with racks arranged on the left guide rail I and the right guide rail I.

And the power devices III preferably adopt mold opening and closing oil cylinders, and cylinder rods extending upwards from the mold opening and closing oil cylinders are connected with the upper vulcanizing chamber.

The utility model has the advantages that:

the utility model discloses among the big specification hydraulic pressure vulcanizer dress child mechanism structure, grab the child ware along with left and right wallboard translation, grab the child ware and need not rotate only to go up and down and can grab the child and unload the child, simple structure, mechanism intensity is high, and the operation is stable, has improved the reliability and the precision of vulcanizer, has reduced manufacturing cost.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention, showing a tire grabber in a tire grabbing position.

Fig. 2 is a top view of the embodiment of fig. 1.

FIG. 3 is a schematic view of the tire grabber in the tire loading position of the embodiment of FIG. 1.

Fig. 4 is a top view of fig. 3.

Fig. 5 is a view taken along direction a in fig. 1.

And (3) identifying the figure number: 1. a tire grabber; 2. a left wall panel; 3. a right wall panel; 4. a left guide rail I; 5. a right guide rail I; 6. an upper vulcanizing chamber; 7. opening and closing the mold oil cylinder; 8. a guide rail I; 9. a lower vulcanization chamber; 10. a tire storage device; 11. a lifting frame; 12. a lift cylinder; 13. a reduction motor; 14. a green tire; 15. a left rail seat; 16. a right rail seat; 17. a foundation; 17-1, a foundation pit; 17-2, a base station; 18. a transverse frame; 19. a guide rail II; 20. and (7) a pin shaft.

Detailed Description

The technical solution of the present invention will be further explained with reference to the embodiments shown in the drawings.

The utility model discloses big specification hydraulic pressure vulcanizer dress child mechanism, left wallboard 2 and right wallboard 3 including the symmetry setting, the bottom of left wallboard 2 is installed on left guide rail I4 through left gyro wheel is vice I, the bottom of right wallboard 3 is installed on right guide rail I5 through right gyro wheel is vice I, the top of left wallboard 2 and right wallboard 3 is connected by crossbearer 18 and is formed frame construction, left guide rail I4 and right guide rail I5 are installed respectively in the outside of left rail seat 15 and right rail seat 16, left rail seat 15 and right rail seat 16 are installed on ground 17, ground 17 between left rail seat 15 and the right rail seat 16 indent forms foundation ditch 17-1, the ground 17 epirelief in left rail seat 15 and right rail seat 16 the place forms base station 17-2, vulcanize room 9 and install in the anterior inboard of left rail seat 15 and right rail seat 16 down, the top of 17-2 is used for placing tire storage device 10, tire storage device 10 highly be higher than the top of vulcanize room 9 down and counterpoint at left wallboard 2 and right wallboard 3's central authorities, as figure 1, figure 2, figure 4, figure 5 is shown in figure 4, figure 5.

The upper part of the front end face of the right wall plate 2 is vertically provided with a guide rail I8, a lifting frame 11 is arranged on the guide rail I8 through an upper sliding seat and a lower sliding seat, a tire grabber 1 which can be aligned with a tire storage device 10 and a lower vulcanizing chamber 9 up and down is arranged on the lifting frame 11, the lower part of the front end face of the left wall plate 2 is provided with a lifting oil cylinder 12, a cylinder rod extending upwards from the lifting oil cylinder 12 is arranged at the bottom of the lifting frame 11, and the extending and retracting of the cylinder rod of the lifting oil cylinder 12 can drive the tire grabber 1 to lift up and down along the guide rail I8; an upper vulcanizing chamber 6 is arranged between the left wall plate 2 and the right wall plate 3 above the lower vulcanizing chamber 9, the left end part and the right end part of the upper vulcanizing chamber 6 are slidably arranged on left and right guide rails II 19 which are vertically arranged on the inner sides of the left wall plate 2 and the right wall plate 3, the left end part and the right end part of the upper vulcanizing chamber 6 are also arranged on cylinder rods which extend upwards from the left and right mold opening and closing cylinders 7 through corresponding horizontal pin shafts 20, each mold opening and closing cylinder 7 is embedded in the middle position of the corresponding wall plate, and the synchronous extension and contraction of the cylinder rods of the left and right mold opening and closing cylinders 7 can drive the upper vulcanizing chamber 6 to lift upwards and downwards along the left and right guide rails II 19; gear motors 13 are respectively installed at the inner side bottoms of the rear ends of the left wall plate 2 and the right wall plate 3, driving gears are installed on rotating shafts of the gear motors 13, the driving gears are meshed with racks arranged on the inner sides of corresponding guide rails (a left guide rail I4 or a right guide rail I5), the left gear motor 13 and the right gear motor 13 can synchronously drive the left wall plate 2 and the right wall plate 3 to advance and retreat along the left guide rail I4 and the right guide rail I5 when running simultaneously, the tire installing positions are formed when the left wall plate 2 and the right wall plate 3 run to the rear parts of the left guide rail I4 and the right guide rail I5, the tire grabber 1 is aligned with the lower vulcanizing chamber 9 at the moment, the tire grabbing positions are formed when the left wall plate 2 and the right wall plate 3 run to the front parts of the left guide rail I4 and the right guide rail I5, and the tire grabber 1 is aligned with the tire storage device 10 at the moment, as shown in fig. 1, fig. 2, fig. 3, fig. 4 and fig. 5.

The utility model discloses an operation mode does:

in the tire grabbing position, the cylinder rods of the left and right mold opening and closing cylinders 7 extend to drive the upper vulcanizing chamber 6 to rise to the mold opening position, the lifting cylinder 12 drives the tire grabbing device 1 to descend to grab the green tire 14 stored on the tire storage device 10, the lifting cylinder 12 lifts the tire grabbing device 1 after grabbing the green tire 14 to lift the green tire 14 to the lower vulcanizing chamber 9, the left and right speed reducing motors 13 are started (positively rotated) to drive the left wall plate 2, the right wall plate 3, the upper vulcanizing chamber 6 on the left wall plate and the tire grabbing device 1 to move backwards to the tire assembling position where the upper vulcanizing chamber 6 and the lower vulcanizing chamber 9 are staggered, the lifting cylinder 12 descends the tire grabbing device 1 to place the green tire 14 in the lower vulcanizing chamber 9, the lifting cylinder 12 lifts the tire grabbing device 1 to return, the left and right speed reducing motors 13 are started (reversely rotated) to drive the left wall plate 2, the right wall plate 3, the upper vulcanizing chamber 6 on the left wall plate and the tire grabbing device 1 to move forwards to the tire grabbing position, and the cylinder rods of the left and right mold opening and closing cylinders 7 retract to drive the upper vulcanizing chamber 6 to descend to the lower vulcanizing chamber 9, thereby completing the tire assembling process.

The reverse process of the operation mode can complete the tire unloading, namely the vulcanized embryo in the lower vulcanizing chamber 9 is grabbed and placed on the tire storage device 10.

Claims (3)

1. Big specification hydraulic pressure vulcanizer dress child mechanism is including grabbing child ware (1), its characterized in that: grab child ware (1) and install on the front end of left wallboard (2) or right wallboard (3) through guide rail I (8), grab child ware (1) and move up and down under the drive of power device I of installation on corresponding the wallboard, left side wallboard (2) and right wallboard (3) are installed respectively on left guide rail I (4) and right guide rail I (5), left side guide rail I (4) and right guide rail I (5) are installed respectively on left rail seat (15) and right rail seat (16), left side wallboard (2) and right wallboard (3) are preceding, back synchronous motion under the drive of left and right power device II, go up vulcanization room (6) and install on left guide rail II of installing on left wallboard (2) and right wallboard (3) on right guide rail II of installing, go up vulcanization room (6) and move up and down under the drive of the power device drive that sets up respectively on left wallboard (2) and right wallboard (3), lower vulcanization room (9) sets up anterior vulcanization room (10) that sets up on left rail seat (15) and right wallboard (3) and deposit the room (9) and the front portion.

2. The large format hydraulic vulcanizer tire loading mechanism of claim 1 wherein: and the tire grabbing device moves forwards on the left wall plate (2) and the right wall plate (3) to a tire grabbing position where the upper vulcanizing chamber (6) and the lower vulcanizing chamber (9) are concentric, and the tire grabbing device (1) is aligned with the tire storage device (10).

3. The large format hydraulic press tire loading mechanism of claim 1, wherein: move backward to the dress child position that upper vulcanization room (6) stagger with lower vulcanization room (9) in left wallboard (2) and right wallboard (3), grab child ware (1) and counterpoint with lower vulcanization room (9).

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