CN114918850A - Tire mold clamping device convenient to adjust - Google Patents

Abstract

The invention discloses a tire mold clamping device convenient to adjust, which relates to the technical field of tire mold processing and production and comprises a lifting assembly, an outer diameter clamping assembly and an inner diameter clamping assembly, wherein the lifting assembly is used for placing an unclamped tire mold and driving the tire mold to lift, the outer diameter clamping assembly is used for clamping the outer diameter of the tire, the outer diameter clamping assembly automatically adjusts the clamping angle and position of the tire for tires with different sizes, the inner diameter clamping assembly is used for assisting in clamping the tire mold to provide clamping force, and the tire mold clamping device can be folded up and down when not in use, so that the space is saved. The tire mold clamping device only occupies a small part of the surface area of the tire mold for clamping, and most of the surface area of the tire mold is still exposed to the external space so as to be convenient for processing.

Description

Tire mold clamping device convenient to adjust

Technical Field

The invention relates to the technical field of tire mold processing production, in particular to a tire mold clamping device convenient to adjust.

Background

When the existing clamping device for the tire mold is used, due to different tire sizes, the adjustment is inconvenient, so that the practicability is low when the clamping device is used.

The utility model discloses a chinese utility model patent that the publication is CN216267080U discloses a clamping device for tire mould, which comprises a supporting plate, the backup pad be equipped with the support frame, the support frame is equipped with the motor, the motor is equipped with the lead screw, the lead screw is equipped with the stopper, the lead screw is equipped with the movable block, the movable block is equipped with first installation piece, first installation piece is equipped with the movable rod, the backup pad is provided with the movable groove, the backup pad is equipped with the connecting plate, the connecting plate is equipped with the dead lever, the dead lever is equipped with the traction block, the traction block is equipped with second installation piece, the movable rod assembles with second installation piece. The utility model discloses a method that adopts is to put tire mould on a platform, carries out subsequent processing to tire mould again, though such scheme has solved the problem of adjusting the tire size, but tire mould's lower surface and platform contact completely, when carrying out operations such as punching a hole to tire mould, can not process the through-hole, and tire mould's processing has received clamping device's restriction promptly.

Disclosure of Invention

In order to solve the technical problems, the invention adopts the technical scheme that: a tire mold clamping device that facilitates adjustment: comprises a lifting component and an outer diameter clamping component, the outer diameter clamping component is rotatably arranged on the lifting component, the outer diameter clamping component comprises a supporting disc, a first sleeve is arranged on the supporting disc, a second sleeve is arranged on the supporting disc, a first clamping rod is slidably arranged on the first sleeve, a second clamping rod is slidably arranged on the second sleeve, a convex slider is slidably arranged on the supporting disc, the convex slider is connected with the first clamping rod, a lifting connecting rod is slidably arranged on the supporting disc, a rotating support is rotatably arranged on the lifting connecting rod, a first sliding groove is arranged on the supporting disc, a lower sliding seat is slidably arranged in the first sliding groove, a second sliding groove is arranged on the supporting disc, an upper sliding seat is slidably arranged in the second sliding groove, a lower sliding rod is slidably arranged on the rotating support, the lower sliding rod is slidably connected with the lower sliding seat, and a driving end connecting block is rotatably arranged on the lower sliding rod, the opening on the driving end connecting block is matched with the lower end sliding column of the first clamping rod, the upper sliding rod is arranged on the rotating support in a sliding mode, the upper sliding rod is connected with the upper sliding seat in a sliding mode, the driven end connecting block is arranged on the upper sliding rod in a rotating mode, and the opening on the driven end connecting block is matched with the lower end sliding column of the second clamping rod.

Further, first sleeve pipe rotates and installs on supporting the disc, the second sleeve pipe rotates and installs on supporting the disc, be provided with the spout on the convex surface slider, first supporting rod lower extreme sets up the slide bar, the slide bar of first supporting rod slides in the traveller of convex surface slider, be provided with the spout on the first sleeve pipe, fixed mounting has the piece of stirring on the first supporting rod, the piece of stirring slides in first sheathed tube spout, be provided with the spout on the second sleeve pipe, fixed mounting has the pipe of stirring on the second sleeve pipe, stir the pipe and stir the piece and mutually support.

Furthermore, six groups of convex sliders and lifting connecting rods are arranged in the circumferential direction of the supporting disc, and the lifting connecting rods matched with the convex sliders can be driven to slide upwards only when the convex sliders slide towards the inner side direction of the supporting disc.

Further, the lifting component comprises a supporting bottom plate, the supporting bottom plate is fixedly arranged on the ground, a rotating motor is fixedly arranged on the supporting bottom plate, a rotating shaft is fixedly arranged on an output shaft of the rotating motor, a supporting disc is arranged on the rotating shaft, the rotating shaft rotates to drive the supporting disc to rotate,

furthermore, a lifting slide arm is arranged on the supporting bottom plate, and an inner diameter clamping assembly is arranged on the lifting slide arm.

Further, the inner diameter clamping assembly comprises a rotating arm, the rotating arm is rotatably installed on a lifting sliding arm, a rotating arm motor is fixedly installed on the lifting sliding arm, an output shaft of the rotating arm motor is fixedly connected with the rotating arm, a rotating seat is rotatably installed on the rotating arm, a fixed belt wheel is fixedly installed on the rotating arm, a rotating belt wheel is fixedly installed on the rotating seat and is connected with the fixed belt wheel through a transmission belt, a fixed gear ring is fixedly installed on the lifting sliding arm, a primary gear is rotatably installed on the rotating arm, a secondary gear is rotatably installed on the rotating arm, the primary gear is connected with the secondary gear through a belt set, a lifting arm is slidably installed on the rotating seat, a lifting rack is fixedly installed on the lifting arm and forms gear-rack fit with the secondary gear, an inner diameter clamping wheel is installed on the lifting arm, and the inner diameter clamping wheel is used for clamping the outer diameter of the tire mold.

Furthermore, the fixed gear ring is a half gear ring, the first-level gear and the fixed gear ring form gear fit when the first-level gear is arranged on the lower half portion of the fixed gear ring, a fan-shaped supporting surface is arranged on the rotating arm, and the fan-shaped supporting surface is matched with the lifting arm.

Furthermore, a lifting motor is fixedly mounted on the supporting bottom plate, a threaded rod is fixedly mounted on an output shaft of the lifting motor, the threaded rod and the lifting slide arm form threaded fit, a lifting shifting fork is slidably mounted on the rotating motor and fixedly connected with the supporting disc, the lifting shifting fork and the threaded rod form threaded fit, the upper half part of the rotating shaft is an optical axis, the lower half part of the rotating shaft is a spline shaft, the supporting disc slides in the lower half part of the rotating shaft, and the lifting slide arm slides in the upper half part of the rotating shaft.

Compared with the prior art, the invention has the beneficial effects that: (1) when the tire mold is clamped, only a small part of the surface area of the tire mold is occupied for clamping, and most of the surface area of the tire mold is still exposed to the external space so as to be convenient for processing; (2) the outer diameter clamping assembly is arranged, so that the clamping position is automatically adjusted according to the size of the tire mold when the tire mold is clamped, the contact area between the clamping rod and the tire mold is increased, and the clamping stability is ensured; (3) the invention is provided with the inner diameter clamping assembly, has two working modes, and assists in clamping and automatically retracting the tire mould so as to save space; (4) the lifting assembly is arranged, so that the tire mold placed on a horizontal plane can be clamped and lifted.

Drawings

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

FIG. 2 is a schematic view of an outer diameter gripping assembly of the present invention.

FIG. 3 is a schematic diagram of the internal structure of the OD clamping assembly of the present invention.

Fig. 4 is a partially enlarged view of a portion a in fig. 2.

Fig. 5 is a partially enlarged view of the portion B in fig. 3.

FIG. 6 is a schematic view of a lift assembly of the present invention.

FIG. 7 is a schematic view of an ID clamping assembly of the present invention.

FIG. 8 is a partial schematic view of an ID clamp assembly of the present invention.

FIG. 9 is a rear view of an ID clamp assembly of the present invention.

Reference numerals: 1-a lifting assembly; 2-an outer diameter clamping assembly; 3-an inner diameter clamping assembly; 101-a support floor; 102-a rotating electric machine; 103-a rotating shaft; 104-a lifting motor; 105-a threaded rod; 106-lifting fork; 107-lifting slide arm; 201-support disc; 202-a first sleeve; 203-a second sleeve; 204-a first clamping bar; 205-a second gripping bar; 206-a toggle block; 207-poke tube; 208-convex slider; 209-lifting connecting rod; 210-rotating the support; 211-lower sliding seat; 212-lower sliding rod; 213-active end connecting block; 214-upper sliding seat; 215-sliding the rod up; 216-driven end connecting block; 301-a swivel arm; 302-a tumbler motor; 303-a fixed pulley; 304-a drive belt; 305-a rotating pulley; 306-a rotating seat; 307-fixed toothed ring; 308-a primary gear; 309-belt group; 310-a secondary gear; 311-lifting rack; 312-a lifting arm; 313-inner diameter gripping wheel.

Detailed Description

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

Wherein the showings are for the purpose of illustration only and are shown by way of illustration only and not in actual form, and are not to be construed as limiting the present patent; to better illustrate the embodiments of the present invention, some parts of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

Example (b): a tire mold clamping device for easy adjustment as shown in fig. 1-9: including lifting unit 1 and external diameter clamping component 2, external diameter clamping component 2 rotates and installs on lifting unit 1.

The outer diameter clamping assembly 2 comprises a supporting disc 201, a first sleeve 202 is installed on the supporting disc 201, a second sleeve 203 is installed on the supporting disc 201, a first clamping rod 204 is installed on the first sleeve 202 in a sliding mode, a second clamping rod 205 is installed on the second sleeve 203 in a sliding mode, a convex slider 208 is installed on the supporting disc 201 in a sliding mode, the convex slider 208 is connected with the first clamping rod 204 in an interconnection mode, a lifting connecting rod 209 is installed on the supporting disc 201 in a sliding mode, a rotating support 210 is installed on the lifting connecting rod 209 in a sliding mode, a first sliding groove is formed in the supporting disc 201, a lower sliding seat 211 is installed in the first sliding groove in a sliding mode, a second sliding groove is formed in the supporting disc 201, an upper sliding seat 214 is installed in the second sliding groove in a sliding mode, a lower sliding rod 212 is installed on the rotating support 210 in a sliding mode, the lower sliding rod 212 is connected with the lower sliding seat 211 in a sliding mode, and an active end connecting block 213 is installed on the lower sliding rod 212 in a sliding mode, an opening on the driving end connecting block 213 is matched with a lower end sliding column of the first clamping rod 204, an upper sliding rod 215 is slidably mounted on the rotating support 210, the upper sliding rod 215 is slidably connected with an upper sliding seat 214, a driven end connecting block 216 is rotatably mounted on the upper sliding rod 215, and an opening on the driven end connecting block 216 is matched with a lower end sliding column of the second clamping rod 205. When the first clamping rod 204 is used as a stressed surface to clamp a tire mold, the first clamping rod 204 slides inwards on the first sleeve 202, the first clamping rod 204 slides to drive the convex slider 208 to slide on the supporting disc 201, the convex slider 208 slides to drive the lifting connecting rod 209 to slide upwards, the lifting connecting rod 209 slides upwards to drive the rotating support 210 to slide upwards, as the lower sliding seat 211 slides in the surface sliding groove of the supporting disc 201, that is, the vertical height of the lower sliding seat 211 is unchanged, the rotating support 210 moves upwards to drive the lower sliding rod 212 to turn over, the lower sliding rod 212 drives the driving end connecting block 213 to move upwards to move to the driving end connecting block 213 to be matched with the first clamping rod 204, the same rotating support 210 drives the upper sliding rod 215 to turn over, the upper sliding rod 215 drives the driven end connecting block 216 to move upwards, and the driven end connecting block 216 is matched with the second clamping rod 205, first clamping rod 204 continues to slide on first sleeve 202, first clamping rod 204 drives initiative end connecting block 213 to move, initiative end connecting block 213 moves and drives lower sliding rod 212 to rotate, lower sliding rod 212 rotates and drives rotation support 210 to rotate on lifting connection pole 209, rotation support 210 rotates and drives upper sliding rod 215 to rotate, upper sliding rod 215 rotates and drives driven end connecting block 216 to move, driven end connecting block 216 moves and drives second clamping rod 205 to slide to the outside on first clamping rod 204, thereby make pressurized first clamping rod 204 slide to the inside, second clamping rod 205 at both ends of first clamping rod 204 slides to the outside, carry out the centre gripping to the tire mould.

First sleeve pipe 202 rotates and installs on supporting disc 201, second sleeve pipe 203 rotates and installs on supporting disc 201, be provided with the spout on the convex surface slider 208, first clamping rod 204 lower extreme sets up the slide bar, the slide bar of first clamping rod 204 slides in convex surface slider 208's traveller, be provided with the spout on the first sleeve pipe 202, fixed mounting has stirring piece 206 on the first clamping rod 204, stirring piece 206 slides in first sleeve pipe 202's spout, be provided with the spout on the second sleeve pipe 203, fixed mounting has stirring pipe 207 on the second sleeve pipe 203, stirring pipe 207 mutually supports with stirring piece 206. When the first clamping rod 204 clamps the tire mold, the first clamping rod 204 slides inwards on the first sleeve 202, the first clamping rod 204 slides to drive the toggle block 206 to slide, the toggle block 206 toggles the toggle pipe 207, the toggle pipe 207 drives the second sleeve 203 to rotate on the support disc 201, an included angle between the second sleeve 203 and the first sleeve 202 is reduced, meanwhile, the second clamping rod 205 in the second sleeve 203 slides outwards, and the clamping position of the second clamping rod 205 on the tire mold is automatically adjusted.

Six groups of convex sliders 208 and lifting connecting rods 209 are arranged in the circumferential direction of the support disc 201, and the lifting connecting rods 209 matched with the convex sliders 208 are driven to slide upwards only when the convex sliders 208 slide towards the inner side direction of the support disc 201.

Lifting unit 1 includes supporting baseplate 101, and supporting baseplate 101 fixed mounting is subaerial, and fixed mounting has rotation motor 102 on supporting baseplate 101, and fixed mounting has axis of rotation 103 on the output shaft of rotation motor 102, and support disc 201 installs on axis of rotation 103, and axis of rotation 103 rotates and drives support disc 201 and rotate.

The support base plate 101 is provided with a lifting slide arm 107, and the inner diameter clamping assembly 3 is arranged on the lifting slide arm 107.

The inner diameter clamping assembly 3 comprises a rotating arm 301, the rotating arm 301 is rotatably installed on a lifting sliding arm 107, a rotating arm motor 302 is fixedly installed on the lifting sliding arm 107, an output shaft of the rotating arm motor 302 is fixedly connected with the rotating arm 301, a rotating seat 306 is rotatably installed on the rotating arm 301, a fixed belt wheel 303 is fixedly installed on the rotating arm 301, a rotating belt wheel 305 is fixedly installed on the rotating seat 306, the rotating belt wheel 305 is connected with the fixed belt wheel 303 through a transmission belt 304, a fixed gear ring 307 is also fixedly installed on the lifting sliding arm 107, a primary gear 308 is rotatably installed on the rotating arm 301, a secondary gear 310 is rotatably installed on the rotating arm 301, the primary gear 308 is connected with the secondary gear 310 through a belt set 309, a lifting arm 312 is slidably installed on the rotating seat 306, a lifting rack 311 is fixedly installed on the lifting arm 312, and the lifting rack 311 and the secondary gear 310 form gear-rack fit, the inner diameter clamping wheel 313 is mounted on the lifting arm 312, and the inner diameter clamping wheel 313 is used for clamping the outer diameter of the tire mold. The rotating arm motor 302 is started to drive the rotating arm 301 to rotate on the lifting slide arm 107, because the fixed belt wheel 303 is fixedly arranged on the supporting base plate 101, the rotating arm 301 rotates on the lifting slide arm 107 and does not change the angle of the fixed belt wheel 303, the rotating belt wheel 305 is connected with the fixed belt wheel 303 through the transmission belt 304, the angle of the rotating belt wheel 305 does not change, the rotating belt wheel 305 rotates on the rotating arm 301, the rotating belt wheel 305 rotates to drive the rotating base 306 to rotate, the rotating base 306 rotates to drive the lifting arm 312 to rotate, the lifting arm 312 is always vertical to the horizontal plane, the rotating arm 301 rotates on the lifting slide arm 107 to drive the primary gear 308 to rotate around the fixed gear ring 307, the primary gear 308 rotates while making a circular motion, the primary gear 308 rotates to drive the secondary gear 310 to rotate through the belt set 309, the secondary gear 310 rotates to drive the lifting rack 311 to move up and down, the lifting rack 311 moves up and down to drive the lifting arm 312 to slide on the rotating base 306, meanwhile, when the rotating arm 301 rotates downwards on the lifting slide arm 107, the lifting arm 312 slides upwards on the rotating base 306, the distance that the lifting arm 312 moves downwards when the rotating arm 301 rotates downwards is compensated, and the inner diameter clamping wheel 313 is controlled to clamp the inner diameter of the tire mold.

The fixed gear ring 307 is a half gear ring, the first gear 308 forms a gear fit with the fixed gear ring 307 when the first gear 308 is on the lower half part of the fixed gear ring 307, and the rotating arm 301 is provided with a sector supporting surface which is matched with the lifting arm 312. When the rotating arm 301 rotates downwards on the lifting sliding arm 107, the fixed gear ring 307 and the primary gear 308 form gear fit to perform clamping work, when the rotating arm 301 rotates upwards on the lifting sliding arm 107, the fixed gear ring 307 is not connected with the primary gear 308, the sector supporting surface of the rotating arm 301 slides to the lower side of the lifting arm 312, free falling of the lifting arm 312 is limited, and therefore the rotating arm 301 drives the lifting arm 312 to ascend together when rotating upwards on the lifting sliding arm 107, working space is saved, and other processes of a tire mold are facilitated.

The supporting bottom plate 101 is fixedly provided with a lifting motor 104, an output shaft of the lifting motor 104 is fixedly provided with a threaded rod 105, the threaded rod 105 is in threaded fit with a lifting slide arm 107, a lifting fork 106 is slidably mounted on the rotating motor 102, the lifting fork 106 is fixedly connected with a supporting disc 201, the lifting fork 106 is in threaded fit with the threaded rod 105, the upper half of the rotating shaft 103 is an optical axis, the lower half of the rotating shaft 103 is a spline shaft, the supporting disc 201 slides on the lower half of the rotating shaft 103, and the lifting slide arm 107 slides on the upper half of the rotating shaft 103. The rotating motor 102 is started to drive the rotating shaft 103 to rotate, the rotating shaft 103 rotates to drive the supporting disc 201 to rotate, the lifting motor 104 is started to drive the threaded rod 105 to rotate, the threaded rod 105 rotates to drive the lifting fork 106 to move up and down, the lifting fork 106 moves up and down to drive the supporting disc 201 to move up and down, the height of the supporting disc 201 is changed, the threaded rod 105 rotates to drive the lifting slide arm 107 to move up and down, the lifting slide arm 107 moves up and down to drive the inner diameter clamping component 3 to move up and down, the height of the inner diameter clamping component 3 is changed, when the device is started, a tire mold is placed above the supporting base plate 101, after the tire mold is clamped through the outer diameter clamping component 2 and the inner diameter clamping component 3, the lifting motor 104 is started to drive the outer diameter clamping component 2, and the inner diameter clamping component 3 and the tire mold ascend together.

Claims (8)

1. A tire mold clamping device that facilitates adjustment: including lifting unit (1) and external diameter clamping component (2), external diameter clamping component (2) rotate and install on lifting unit (1), its characterized in that:

the outer diameter clamping assembly (2) comprises a supporting disc (201), a first sleeve (202) is installed on the supporting disc (201), a second sleeve (203) is installed on the supporting disc (201), a first clamping rod (204) is installed on the first sleeve (202) in a sliding mode, a second clamping rod (205) is installed on the second sleeve (203) in a sliding mode, a convex slider (208) is installed on the supporting disc (201) in a sliding mode, the convex slider (208) is connected with the first clamping rod (204) in an interconnected mode, a lifting connecting rod (209) is installed on the supporting disc (201) in a sliding mode, a rotating support (210) is installed on the lifting connecting rod (209) in a sliding mode, a first sliding groove is formed in the supporting disc (201), a lower sliding seat (211) is installed in the first sliding groove in a sliding mode, a second sliding groove is formed in the supporting disc (201), an upper sliding seat (214) is installed in the second sliding mode, a lower sliding rod (212) is installed on the rotating support (210) in a sliding mode, lower sliding rod (212) and lower sliding seat (211) sliding connection, slidable mounting has initiative end connecting block (213) on lower sliding rod (212), the opening on initiative end connecting block (213) mutually supports with the lower extreme traveller of first clamping rod (204), slidable mounting has upper sliding rod (215) on rotating support (210), upper sliding rod (215) and upper sliding seat (214) sliding connection, slidable mounting has driven end connecting block (216) on upper sliding rod (215), the opening on driven end connecting block (216) mutually supports with the lower extreme traveller of second clamping rod (205).

2. A tire mold clamping assembly for facilitating adjustment as set forth in claim 1 wherein: first sleeve pipe (202) rotate to be installed on supporting disc (201), second sleeve pipe (203) rotate to be installed on supporting disc (201), be provided with the spout on convex surface slider (208), first supporting rod (204) lower extreme sets up the slide bar, the slide bar of first supporting rod (204) slides in the traveller of convex surface slider (208), be provided with the spout on first sleeve pipe (202), fixed mounting has stirring piece (206) on first supporting rod (204), stirring piece (206) slides in the spout of first sleeve pipe (202), be provided with the spout on second sleeve pipe (203), fixed mounting has stirring pipe (207) on second sleeve pipe (203), stirring pipe (207) and stirring piece (206) are mutually supported.

3. A tire mold clamping assembly for facilitating adjustment as set forth in claim 2 wherein: six groups of convex sliders (208) and lifting connecting rods (209) are arranged in the circumferential direction of the supporting disc (201), and the convex sliders (208) slide towards the inner side direction of the supporting disc (201) to drive the lifting connecting rods (209) matched with the convex sliders (208) to slide upwards.

4. A tire mold clamping assembly for facilitating adjustment as set forth in claim 3 wherein: lifting unit (1) is including supporting baseplate (101), and supporting baseplate (101) fixed mounting is subaerial, and fixed mounting has rotation motor (102) on supporting baseplate (101), and fixed mounting has axis of rotation (103) on the output shaft of rotation motor (102), and support disc (201) are installed on axis of rotation (103), and axis of rotation (103) rotate and drive support disc (201) and rotate.

5. A tire mold clamping apparatus for facilitating adjustment as set forth in claim 4 wherein: a lifting slide arm (107) is installed on the supporting base plate (101), and an inner diameter clamping assembly (3) is installed on the lifting slide arm (107).

6. A tire mold clamping assembly for facilitating adjustment as set forth in claim 5 wherein: the inner diameter clamping assembly (3) comprises a rotating arm (301), the rotating arm (301) is rotatably installed on a lifting sliding arm (107), a rotating arm motor (302) is fixedly installed on the lifting sliding arm (107), an output shaft of the rotating arm motor (302) is fixedly connected with the rotating arm (301), a rotating seat (306) is rotatably installed on the rotating arm (301), a fixed belt wheel (303) is fixedly installed on the rotating arm (301), a rotating belt wheel (305) is fixedly installed on the rotating seat (306), the rotating belt wheel (305) is connected with the fixed belt wheel (303) through a transmission belt (304), a fixed gear ring (307) is fixedly installed on the lifting sliding arm (107), a primary gear (308) is rotatably installed on the rotating arm (301), a secondary gear (310) is rotatably installed on the rotating arm (301), the primary gear (308) is connected with the secondary gear (310) through a belt set (309), and a lifting arm (312) is rotatably installed on the rotating seat (306), fixed mounting has lifting rack (311) on lifing arm (312), and lifting rack (311) and secondary gear (310) form the rack and pinion cooperation, installs internal diameter centre gripping wheel (313) on lifing arm (312), and internal diameter centre gripping wheel (313) are used for carrying out the centre gripping to tire mold's external diameter.

7. A tire mold clamping apparatus to facilitate adjustment as in claim 6 wherein: the fixed gear ring (307) is a half gear ring, the first-level gear (308) and the fixed gear ring (307) form gear fit when the first-level gear (308) is arranged on the lower half part of the fixed gear ring (307), a fan-shaped supporting surface is arranged on the rotating arm (301), and the fan-shaped supporting surface is matched with the lifting arm (312).

8. A tire mold clamping assembly for facilitating adjustment as set forth in claim 7 wherein: fixed mounting has elevator motor (104) on supporting baseplate (101), fixed mounting has threaded rod (105) on the output shaft of elevator motor (104), threaded rod (105) and lift cursor slide (107) form screw-thread fit, sliding mounting has lift shift fork (106) on rotating motor (102), lift shift fork (106) and support disc (201) fixed connection, lift shift fork (106) and threaded rod (105) form screw-thread fit, the first half of axis of rotation (103) is the optical axis, the latter half of axis of rotation (103) is the integral key shaft, support disc (201) and slide in the latter half of axis of rotation (103), lift cursor slide (107) slide in the first half of axis of rotation (103).

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