CN114378886A - Inflation-free high polymer material tire and processing equipment thereof - Google Patents

Abstract

The invention relates to processing equipment, in particular to an inflation-free high polymer material tire and processing equipment thereof. The inflation-free high polymer material tire and the processing equipment thereof are needed to be designed, wherein the tire can be grooved, and the subsequent treatment is convenient. The utility model provides an exempt from to aerify macromolecular material tire and processing equipment thereof, includes base etc. supporting seat and semicircle board, and the bilateral symmetry rigid coupling in the front side of base top has the supporting seat, and the rigid coupling has the semicircle board between the inner of the left and right sides supporting seat. According to the invention, the tire is sleeved on the fixing mechanism, the tire is clamped by operating the twisting fixing mechanism, the twisting fixing mechanism is stopped, the u-shaped cutter is inserted into the outer side of the tire, the tire can be pushed to rotate reversely, and the u-shaped cutter is used for grooving the outer side of the tire, so that grooving is carried out on the tire, and the subsequent treatment of the tire is facilitated.

Description

Inflation-free high polymer material tire and processing equipment thereof

Technical Field

The invention relates to processing equipment, in particular to an inflation-free high polymer material tire and processing equipment thereof.

Background

In the manufacturing process of the tire, a plurality of processes are generally required to completely manufacture the tire, and the grooving of the tire is one of the processes.

Chinese patent with application number CN202021505291.7 discloses an automobile tire processing device, which comprises a frame, a cleaning device i, a water spraying device, a moving device, a hydraulic cylinder i, a cleaning device ii and tires, wherein the left side of the frame 1 is connected with the cleaning device i, both sides of the frame are fixedly connected with the water spraying device, the moving device is slidably connected with the frame, one end of the hydraulic cylinder i is fixedly connected with the frame, the other end of the hydraulic cylinder i is fixedly connected with the moving device, the cleaning device ii is connected with the right side of the frame, the tires are arranged below the moving device, the tires are washed by arranging the water spraying device, the tires are fixed and rotated after the position of the moving device is adjusted, the washed tires can be cleaned by arranging the cleaning device i and the cleaning device ii, sticky objects on the tires can be cleaned, and the cleaning effect is better, the grooving machine is suitable for being installed and used in a factory assembly line, and although the grooving machine can process tires, the grooving machine does not have the function of grooving the tires.

The invention aims to solve the problems in the patent, and provides an inflation-free high polymer material tire which can be grooved and is convenient for subsequent treatment and processing equipment thereof.

Disclosure of Invention

In order to overcome the defect that the tire can be processed but does not have the function of grooving the tire, the invention provides the inflation-free high polymer material tire and the processing equipment thereof, wherein the inflation-free high polymer material tire can be grooved and is convenient for subsequent treatment.

The invention is realized by the following technical approaches:

the utility model provides an exempt from to aerify macromolecular material tire and processing equipment thereof, which comprises a base, a supporting seat, the semicircle board, the T template, u type sword, fixed establishment and slide mechanism, base top front side bilateral symmetry rigid coupling has the supporting seat, the rigid coupling has the semicircle board between the left and right sides supporting seat inner, the rear side has the T template along circumference rigid coupling in the semicircle board, the last installation of rotation type of T template is used for the fixed establishment of tire, slide mechanism is installed on semicircle board left side upper portion, the last U type sword that is used for carrying out the fluting to the tire of installing of slide mechanism.

Further, fixed establishment is including the rotating turret, the carousel, the guide arm, first spring, the threaded rod, toper piece and clamp splice, the cross-under of rotary type has the rotating turret in the middle of the T template upper portion, four ends of rotating turret front side all embedded sliding connection have the guide arm, guide arm outer end rigid coupling has the clamp splice that is used for pressing from both sides the tire tight, be connected with first spring between clamp splice medial surface and the outer leading flank of rotating turret, first spring housing is on the guide arm, the rear side has the threaded rod along the cross-under of circumference through the screw thread rotary type in the rotating turret, the threaded rod rear end rigid coupling has the carousel, the threaded rod front end rotary type be connected with the toper piece that is used for driving the guide arm and outwards removes, toper piece and four guide arm inner contacts.

Further, slide mechanism is including the pull rod, u type piece, the sleeve, u type strip and second spring, left side upper portion front side is opened flutedly in the semicircle inboard, both sides are all opened evenly at interval about the recess right flank has four draw-in grooves, the sleeve has been placed to recess internal sliding formula, both ends are located the draw-in grooves of both sides about the forefront respectively about the sleeve right side, sleeve outer right flank rigid coupling has u type strip, u type strip right-hand member is located outside the recess, both sides face and u type sword fixed connection around in the u type strip, u type piece has been placed to recess internal sliding formula, u type piece afterbody both ends and sleeve outside contact, be connected with the second spring between u type piece inner left side middle part and the sleeve inner right side, rigid coupling has the pull rod in the middle of u type piece top left side, the pull rod top runs through semicircle board left side top, pull rod and semicircle board sliding connection.

Further, still including being used for carrying out spacing chucking mechanism to the rotating turret, chucking mechanism is including the footboard, the third spring, the kelly, fixing base and pivot, the even spaced division of rear side along circumference has eight spacing grooves, embedded sliding connection has and is used for carrying out spacing kelly to the rotating turret in the middle of the T template bottom, the kelly bottom is connected with the third spring, base top rear side bilateral symmetry rigid coupling has the fixing base, the cross-under of rotary type has the pivot between the left and right sides fixing base, the fixed cover in pivot middle part is equipped with the footboard, the footboard sets up for the slope, in the middle of the footboard top front side with third spring tail end fixed connection.

Further, still including the pushing equipment who is used for pushing out the piece, pushing equipment is including elasticity scraping wings, solid fixed ring, the movable rod, fourth spring and fixed block, right flank upper portion front side rigid coupling has the fixed block in the semicircle inboard, the fixed block trailing flank is connected with the fourth spring, left flank upper portion rear side rigid coupling has the elasticity scraping wings that is used for pushing out impurity in the semicircle inboard, the outer rear side of rotating turret has solid fixed ring along circumference rigid coupling, the rigid coupling has the movable rod that is used for carrying on spacingly to elasticity scraping wings in the middle of solid fixed ring outer bottom, the movable rod bottom is located elasticity scraping wings.

Further, still including uide bushing, arc, contact plate and connecting rod, the lower part rigid coupling of kelly trailing flank has the contact plate, and semicircle board trailing flank lower part left side rigid coupling has the uide bushing, and the cross-under of slidingtype has and is used for carrying on spacing arc to the contact plate in the uide bushing, and the arc is located the contact plate top, and the arc contacts with the contact plate, and the fixed cover in the circumference is equipped with the connecting rod on the outer right side of u type strip, and the connecting rod rear end runs through arc upper portion.

The tire chamfering device is characterized by further comprising a mounting block, a connecting rod and a chamfering tool, wherein the mounting block is fixedly connected between the right sides of the front side face and the rear side face of the U-shaped strip, the connecting rod is fixedly connected with the lower parts of the front side face and the rear side face of the mounting block, and the chamfering tool for chamfering the groove formed in the tire is fixedly connected to the right sides of the inner side faces of the connecting rods on the front side and the rear side.

Furthermore, the outer side surface of the clamping block is made of rubber.

The invention has the remarkable advantages that:

1. the tire is sleeved on the fixing mechanism, the tire is clamped by the twisting fixing mechanism, the twisting fixing mechanism is stopped, the u-shaped cutter is inserted into the outer side of the tire, the tire can be pushed to rotate reversely, and the u-shaped cutter is used for grooving the outer side of the tire, so that grooving is performed on the tire, and subsequent treatment of the tire is facilitated.

2. Under the effect of the clamping mechanism, an operator firstly steps on the clamping mechanism to operate to limit the rotating frame, then the tire sleeve is clamped and fixed on the clamping block, the clamping mechanism is loosened to reset to loosen the rotating frame, and therefore the rotating frame is not required to be held and fixed by hands of the operator, and the tire clamping mechanism is convenient and fast.

3. When operating personnel promoted the tire reversal, the u type sword slotted the tire outside, and the piece that the fluting appears drops to the semicircle inboard, and simultaneously, slewing mechanism still drives pushing equipment and operates, and pushing equipment operates and pushes out the piece in the semicircle inboard and drops to the collection container in, so, can avoid remaining the rotation that a large amount of pieces influence follow-up tire in the semicircle inboard.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

FIG. 3 is a first partial cross-sectional structural schematic of the present invention.

FIG. 4 is a second partial cross-sectional structural schematic of the present invention.

Fig. 5 is an enlarged schematic view of part a of the present invention.

Fig. 6 is a third partial sectional structural view of the present invention.

Fig. 7 is a partial perspective view of the present invention.

In the reference symbols: 1_ base, 2_ supporting base, 3_ semi-circular plate, 4_ T-shaped plate, 5_ u-shaped cutter, 6_ fixing mechanism, 61_ rotating frame, 62_ rotating disc, 63_ guide rod, 64_ first spring, 65_ threaded rod, 66_ conical block, 67_ clamping block, 7_ sliding mechanism, 71_ pull rod, 72_ u-shaped block, 73_ groove, 74_ clamping groove, 75_ sleeve, 76_ u-shaped strip, 77_ second spring, 8_ clamping mechanism, 81_ pedal, 82_ third spring, 83_ clamping rod, 84_ fixing base, 85_ rotating shaft, 86_ limiting groove, 9_ pushing mechanism, 91_ elastic pushing plate, 92_ fixing ring, 93_ movable rod, 94_ fourth spring, 95_ fixing block, 10_ guide sleeve, 11_ arc-shaped plate, 12_ arc-shaped plate, 13_ connecting rod, 14_ mounting block, 15_ connecting rod and 16_ chamfering cutter.

Detailed Description

The invention is further explained by combining the drawings in the specification and the embodiments of the invention are given by combining the drawings in the specification.

Example 1

The utility model provides an exempt from to aerify macromolecular material tire and processing equipment thereof, including base 1, supporting seat 2, semicircle board 3, T template 4, u type sword 5, fixed establishment 6 and slide mechanism 7, please refer to and show in fig. 1-6, supporting seat 2 is installed through welded connection's mode to base 1 top front side bilateral symmetry, rigid coupling has semicircle board 3 between the left and right sides supporting seat 2 inner, T template 4 is installed through welded connection's mode along circumference to the rear side in the semicircle board 3, the last pivoted mounting of T template 4 installs fixed establishment 6, when the tire cover is on fixed establishment 6, fixed establishment 6 can realize fixing the tire, slide mechanism 7 is installed on 3 left side upper portions of semicircle board, install u type sword 5 on slide mechanism 7, when the tire rotates, u type sword 5 can realize slotting to the tire.

The fixing mechanism 6 includes a rotating frame 61, a rotating disc 62, a guide rod 63, a first spring 64, a threaded rod 65, a conical block 66 and a clamping block 67, referring to fig. 1-3, the rotating frame 61 is rotatably connected in the middle of the upper portion of the T-shaped plate 4 in a penetrating manner, the guide rod 63 is slidably connected in an embedded manner at four ends of the front side of the rotating frame 61, the clamping block 67 is installed at the outer end of the guide rod 63 in a welding connection manner, the outer side surface of the clamping block 67 is made of rubber, when the clamping block 67 moves outwards, the clamping block 67 can clamp the tire, the first spring 64 is connected between the inner side surface of the clamping block 67 and the outer front side surface of the rotating frame 61, the first spring 64 is sleeved on the guide rod 63, the threaded rod 65 is rotatably connected in a penetrating manner along the circumferential direction at the inner rear side of the rotating frame 61, the rotating disc 62 is installed at the rear end of the threaded rod 65 in a welding connection manner, when an operator pulls the rotating disc 62 to rotate alternately in a forward and backward direction, the rotating disc 62 can drive the forward and backward direction to rotate alternately, the front end of the threaded rod 65 is rotatably connected with a conical block 66, the conical block 66 is in contact with the inner ends of the four guide rods 63, and when the conical block 66 moves forwards, the conical block 66 can drive the guide rods 63 to move outwards.

The sliding mechanism 7 includes a pull rod 71, a u-shaped block 72, a sleeve 75, a u-shaped strip 76 and a second spring 77, as shown in fig. 1, fig. 2, fig. 4, fig. 5 and fig. 6, a groove 73 is formed in the front of the upper portion of the left side surface in the semicircular plate 3, four slots 74 are uniformly formed on the upper and lower sides of the right side surface of the groove 73 at intervals, the sleeve 75 is slidably disposed in the groove 73, the upper and lower ends of the right side of the sleeve 75 are respectively located in the slots 74 on the upper and lower sides of the foremost, the u-shaped strip 76 is installed on the right side surface outside the sleeve 75 by welding, the right end of the u-shaped strip 76 is located outside the groove 73, the front and rear sides of the u-shaped strip 76 are installed by bolting the u-shaped knife 5, the u-shaped block 72 is slidably disposed in the groove 73, both ends of the tail of the u-shaped block 72 are in contact with the outer side of the sleeve 75, the second spring 77 is connected between the middle portion of the left side surface in the u-shaped block 72 and the right side surface in the sleeve 75, the middle of the left side of the top of the u-shaped block 72 is fixedly connected with a pull rod 71, the top end of the pull rod 71 penetrates through the top of the left side of the semicircular plate 3, the pull rod 71 is in sliding connection with the semicircular plate 3, and when an operator pulls the pull rod 71 to move, the pull rod 71 can drive the u-shaped block 72 to move.

Firstly, an operator pulls the u-shaped knife 5 to move left to the maximum stroke through the sliding mechanism 7, stops pulling the u-shaped knife 5, sleeves a tire on the fixing mechanism 6, twists the fixing mechanism 6 to operate, clamps and fixes the tire, stops twisting the fixing mechanism 6, releases the u-shaped knife 5 to move right to be inserted into the outer side of the tire, can push the tire to rotate reversely, the u-shaped knife 5 slots the tire in reverse rotation, stops pushing the tire to rotate reversely when the tire is slotted for one circle, pulls the u-shaped knife 5 to move left to be separated from the contact with the tire, stops pulling the u-shaped knife 5, pulls the sliding mechanism 7 to move backwards for a certain distance, the sliding mechanism 7 moves backwards for a certain distance to drive the u-shaped knife 5 to move backwards, stops pulling the sliding mechanism 7 to move backwards after the u-shaped knife 5 moves backwards for a certain distance, releases the u-shaped knife 5 to move right to be inserted into the outer side of the tire, promote the tire reversal once more, u type sword 5 slots once more to the tire, so relapse, can be continuous slot to the tire, when slide mechanism 7 moves backward to the maximum stroke, four grooves have just also been opened on the tire to u type sword 5, the tire has just also accomplished the slot, pulling u type sword 5 moves left and breaks away from the contact with the tire, twist fixing mechanism 6 operation again and loosen the tire, take off the tire from fixing mechanism 6, so relapse, can be continuous slot to the tire.

When an operator pulls the u-shaped knife 5 to move leftwards to the maximum stroke, a tire is sleeved between the four clamping blocks 67, the u-shaped knife 5 is loosened to move rightwards and is inserted into the outer side of the tire, the rotating frame 61 is held and fixed, the rotating disc 62 is twisted to rotate forwards, the rotating disc 62 rotates forwards to drive the threaded rod 65 to rotate forwards, the threaded rod 65 rotates forwards through threads, the threaded rod 65 moves forwards to drive the conical block 66 to move forwards, the conical block 66 moves forwards to drive the guide rod 63 to move outwards, the guide rod 63 moves outwards to drive the clamping block 67 to move outwards, the first spring 64 is stretched, the clamping block 67 moves outwards to clamp and fix the tire, as the material of the outer side surface of the clamping block 67 is rubber, the friction force between the clamping block and the tire can be increased, the tire is clamped more stably, the twisting of the rotating disc 62 is stopped, the rotating disc 62 stops driving the threaded rod 65, the conical block 66 also stops driving the guide rod 63 to move outwards, and the clamping block 67 stops moving outwards, the tire can be pushed to rotate reversely, the rotating frame 61, the guide rod 63, the clamping block 67 and the first spring 64 are driven to rotate reversely by the tire rotating reversely, and the groove can be formed on the outer side of the tire. After the groove is formed in the tire, the twisting turntable 62 rotates reversely to drive the threaded rod 65 to rotate reversely, the threaded rod 65 rotates reversely to move backwards through the threads to reset, the threaded rod 65 moves backwards to drive the conical block 66 to move backwards, the conical block 66 moves backwards to reset without limiting the guide rod 63, due to the effect of the first spring 64, the clamping block 67 moves inwards to reset to drive the guide rod 63 to move inwards to reset, the clamping block 67 resets to loosen the tire, and the tire can be taken down from the clamping block 67.

Firstly, an operator pulls the u-shaped knife 5 to move leftwards, the u-shaped knife 5 moves leftwards to drive the u-shaped strip 76 to move leftwards, the u-shaped strip 76 moves leftwards to drive the sleeve 75 to move leftwards, the second spring 77 is compressed, the sleeve 75 moves leftwards to be separated from contact with the clamping groove 74, the u-shaped knife 5 stops being pulled to move leftwards, a tire is sleeved between the four clamping blocks 67, the u-shaped knife 5 is loosened, the sleeve 75 moves rightwards under the action of the second spring 77, the u-shaped knife 5 is driven to move rightwards to be inserted outside the tire through the u-shaped strip 76, grooving can be started, when a circle of grooves are formed on the outer side of the tire, the u-shaped knife 5 is pulled leftwards to move to be separated from contact with the tire, the u-shaped knife 5 moves leftwards to drive the sleeve 75 to move leftwards through the u-shaped strip 76, the second spring 77 is compressed, the sleeve 75 moves leftwards to be separated from contact with the clamping groove 74, the pull rod 71 to move backwards, the pull rod 71 moves backwards to drive the u-shaped block 72 to move backwards, the u-shaped block 72 moves backwards to drive the sleeve 75 to move backwards, the sleeve 75 moves backwards to drive the u-shaped strip 76 to move backwards, the u-shaped strip 76 drives the u-shaped cutter 5 to move backwards, when the sleeve 75 moves backwards to correspond to the next clamping groove 74, the pulling rod 71 stops being pulled to move backwards, the pull rod 71 stops driving the u-shaped block 72 to move backwards, the u-shaped block 72 stops driving the sleeve 75 to move backwards, the u-shaped cutter 5 also stops moving backwards, the u-shaped cutter 5 is loosened, due to the action of the second spring 77, the sleeve 75 drives the u-shaped cutter 5 to move rightwards through the u-shaped strip 76 to insert into the outer side of the tire, the tire is pushed to rotate backwards again, the u-shaped cutter 5 continues to groove the outer side of the tire, the situation that four grooves are formed on the outer side of the tire by the u-shaped cutter 5 when the sleeve 75 moves backwards to insert into the last clamping groove 74 is repeated, the situation that the u-shaped cutter 5 opens four grooves on the outer side of the tire is formed, the outer side of the tire can be pulled to move leftwards to separate from the tire, the tire is taken down, the pull rod 71 is pulled to drive the u-shaped block 72 to move forwards for resetting, the u-shaped block 72 drives the sleeve 75 to move forwards for resetting, the sleeve 75 drives the u-shaped knife 5 to move forwards for resetting through the u-shaped strip 76, and the pull rod 71 stops being pulled.

Example 2

On the basis of embodiment 1, the device further comprises a clamping mechanism 8, wherein the clamping mechanism 8 comprises a pedal 81, a third spring 82, a clamping rod 83, a fixed seat 84 and a rotating shaft 85, as shown in fig. 1-3, eight limiting grooves 86 are uniformly formed on the outer rear side of the rotating frame 61 at intervals along the circumferential direction, the clamping rod 83 is connected to the middle of the bottom of the T-shaped plate 4 in an embedded manner, when kelly 83 upward movement inserts in the spacing groove 86, kelly 83 can realize spacing carrying on the rotating turret 61, kelly 83 bottom is connected with third spring 82, fixing base 84 is installed through welded connection's mode to base 1 top rear side bilateral symmetry, the cross-under of rotary type has pivot 85 between the left and right sides fixing base 84, the fixed cover in pivot 85 middle part is equipped with footboard 81, footboard 81 is the slope setting, install through welded connection's mode with third spring 82 tail end in the middle of the footboard 81 top front side.

The pushing device comprises a pushing mechanism 9, the pushing mechanism 9 comprises an elastic pushing plate 91, a fixing ring 92, a movable rod 93, a fourth spring 94 and a fixing block 95, please refer to fig. 1, fig. 3 and fig. 7, the fixing block 95 is installed on the front side of the upper portion of the right side surface in the semicircular plate 3 in a welding connection mode, the rear side surface of the fixing block 95 is connected with the fourth spring 94, the rear side of the upper portion of the left side surface in the semicircular plate 3 is fixedly connected with the elastic pushing plate 91, when the elastic pushing plate 91 moves forwards, the elastic pushing plate 91 can push impurities out, the fixing ring 92 is installed on the outer rear side of the rotating frame 61 in a circumferential direction in a welding connection mode, the movable rod 93 is fixedly connected to the middle of the outer bottom of the fixing ring 92, the bottom end of the movable rod 93 is located in the elastic pushing plate 91, and the movable rod 93 can limit the elastic pushing plate 91.

Firstly, an operator steps the rear part of the pedal 81 to swing downwards, the rear part of the pedal 81 swings downwards to enable the front part to swing upwards, the front part of the pedal 81 swings upwards to drive the clamping rod 83 to move upwards through the third spring 82, when the clamping rod 83 moves upwards and is inserted into the limiting groove 86, the pedal 81 stops being stepped, the clamping rod 83 stops moving upwards, due to the action of the third spring 82, the clamping rod 83 can be tightly contacted with the limiting groove 86, the clamping rod 83 limits the rotating frame 61 through the limiting groove 86, the tire can be sleeved among the four clamping blocks 67 after the pedal 81 stops being stepped, the rotating disc 62 can be twisted to rotate forwards, the clamping blocks 67 move outwards to clamp the tire, the pedal 81 is loosened, due to the action of gravity, the front part of the pedal 81 swings downwards to reset, the rear part swings upwards, the front part of the pedal 81 swings downwards to reset, the clamping rod 83 is driven to move downwards through the third spring 82 to reset, the clamping rod 83 moves downwards to reset, and the clamping rod 83 is separated from the limiting groove 86, the tire can begin to be grooved. After four grooves are formed in the tire, the rear portion of the pedal 81 is stepped again to swing downwards, the clamping rod 83 moves upwards and is inserted into the limiting groove 86 to limit the rotating frame 61, the rotating disc 62 can be twisted to rotate reversely, the clamping block 67 moves inwards to reset to loosen the tire, the tire is taken down from the clamping block 67, the pedal 81 is loosened to reset, and the clamping rod 83 moves downwards to reset to be separated from the limiting groove 86. Therefore, the rotating frame 61 is not required to be held and fixed by an operator by hands, and the operation is convenient and fast.

Initially, the fourth spring 94 is in a stretching state, firstly, an operator places the collecting container in the middle of the front side of the base 1, when the tire rotates reversely, the u-shaped knife 5 slots the tire in reverse rotation, the chips appearing in the slot fall into the semicircular plate 3, the tire rotates reversely to drive the clamping block 67 to rotate reversely, the clamping block 67 rotates reversely to drive the guide rod 63 to rotate reversely, the guide rod 63 rotates reversely to drive the rotating frame 61 to rotate reversely, the rotating frame 61 rotates reversely to drive the fixing ring 92 to rotate reversely, the fixing ring 92 rotates reversely to drive the movable rod 93 to rotate reversely, when the movable rod 93 rotates reversely to be separated from the elastic material pushing plate 91, due to the action of the fourth spring 94, the elastic material pushing plate 91 swings forward for a certain distance to push out the chips in the semicircular plate 3, the pushed out chips fall into the collecting container, and further, when the movable rod 93 rotates reversely to be contacted with the elastic material pushing plate 91, the movable rod 93 drives the elastic material pushing plate 91 to swing backward to reset, the fourth spring 94 is stretched, when the movable rod 93 continuously rotates reversely and is separated from the elastic material pushing plate 91 again, the elastic material pushing plate 91 continuously swings forwards to push out the fragments under the action of the fourth spring 94, and when the tire is grooved, the tire stops being pushed, and the rotating frame 61 stops driving the movable rod 93 to rotate reversely. Therefore, the influence of a large amount of scraps remained in the semicircular plate 3 on the rotation of the subsequent tire can be avoided.

Example 3

On the basis of the embodiment 1 and the embodiment 2, the device further comprises a guide sleeve 10, an arc-shaped plate 11, a contact plate 12 and a connecting rod 13, please refer to fig. 2, fig. 4, fig. 5 and fig. 7, the contact plate 12 is installed on the lower portion of the rear side of the clamping rod 83 in a welding connection mode, the guide sleeve 10 is fixedly connected to the left side of the lower portion of the rear side of the semicircular plate 3, the arc-shaped plate 11 is connected in a sliding mode in the guide sleeve 10 in a penetrating mode, the arc-shaped plate 11 is located above the contact plate 12, the arc-shaped plate 11 is in contact with the contact plate 12, the arc-shaped plate 11 can limit the contact plate 12, the connecting rod 13 is fixedly sleeved on the outer right side of the u-shaped bar 76, the rear end of the connecting rod 13 penetrates through the upper portion of the arc-shaped plate 11, and when the connecting rod 13 moves leftward, the connecting rod 13 can drive the arc-shaped plate 11 to move leftward.

The tire chamfering device further comprises a mounting block 14, a connecting rod 15 and a chamfering tool 16, as shown in fig. 4-6, the mounting block 14 is mounted between the right sides of the front side face and the right side of the rear side face outside the u-shaped strip 76 in a bolt connection mode, the connecting rod 15 is mounted on the lower portion of the front side face and the lower portion of the rear side face of the mounting block 14 in a bolt connection mode, the chamfering tool 16 is fixedly connected to the right sides of the inner side faces of the connecting rods 15 on the front side and the rear side, and when a tire rotates, the chamfering tool 16 can chamfer a groove formed in the tire.

When an operator pulls the u-shaped knife 5 to move a certain distance leftwards, the u-shaped knife 5 drives the u-shaped strip 76 to move leftwards, the u-shaped strip 76 also drives the connecting rod 13 to move leftwards, the connecting rod 13 moves leftwards to drive the arc-shaped plate 11 to move leftwards, the arc-shaped plate 11 moves leftwards to be separated from contact with the contact plate 12, then the rear part of the treading pedal 81 can be treaded to swing downwards, the clamping rod 83 moves upwards to be inserted into the limiting groove 86 to limit the rotating frame 61, the clamping rod 83 also drives the contact plate 12 to move upwards for a certain distance, after a tire is clamped by the clamping block 67, the treading pedal 81 is released to reset, the clamping rod 83 also moves downwards to reset to be separated from contact with the limiting groove 86, the clamping rod 83 also drives the contact plate 12 to move downwards to reset, the u-shaped knife 5 is released to move rightwards to reset, the u-shaped knife 5 resets to drive the u-shaped strip 76 to move rightwards to reset, the u-shaped strip 76 resets to drive the connecting rod 13 to move rightwards to reset, the connecting rod 13 drives the arc-shaped plate 11 to move backwards to reset, the arc plate 11 resets and contacts with the contact plate 12, and the arc plate 11 limits the contact plate 12. Thus, when the tire is grooved, the situation that people step on the pedal 81 by mistake to enable the clamping rod 83 to limit the groove of the rotating frame 61 is avoided.

When an operator pulls the u-shaped knife 5 to drive the u-shaped strip 76 to move leftwards, the u-shaped strip 76 also drives the mounting block 14 to move leftwards, the mounting block 14 moves leftwards to drive the connecting rod 15 to move leftwards, the connecting rod 15 moves leftwards to drive the chamfering knife 16 to move leftwards, and then after a tire is clamped, the u-shaped knife 5 is loosened, the u-shaped strip 76 moves rightwards to drive the u-shaped knife 5 to move rightwards to be inserted into the outer side of the tire, the u-shaped strip 76 also drives the connecting rod 15 to move rightwards through the mounting block 14, the connecting rod 15 drives the u-shaped knife 5 to move rightwards to be inserted into the outer side of the tire, and when the tire is grooved by the u-shaped knife 5, the chamfering knife 16 chamfers a groove formed in the tire. Thus, the groove on the tire can be better opened.

Finally, it is necessary to state that: the above-mentioned contents are only used to help understanding the technical solution of the present invention, and should not be interpreted as limiting the scope of the present invention; insubstantial modifications and adaptations of the invention as described above will occur to those skilled in the art and are intended to be within the scope of the invention as claimed.

Claims (8)

1. The utility model provides an exempt from to aerify macromolecular material tire and processing equipment thereof, including base (1), supporting seat (2), semicircle board (3), T template (4) and u type sword (5), base (1) top front side bilateral symmetry rigid coupling has supporting seat (2), the rigid coupling has semicircle board (3) between left and right sides supporting seat (2) the inner, the rear side has T template (4) along circumference rigid coupling in semicircle board (3), u type sword (5) are realized slotting the tire, a serial communication port, still including fixed establishment (6) and slide mechanism (7), the last installation of rotation type of T template (4) is used for fixed establishment (6) of tire, slide mechanism (7) are installed on semicircle board (3) left side upper portion, slide mechanism (7) are connected with u type sword (5).

2. The inflation-free high polymer material tire and the processing equipment thereof as claimed in claim 1, wherein the fixing mechanism (6) comprises a rotating frame (61), a rotating disc (62), a guide rod (63), a first spring (64), a threaded rod (65), a conical block (66) and a clamping block (67), the rotating frame (61) is rotatably connected in the middle of the upper part of the T-shaped plate (4) in a penetrating manner, the four ends of the front side of the rotating frame (61) are embedded and slidably connected with the guide rod (63), the outer end of the guide rod (63) is fixedly connected with the clamping block (67) for clamping the tire, the first spring (64) is connected between the inner side surface of the clamping block (67) and the outer front side surface of the rotating frame (61), the first spring (64) is sleeved on the guide rod (63), the threaded rod (65) is rotatably connected in the circumferential direction of the inner rear side of the rotating frame (61) in a penetrating manner through the threaded rod, the rear end of the threaded rod (65) is fixedly connected with the rotating disc (62), the front end of the threaded rod (65) is rotatably connected with a conical block (66) used for driving the guide rods (63) to move outwards, and the conical block (66) is in contact with the inner ends of the four guide rods (63).

3. The non-inflatable high polymer material tire and the processing equipment thereof as claimed in claim 2, wherein the sliding mechanism (7) comprises a pull rod (71), a u-shaped block (72), a sleeve (75), a u-shaped strip (76) and a second spring (77), a groove (73) is formed in the front of the upper portion of the left side surface in the semicircular plate (3), four clamping grooves (74) are uniformly formed in the upper and lower sides of the right side surface of the groove (73) at intervals, the sleeve (75) is placed in an inward sliding manner in the groove (73), the upper and lower ends of the right side of the sleeve (75) are respectively located in the clamping grooves (74) at the upper and lower sides of the forefront, the u-shaped strip (76) is fixedly connected to the outer right side surface of the sleeve (75), the right end of the u-shaped strip (76) is located outside the groove (73), the front and rear sides of the u-shaped strip (76) are fixedly connected with the u-shaped cutter (5), the u-shaped block (72) is placed in the inward sliding manner in the groove (73), the both ends of u type piece (72) afterbody and sleeve (75) outside contact are connected with second spring (77) between left surface middle part in u type piece (72) and the interior right flank of sleeve (75), and the rigid coupling has pull rod (71) in the middle of u type piece (72) top left side, and semicircle board (3) left side top is run through on pull rod (71) top, pull rod (71) and semicircle board (3) sliding connection.

4. The non-inflatable high polymer material tire and the processing equipment thereof as claimed in claim 3, further comprising a clamping mechanism (8) for limiting the rotating frame (61), wherein the clamping mechanism (8) comprises a pedal (81), a third spring (82), a clamping rod (83), a fixing seat (84) and a rotating shaft (85), eight limiting grooves (86) are uniformly formed in the outer rear side of the rotating frame (61) along the circumferential direction at intervals, the clamping rod (83) for limiting the rotating frame (61) is connected in an embedded manner in the middle of the bottom of the T-shaped plate (4) in a sliding manner, the bottom end of the clamping rod (83) is connected with the third spring (82), the fixing seats (84) are fixedly connected in a left-right symmetrical manner on the rear side of the top of the base (1), the rotating shaft (85) is rotatably connected between the fixing seats (84) on the left side and the right side, the pedal (81) is fixedly sleeved in the middle of the rotating shaft (85), the pedal (81) is obliquely arranged, and the middle of the front side of the top of the pedal (81) is fixedly connected with the tail end of the third spring (82).

5. The non-inflatable polymer material tire and the processing equipment thereof according to claim 4, the novel high-speed automatic chip pushing device is characterized by further comprising a pushing mechanism (9) used for pushing out chips, wherein the pushing mechanism (9) comprises an elastic pushing plate (91), a fixing ring (92), a movable rod (93), a fourth spring (94) and a fixing block (95), the fixing block (95) is fixedly connected to the front side of the upper portion of the inner right side face of the semicircular plate (3), the rear side face of the fixing block (95) is connected with the fourth spring (94), the rear side of the upper portion of the inner left side face of the semicircular plate (3) is fixedly connected with the elastic pushing plate (91) used for pushing out impurities, the fixing ring (92) is fixedly connected to the outer rear side of the rotating frame (61) along the circumferential direction, the middle of the outer bottom of the fixing ring (92) is fixedly connected with the movable rod (93) used for limiting the elastic pushing plate (91), and the bottom end of the movable rod (93) is located in the elastic pushing plate (91).

6. The non-inflatable polymer material tire and the processing equipment thereof as claimed in claim 5, further comprising a guide sleeve (10), an arc plate (11), a contact plate (12) and a connecting rod (13), wherein the contact plate (12) is fixedly connected to the lower portion of the rear side of the clamping rod (83), the guide sleeve (10) is fixedly connected to the left side of the lower portion of the rear side of the semicircular plate (3), the arc plate (11) for limiting the contact plate (12) is slidably connected in the guide sleeve (10) in a penetrating manner, the arc plate (11) is located above the contact plate (12), the arc plate (11) is in contact with the contact plate (12), the connecting rod (13) is fixedly sleeved on the outer right side of the u-shaped strip (76) along the circumferential direction, and the rear end of the connecting rod (13) penetrates through the upper portion of the arc plate (11).

7. The non-inflatable high polymer material tire and the processing equipment thereof according to claim 6, further comprising an installation block (14), a connecting rod (15) and a chamfering tool (16), wherein the installation block (14) is fixedly connected between the right sides of the front and rear sides of the u-shaped strip (76), the connecting rod (15) is fixedly connected to the lower portion of the front and rear sides of the installation block (14), and the chamfering tool (16) for chamfering the groove formed in the tire is fixedly connected to the right side of the inner side of the connecting rod (15) at the front and rear sides.

8. The tire and the processing equipment thereof as claimed in claim 7, wherein the outer side of the clamping block (67) is made of rubber.

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