CN207984031U - A kind of position reset mechanism of trouble-proof tire filling device - Google Patents

Abstract

The utility model discloses a kind of position reset mechanisms of trouble-proof tire filling device, including the jack for driving conduit assembly to move up and down vertically and the rotary components for driving conduit assembly to rotate synchronously；Jack includes fixed plate and the movable plate below fixed plate, and the extensible member for driving movable plate to move up and down vertically when flexible is fixedly connected with above fixed plate；The conduit assembly include for trouble-proof tire inner wall spray glue glue spraying pipe and for the feed pipe to trouble-proof tire delivered inside particle, glue spraying pipe and feed pipe are fixedly connected with movable plate；Rotary components include the driven coupled wheel being fixedly connected respectively with glue spraying pipe and feed pipe, link chain with the active coupled wheel of movable plate rotation connection and the circle being wrapped in above active coupled wheel and driven coupled wheel, active coupled wheel is fixedly connected with the output shaft of driving motor, the utility model has the advantages that the lower port of conduit assembly can be driven to move to corresponding station or retract home position.

Description

A kind of position reset mechanism of trouble-proof tire filling device

Technical field

The utility model is related to a kind of filling system of trouble-proof tire, more particularly to a kind of trouble-proof tire filling device is determined Position resetting-mechanism.

Background technology

The filling device of trouble-proof tire is mainly used to fill filler to inside tires, to improve the explosion-proof and anti-bundle of tire Ability.

It needs to use the pipeline for conveying various fillers and binder, pipeline during being filled filler to tire Discharge port need be inserted into trouble-proof tire inside to be located in corresponding station, can just proceed by filling work, work Bi Hou needs the lower port of pipeline retracting home position when needing replacing trouble-proof tire.

Utility model content

The purpose of this utility model is to provide a kind of position reset mechanism of trouble-proof tire filling device, its advantage is that can be with The lower port of conduit assembly is driven to move to corresponding station or retract home position.

The above-mentioned technical purpose of the utility model technical scheme is that：A kind of trouble-proof tire filling The position reset mechanism of device, including drive the jack that conduit assembly moves up and down vertically is synchronous with conduit assembly is driven to turn Dynamic rotary components.

Through the above technical solutions, rotary components can drive conduit assembly to rotate, the lower port of pipeline is made to be transferred to or turn Go out trouble-proof tire, after producing trouble-proof tire, jack can drive conduit assembly move up and down without in trouble-proof tire Lateral edges are inconsistent.

The utility model is further arranged to：The jack includes fixed plate and the activity below fixed plate Plate is fixedly connected with the extensible member for driving movable plate to move up and down vertically when flexible above fixed plate；The conduit assembly packet It includes for spraying the glue spraying pipe of glue to trouble-proof tire inner wall and for the feed pipe to trouble-proof tire delivered inside particle, glue spraying Pipe and feed pipe are fixedly connected with movable plate.

Through the above technical solutions, when extensible member stretching motion, fixed plate remains stationary as, and movable plate is with the flexible of extensible member It is vertical to move up and down, it drives glue spraying pipe and feed pipe to move up and down, the lower port of glue spraying pipe and feed pipe is made to stretch to corresponding work Height and position where position returns to original height position.

The utility model is further arranged to：The rotary components include being fixedly connected respectively with glue spraying pipe and feed pipe The active coupled wheel and be wrapped in above active coupled wheel and driven coupled wheel that driven coupled wheel and movable plate are rotatablely connected One circle linkage chain, active coupled wheel are fixedly connected with the output shaft of driving motor.

Through the above technical solutions, driving motor can be driven by active coupled wheel and linkage chain-driving when running Wheel rotation can make glue spraying pipe and feed infratubal port be transferred to Explosion-proof wheel to drive glue spraying pipe and feed pipe to rotate together It has been located in corresponding station inside tire or has produced trouble-proof tire, in order to avoid carry upwards to lower port when home position and trouble-proof tire Edge it is inconsistent or to collision.

The utility model is further arranged to：The extensible member is pneumatic cylinder, and cylinder body is fixedly connected with the fixed plate, living Stopper rod is fixedly connected with the movable plate.

Through the above technical solutions, piston rod can drive movable plate to transport up and down vertically when moving up and down vertically along cylinder body It is dynamic.

The utility model is further arranged to：The quantity of the pneumatic cylinder is three or more.

Through the above technical solutions, multiple pneumatic cylinders can be such that movable plate different location stress more balances, move up and down Shi Gengjia is steady.

The utility model is further arranged to：It is covered with case outside the rotary components.

Through the above technical solutions, the dust that case can be reduced in extraneous air enters inside rotary components, or avoid Other objects enter rotary components and are impacted to the operating of rotary components.

In conclusion the utility model has the advantages that：

1, jack can drive conduit assembly to move up and down, and the lower port of conduit assembly moves to and corresponding station height It spends identical position or retracts home position；

2, rotary components can make conduit assembly lower port rotate into the inside of explosion-proof pipeline to be located in corresponding work Position, or to produce trouble-proof tire inconsistent or collide to avoid when the moving upwards and edge of trouble-proof tire.

Description of the drawings

Fig. 1 is the structural schematic diagram of the utility model；

Fig. 2 is the schematic diagram for embodying centrifugal device structure；

Fig. 3 is the schematic diagram for embodying clamping turntable structure；

Fig. 4 is the schematic diagram for embodying baffle ring structure；

Fig. 5 is the schematic diagram for embodying pivot structure；

Fig. 6 is the schematic diagram for embodying transmission mechanism；

Fig. 7 is the schematic diagram for embodying brake stop mechanism structure；

Fig. 8 is the schematic diagram for embodying hinged axle construction；

Fig. 9 is the schematic diagram for embodying position reset mechanism structure；

Figure 10 is the schematic diagram for embodying assembly relation between jack, rotary components and conduit assembly；

Figure 11 is the schematic diagram for embodying conduit assembly structure；

Figure 12 is the schematic diagram for embodying rotary components structure；

Figure 13 is the schematic diagram for embodying glue spraying header structure；

Figure 14 is the schematic diagram embodied when conduit assembly lower port is in station with trouble-proof tire position relationship；

Figure 15 is the schematic diagram for embodying feed pipe lower end structure；

Figure 16 is the schematic diagram for embodying jet header structure；

Figure 17 is the schematic diagram for embodying cavity structure；

Figure 18 is the schematic diagram for embodying air jet pipe operation principle；

Figure 19 is the schematic diagram for embodying blowing header structure；

Figure 20 is the operation principle schematic diagram for embodying conduit assembly rotation and exiting trouble-proof tire；

Figure 21 is the schematic diagram that clamping turntable structure is embodied in embodiment 2；

Figure 22 is the sectional view at A-A in Figure 21；

Figure 23 is the schematic diagram that driving gear and driven gear transmission principle are embodied in embodiment 2

Figure 24 is the schematic diagram for embodying trouble-proof tire contour structures；

Figure 25 is the schematic diagram for embodying trouble-proof tire internal structure；

Figure 26 is the structural schematic diagram for embodying filler filling angle.

In figure, 1, centrifugal device；11, bottom plate；12, protective cover；121, sliding sleeve；13, brake stop mechanism；131, articulated shaft； 132, handle；133, brake disk；134, gib block；135, brake piece；136, knuckle；14, turntable is clamped；141, terminal pad； 142, bar is lifted；143, supporting rod；144, rubber pad；145, baffle ring；146, pallet；147, sleeve；1471, chamfering；148, it moulds Rubber cushion；149, railing；15, transmission mechanism；151, worm gear；152, worm screw；153, bearing block；154, driven gear；155, actively Gear；16, shaft；161, axle journal；2, filling device；21, conduit assembly；211, glue spraying pipe；212, feed pipe；213, tracheae； 214, gas-guide tube；215, splicing tubes；216, hose；217, glue spraying head；2171, glue spraying hole；218, jet thrust；2181, cavity； 2182, puff prot；2183, arc-shaped transitional surface；219, blowing head；2191, air outlet；22, position reset mechanism；221, radio and tape player Structure；2211, fixed plate；2212, movable plate；2213, pneumatic cylinder；222, rotary components；2221, driven coupled wheel；2222, main Axis；2223, active coupled wheel；2224, link chain；2225, case；3, taper roll bearing；4, deep groove ball bearing；5, electronic Machine；6, driving motor.

Specific implementation mode

The utility model is described in further detail below in conjunction with attached drawing.

Embodiment 1：A kind of position reset mechanism of trouble-proof tire filling device, as shown in Figure 1, the centrifugation including lower part fills The filling device 2 on 1 and top is set, filling device 2 is used to fill filler to tire medial surface, and centrifugal device 1 is explosion-proof for driving Tire rotates, and filler is made to be tightly attached on the medial surface of trouble-proof tire under the action of the centrifugal force.

As shown in Fig. 2, centrifugal device 1 includes bottom plate 11, protective cover 12,13 and of brake stop mechanism set gradually from the bottom to top Turntable 14 is clamped, when work, trouble-proof tire fixed placement is in 14 inside of clamping turntable, and in conjunction with Fig. 3, protective cover 12 is internally provided with biography Motivation structure 15 and driving device, clamping turntable 14 are fixedly connected with the shaft 16 being sequentially connected with 15 phase of transmission mechanism below, drive Dynamic device drives shaft 16 and clamping turntable 14 to rotate by transmission mechanism 15, to drive trouble-proof tire to rotate, driving device After being stopped, trouble-proof tire and clamping turntable 14 will continue to rotation a period of time under effect of inertia, and brake stop mechanism 13 is used for It forces 16 rotating speed of shaft quickly to reduce manually, shortens clamping turntable 14 and slow down the time used, improve working efficiency.

As shown in figure 3, clamping turntable 14 include lifting structure with what 16 upper end of shaft was fixedly connected, lift structure include with The terminal pad 141 and be fixedly connected on 141 outer cylinder of terminal pad along the diametric(al) of terminal pad 141 that 16 upper end of shaft is fixedly connected On lift bar 142, lift bar 142 around the shaft 16 central axis circumference array distribution, lift bar 142 and be used to support Explosion-proof wheel Tire（See Fig. 2）Bottom surface, the quantity for lifting bar 142 can be three or more and in the same level, improve to Explosion-proof wheel The stationarity of tire bottom surface support.It lifts the one end of bar 142 far from terminal pad 141 and is equipped with clamp structure, clamp structure is fixed connects It is connected on the supporting rod 143 lifted the one end of bar 142 far from shaft 16 and be vertically arranged, supporting rod 143 is for the outer of trouble-proof tire Cylinder is inconsistent trouble-proof tire to be clamped on clamping turntable 14, and the central axis for making trouble-proof tire and the center of shaft 16 turn Axis 16 coincides, and trouble-proof tire rotation can be more steady.143 inside of supporting rod is fixedly connected with the circular railing 149 of a circle, Railing 149 is abutted against when trouble-proof tire is placed on 143 inside of supporting rod with the outer cylinder of trouble-proof tire, and it is right to improve supporting rod 143 The stability of trouble-proof tire radial support.

Fixing sleeve is connected to one layer of rubber pad 144 on supporting rod 143, and rubber pad 144 can be with the outer cylinder phase of trouble-proof tire It abuts, rubber pad 144 can increase the friction coefficient between supporting rod 143 and trouble-proof tire, to increase rubber pad 144 and prevent Frictional force between quick-fried tire is less likely to occur to slide relatively between trouble-proof tire and supporting rod 143, and clamping turntable 14 can be more It is easy to drive trouble-proof tire rotation.

Supporting rod 143 is bent far from the one end for lifting bar 142 towards the direction far from 16 central axis of shaft, and trouble-proof tire is put When entering 143 inside of supporting rod, the surface of trouble-proof tire can gradually slide into supporting rod 143 along the surface in 143 knee of supporting rod Inside, trouble-proof tire remain to easily be put into supporting rod 143 in the case where outer cylinder is not perfectly aligned with 143 medial surface of supporting rod Inside.

It lifts bar 142 and is fixedly connected with a circle baffle ring 145 above, in conjunction with Fig. 4, trouble-proof tire is mounted on clamping turntable 14 After upper, the outer wall of baffle ring 145 can be abutted against with the edge of trouble-proof tire bottom surface, can be by filler baffle in trouble-proof tire Portion reduces filler and is fallen from the hole among trouble-proof tire.

As shown in figure 5, shaft 16 is hollow structure, the weight of shaft 16 can be reduced and reduce the consumptive material of shaft 16.Turn 16 lower end of axis is equipped with twice axle journal 161, is socketed with taper roll bearing 3 on axle journal 161 above, taper roll bearing 3 it is upper Surface and the shoulder face of upper journal 161 abut against, and lower surface and the upper surface of bottom plate 11 abut against, and bottom plate 11 rolls circular cone Sub- bearing 3 and shaft 16 are supported in the vertical direction.16 bottom end of shaft also is provided with axle journal 161, is covered on the axle journal 161 of bottom end It is connected to deep groove ball bearing 4, the hole inner wall that the outer ring outer cylinder of deep groove ball bearing 4 is correspondingly arranged with bottom plate 11 abuts against, inner ring 161 outer cylinder of axle journal of inner cylinder and bottom end abuts against, and deep groove ball bearing 4 can reduce between 16 outer cylinder of shaft and bottom plate 11 Frictional force, while 16 radial direction of countershaft is supported.

As shown in fig. 6, transmission mechanism 15 includes the worm gear 151 being fixedly attached in shaft 16 and is nibbled with 151 phase of worm gear The worm screw 152 of conjunction, driving device can be motor 5, and the output shaft of motor 5 is fixedly connected with worm screw 152, motor 5 Pedestal and bottom plate 11（See Fig. 3）It is fixedly connected, drives worm gear 151 and shaft 16 to rotate by worm screw 152 when motor 5 is run. The both ends of worm screw 152 are socketed with bearing block 153, and the bottom surface of bearing block 153 is fixedly connected with bottom plate 11, for worm screw 152 Both ends be supported.

In conjunction with Fig. 7 and Fig. 8, brake stop mechanism 13 include vertically be fixedly connected on articulated shaft 131 above bottom plate 11, rotation connects Be connected on the handle 132 of 131 upper end of articulated shaft and be fixedly connected on 132 one end of handle and positioned at articulated shaft 131 and shaft 16 it Between brake disk 133, can make when with hand rotational handle 132 brake disk 133 around articulated shaft 131 rotate, brake disk 133 is close to shaft 16 Extruding can be abutted against with 16 outer surface of shaft on one side, frictional force be generated between shaft 16, shaft 16 is in not driving force In the case of, brake stop mechanism 13 can force stopping for 16 fast speed of shaft.Brake disk 133 is arc close to the one side of shaft 16 Shape, can increase the area contacted with shaft 16, reduce abrasion, and brake piece 135 is fixedly connected on one side close to shaft 16, can be with Increase the frictional force between brake disk 133 and shaft 16.The length of handle 132 is more than 60cm, and stopping the stopping time manually can be more effortless, stops Disk 133 is 0.5cm~1cm close to the distance between one side and 16 surface of shaft of shaft 16.It is hinged when handle 132 does not rotate Plane and brake disk 133 arc-shaped perpendicular of the central axis of axis 131 with the central axis of shaft 16 where common, towards two A direction, which allows handle 132 to rotate equal angular, makes the frictional force that same size is generated between brake disk 133 and shaft 16.Handle 132 are equipped with knuckle 136 with 133 junction of brake disk, for reducing stress concentration, improve between handle 132 and brake disk 133 Bonding strength.

As shown in figure 8,12 upper end of protective cover is provided with hole, fixing sleeve is connected to sliding sleeve 121, the upper end outer cylinder of shaft 16 in hole It is rotatablely connected with the inner wall of sliding sleeve 121, sliding sleeve 121 can carry out radial support with the upper end of countershaft 16.The lower surface of handle 132 It being abutted against with the upper surface of protective cover 12, the upper surface of protective cover 12 is horizontal, when handle 132 is rotated around articulated shaft 131, handle 132 lower surface can be supported 132 lower surface of handle along the upper surface slide of protective cover 12, protective cover 12, limit The one end of handle 132 far from articulated shaft 131 processed deflects down.In conjunction with Fig. 7, it is fixedly connected with gib block 134 on protective cover 12, leads It is abutted against to the lower surface of item 134 and the upper surface of handle 132, when handle 132 rotates, upper surface can be along gib block 134 Lower surface is slided, and gib block 134 can limit the one end of handle 132 far from articulated shaft 131 and upward deflect.

As shown in figure 9, filling device 2 is including conduit assembly 21 and for driving conduit assembly 21 to stretch into or exit Explosion-proof wheel Tire（See Fig. 1）To reach corresponding station or return to the position reset mechanism 22 in home position.

As shown in Figure 9 and Figure 10, position reset mechanism 22 includes the radio and tape player for driving conduit assembly 21 to move up and down vertically Structure 221 and the rotary components 222 for driving 21 synchronous rotary of conduit assembly.Jack 221 includes fixed plate 2211 and is located at solid The movable plate 2212 of 2211 lower section of fixed board, fixed plate 2211 are equipped with vertical pneumatic cylinder 2213, the cylinder body of pneumatic cylinder 2213 above It is fixedly connected with fixed plate 2211, piston rod is fixedly connected across fixed plate 2211 with the upper surface of movable plate 2212, pneumatic cylinder 2213 can drive movable plate 2212 to move up and down vertically when flexible.Conduit assembly 21 is fixedly connected with movable plate 2212, activity Plate 2212 can drive conduit assembly 21 to move up and down when moving up and down.Pneumatic cylinder 2213 can be three, around fixed plate 2211 Center circumferential array distribution, can more stably drive movable plate 2212 move up and down.

As shown in figure 11, conduit assembly 21 include the glue spraying pipe 211 for glue spraying, the feed pipe 212 for filler particles, Tracheae 213 for carrying out Homogenization Treatments to depth of packing and the gas-guide tube 214 for carrying out drying and processing to filler.Knot Figure 10 is closed, feed pipe 212 and gas-guide tube 214 sliding sleeve between fixed plate 2211 and movable plate 2212 are connected to splicing tubes 215, give The lower end of expects pipe 212 and gas-guide tube 214 can pull and push along splicing tubes 215 when moving up and down and move, and splicing tubes 215 can make feed Pipe 212 is connected in one section below movable plate 2212 with one section of holding above fixed plate 2211 with gas-guide tube 214. Glue spraying pipe 211 and tracheae 213 are fixedly connected with hose 216 between fixed plate 2211 and movable plate 2212, on movable plate 2212 When lower movement, hose 216 can be bent and be straightened, and hose 216 is by glue spraying pipe 211 and tracheae 213 under movable plate 2212 One section of face remains connected to lead to one section above fixed plate 2211.

As shown in Fig. 9,10 and 12, rotary components 222 are between movable plate 2212 and fixed plate 2211, rotary components 222 include the driven coupled wheel 2221 being fixedly attached respectively with glue spraying pipe 211, feed pipe 212, gas-guide tube 214 and tracheae 213, Driven coupled wheel 2221 is located in same level, and rotary components 222 further include the centre bit for being rotatably connected on movable plate 2212 The main shaft 2222 set, fixing sleeve is connected to active coupled wheel 221, active coupled wheel 221 and driven coupled wheel 2221 on main shaft 2222 Outer ring series connection is wound with circle linkage chain 2224, and active coupled wheel 221 can drive each driven coupled wheel 2221 to rotate when rotating, To drive each tunnel synchronization to rotate.

The outside of rotary components 222 is covered with the case 2225 being fixedly connected with 2212 upper surface of movable plate, and case 2225 can be with The dust reduced in air enters inside rotary components 222.Case 2225 is equipped with driving motor 6, the shell of driving motor 6 above It is fixedly connected with case 2225, output shaft is fixedly connected with main shaft 2222, and driving motor 6 can drive the rotation of main shaft 2222 to drive Dynamic rotary components 222 operate.

As shown in Figure 13 and Figure 14,211 lower end of glue spraying pipe is fixedly connected with glue spraying head 217, and glue spraying head 217 is stretched at work Enter the inside of trouble-proof tire, glue spraying head 217 is connected equipped with equally distributed with glue spraying pipe 211 close to the one side of trouble-proof tire inner wall Logical glue spraying hole 2171, for uniformly spraying glue to trouble-proof tire inner wall.

As shown in Figure 14 and Figure 15,212 lower end of feed pipe is equipped with bending section, and at work, port is towards trouble-proof tire Inner wall, for filler to be input to inside trouble-proof tire, trouble-proof tire makes filler by certain centrifugal force when rotating, and fills out It fills object to be attached on the inner wall of trouble-proof tire, under the adhesive attraction of glue, filler gradually bonds together.

As shown in figure 16,213 lower end of tracheae is fixedly connected with jet thrust 218, and jet thrust 218 is internally provided with and tracheae 213 The cavity 2181 being connected, 218 one side of jet thrust is equipped with puff prot 2182, empty after tracheae 213 inputs gas into cavity 2181 Air pressure inside chamber 2181 is increased and is sprayed from puff prot 2182.

In conjunction with Figure 17 and Figure 18, filler is in solid-liquid admixture when glue does not solidify, can be to by gravity Lower movement causes the filler thickness of lower part to be more than the filler thickness on top.When jet thrust 218 works, 2182 court of puff prot To the inner wall of trouble-proof tire, the width of puff prot 2182 from top to bottom gradually increases in the vertical direction, and gas is from puff prot 2182 spray after generate friction with the air of outside and squeeze, lose after a part of kinetic energy with the filler phase adhered on tire inner wall It squeezing, the gas flow that the gas flow wall sprayed from 2182 top of puff prot is sprayed from lower part is small, therefore, trouble-proof tire inner wall On filler from top to bottom by gas impact thrust gradually increase.The filler of lower part is pressed upwards, and is reduced top and is filled out The thickness difference for filling object and under-filled object keeps the thickness that filler is attached on trouble-proof tire inner wall more equal in different location It is even.The direction of the gas outlet court of institute of tracheae 213 is perpendicular with the side of jet thrust 218 and positioned at 2182 vertical direction of puff prot Centre position, gas spread and are full of cavity 2181 after tracheae 213 sprays into cavity 2181, and gas reaches puff prot 2182 not With height and position time relatively, the air pressure generated at 2182 different height of puff prot is relatively uniform, tracheae 213 with it is empty Chamber 2181 be connected place air inlet be strip, the length direction of air inlet is identical as vertical direction, and gas enters cavity Time spent by 2181 upper inside wall of cavity and lower inner wall is diffused to after 2181 relatively, it is different in 2181 inside of cavity The air pressure that position generates is relatively uniform.Arc-shaped transitional surface 2183 is equipped between 2181 adjacent inner wall of cavity, for reducing cavity Stress concentration between 2181 adjacent inner walls.

As illustrated in figures 19 and 20,214 lower end of gas-guide tube is fixedly connected with blowing head 219, the air outlet for head 219 of drying 2191 have certain angle with the diametric(al) of trouble-proof tire and are tilted towards the opposite direction in trouble-proof tire direction of rotation.Air guide Pipe 214 is used for blowing 219 heat air delivery of head, hot wind after the blowout of air outlet 2191 with the filling that is replicated on trouble-proof tire inner wall Object contacts, and is dried to filler, filler is made to solidify sizing quickly.

As shown in Figure 14 and Figure 20, the rotation of conduit assembly 21 can make glue spraying head 217, jet thrust 218, blowing head 219 It is transferred to or is produced inside trouble-proof tire with the discharge port of feed pipe 212, the up and down motion of conduit assembly 21 can make glue spraying head 217, the discharge port of jet thrust 218, blowing head 219 and feed pipe 212 stretches to or exits the inside of trouble-proof tire, by transporting up and down Dynamic and rotation can make the discharge port of glue spraying head 217, jet thrust 218, blowing head 219 and feed pipe 212 stretch into or exit it is explosion-proof The inside of tire is in order to carrying out glue spraying, filling, thickness uniformizing and drying work.

After trouble-proof tire is machined and assembled, contour structures are as shown in figure 24, including the wheel hub of inner ring and fixed company It is columned tire body, as illustrated in figs. 25 and 26, filler to be connected on the outer surface on the outside of wheel hub（It is arranged in Figure 25 and Figure 26 Small circle indicate filler）It is filled on the inner wall of tire body, around 360 degree of fillings of central axis, filler is located at tire body Position of the inner wall far from central axis.

The course of work：First, trouble-proof tire will be put to be mounted on clamping turntable 14, then start pneumatic cylinder 2213 and drive work Movable plate 2212 moves downward, and movable plate 2212 drives the discharging of glue spraying head 217, jet thrust 218, dry head 219 and feed pipe 212 Mouth moves downwardly to the inside of trouble-proof tire and between the upper and lower surface of trouble-proof tire, then starts driving motor 6, driving Motor 6 drives rotary components 222 to operate, and rotary components 222 drive glue spraying head 217, jet thrust 218, blowing head 219 and feed pipe 212 discharge port is rotatably inserted into the inside of trouble-proof tire, makes glue spraying mouth, puff prot 2182, air outlet 2191 and the equal court of discharge port To the inner wall of trouble-proof tire；Motor 5 is opened at this time, drives clamping turntable 14 and trouble-proof tire to rotate by transmission mechanism 15, Glue spraying mouth sprays glue to trouble-proof tire inner wall, and and then material inlet enters explosion-proof to trouble-proof tire delivered inside filler, filler Rotate together with trouble-proof tire after tire and by centrifugation force effect, got rid of on the inner wall of trouble-proof tire, filler be injected in Glue on trouble-proof tire inner wall contacts with each other and is gradually adhered on the inner wall of trouble-proof tire, since filler is by certain Gravity, can be moved downward before the glue solidifies, at this point, jet thrust 218 is to being attached to filling out on trouble-proof tire inner wall Object jet is filled, the air pressure of lower part is more than the air pressure on top, and generation thrust is poor up and down to filler for upper and lower draught head, makes lower part Filler is gradually moving upward, and can eliminate the phenomenon in uneven thickness of filler caused by gravity to a certain extent；Air guide Pipe 214 is blown to blowing 219 heat air delivery of head, hot wind towards the opposite direction in trouble-proof tire direction of rotation, hot gas and filler It is in contact and filler is dried.

Embodiment 2：Difference from Example 1 is that as shown in figure 21 and figure, it is pallet 146, clamping to lift structure Structure is the sleeve 147 being fixedly connected on above pallet 146, and trouble-proof tire is sleeved on when working inside sleeve 147, pallet 146 Upper surface is supported the lower surface of trouble-proof tire, the inner wall of sleeve 147 and the outer cylinder of anti-trouble-proof tire mutually abut with Limitation trouble-proof tire moves in the horizontal direction.When pallet 146 rotates, between sleeve 147 and the surface and trouble-proof tire of pallet 146 Frictional force drive trouble-proof tire rotate together.The upper end inner wall edge of sleeve 147 is equipped with chamfering 1471, can allow trouble-proof tire It is easier to be put into inside sleeve 147.

As shown in figure 22, be fixedly connected with plastic pad 148 on 147 inner wall of sleeve, for increase 147 inner wall of sleeve with it is explosion-proof Frictional force between tire outer cylinder makes sleeve 147 be easier to drive trouble-proof tire rotation.

As shown in figure 23, transmission mechanism 15 includes the driven gear 154 and and driven tooth being fixedly attached in shaft 16 154 driving gears 155 that are meshed of wheel, driving device can be motor 5, the output shaft of motor 5 be vertically arranged and with master Moving gear 155 is fixedly connected, and the pedestal of motor 5 is fixedly connected with bottom plate 11, and motor 5 passes through driving gear 155 when running Driven gear 154 and shaft 16 is driven to rotate.The diameter of driven gear 154 is more than the diameter of driving gear 155, driven gear 154 rotating speed is less than the rotating speed of driving gear 155, and the rotating speed of shaft 16 is less than the rotating speed of 5 output shaft of motor, can be to avoid turning 16 rotating speed of axis is excessive.

This specific embodiment is only the explanation to the utility model, is not limitations of the present invention, ability Field technique personnel can as needed make the present embodiment the modification of not creative contribution after reading this specification, but As long as all being protected by Patent Law in the right of the utility model.

Claims (6)

1. a kind of position reset mechanism of trouble-proof tire filling device, it is characterized in that：Including driving conduit assembly（21）On vertical The jack of lower movement（221）With drive conduit assembly（21）The rotary components of synchronous rotation（222）.

2. a kind of position reset mechanism of trouble-proof tire filling device according to claim 1, it is characterized in that：The folding and unfolding Mechanism（221）Including fixed plate（2211）With positioned at fixed plate（2211）Following movable plate（2212）, fixed plate（2211）On Face is fixedly connected with drives movable plate when flexible（2212）The extensible member to move up and down vertically；The conduit assembly（21）Including Glue spraying pipe for spraying from glue to trouble-proof tire inner wall（211）With for the feed pipe to trouble-proof tire delivered inside particle （212）, glue spraying pipe（211）And feed pipe（212）With movable plate（2212）It is fixedly connected.

3. a kind of position reset mechanism of trouble-proof tire filling device according to claim 2, it is characterized in that：The rotation Component（222）Including respectively with glue spraying pipe（211）And feed pipe（212）The driven coupled wheel being fixedly connected（2221）And activity Plate（2212）The active coupled wheel of rotation connection（2223）And it is wrapped in active coupled wheel（2223）With driven coupled wheel （2221）A circle linkage chain above（2224）, active coupled wheel（2223）With driving motor（6）Output shaft be fixedly connected.

4. a kind of position reset mechanism of trouble-proof tire filling device according to claim 2, it is characterized in that：It is described flexible Part is pneumatic cylinder（2213）, cylinder body and the fixed plate（2211）It is fixedly connected, piston rod and the movable plate（2212）It is fixed Connection.

5. a kind of position reset mechanism of trouble-proof tire filling device according to claim 4, it is characterized in that：The air pressure Cylinder（2213）Quantity be three or more.

6. a kind of position reset mechanism of trouble-proof tire filling device according to claim 1, it is characterized in that：The rotation Component（222）Outside is covered with case（2225）.