CN205132465U - Flip structure in tread automatic feeding device - Google Patents

Abstract

The utility model provides a flip structure in tread automatic feeding device. When it had been solved current tripe car and uses the tire shaping, it did not have flip structure, needed artifically to carry out the turn -over to it, and the turn -over degree of difficulty waits technical problem greatly. This flip structure in tread automatic feeding device, flip structure include braced frame and tread turn -over frame, and the tread turn -over was put up the rotation axis and is hinged on braced frame, and braced frame is close to the tread feed frame of all steel load meridian child make -up machine, and tread turn -over frame can drive its wobbling and drives actuating cylinder and be connected with one, still is fixed with the limiting plate that is used for preventing the tread landing on the tread turn -over puts up. The utility model has the advantages of the turn -over is quick.

Description

Overturn structure in tyre surface automatic charging device

Technical field

The utility model belongs to field of mechanical technique, relates to a kind of overturn structure, the overturn structure particularly in a kind of tyre surface automatic charging device.

Background technology

Tire is assemblied on wheel rim, is the connector between vehicle and road, runs and the circular ring type elastic body of landing for vehicle or aircraft.Now tyre surface in the art, after completing extrusion forming, for ensureing binding face viscosity etc., forming process requires to need binding face to be stored on the dividing plate of louvered carriage upward, like this tyre surface is moved in the process of next procedure from louvered carriage and also will overturn its top and bottom, moved by hand and upset are extremely hard job, also easily cause the horizontal and vertical distortion of tyre surface etc.

Through retrieval, as Chinese patent literature discloses a kind of louvered carriage [application number: 201420175844.5; Publication number: CN203793384U].This louvered carriage, comprise vehicle frame, blinds, torsion spring and a left side, right support plate, described vehicle frame comprises chassis, a described left side, right support plate is vertically arranged on the left and right sides of chassis face rear end, a described left side, a rotating outer tube is equipped with between right support plate, described blinds is fixedly connected on outer tube, it is characterized in that: described torsion spring is a square steel, one end of described square steel is fixed in outer tube by contiguous block, the other end of square steel stretches out from the outside of left support plate or right support plate and connects a ratchet, a described left side, the outside of right support plate is provided with the ratchet coordinated with ratchet, described ratchet is positioned at directly over ratchet or the oblique upper of close chassis front end side.

When disclosed in this patent, louvered carriage is applied to tire building, it does not have overturn structure, needs manually to carry out turn-over to it, and turn-over difficulty is large, and therefore, the overturn structure designed in a kind of tyre surface automatic charging device is necessary.

Summary of the invention

The purpose of this utility model there are the problems referred to above for existing technology, proposes the overturn structure in a kind of tyre surface automatic charging device, and this overturn structure has turn-over fast speed feature.

The purpose of this utility model realizes by following technical proposal: the overturn structure in tyre surface automatic charging device, it is characterized in that, overturn structure comprises support frame and tyre surface turn-over frame, tyre surface turn-over frame is on the support frame hinged by S. A., support frame is near the tyre surface feed frame of all steel load radial tyre forming machine, the driving cylinders that tyre surface turn-over frame and can drive it to swing connects, and tyre surface turn-over frame is also fixed with the positioning plate for preventing tyre surface landing.

Principle of work of the present utility model is as follows: when needs overturn tyre surface, tyre surface is placed on tyre surface turn-over frame, control to drive the piston rod of cylinder to stretch out, the piston rod of cylinder is driven to drive tyre surface turn-over frame to swing, thus can overturn tyre surface, and being sent on tyre surface feed frame, turn-over is easily and fast.

Described tyre surface turn-over frame one end is on the support frame hinged by S. A., the driving cylinders that the tyre surface turn-over frame other end and can drive it upwards to swing connects, the piston rod of cylinder is driven to tilt upward setting, drive the piston rod of cylinder to be connected with the tyre surface turn-over frame other end, drive the cylinder body of cylinder on the support frame hinged.

Adopt above structure, can fast by hinged for the other end of the piston rod end and tyre surface turn-over frame that drive cylinder.

Described tyre surface turn-over frame is also provided with some axis of rolling.

Adopt above structure, after tyre surface overturns, conveniently it can be outputted to required place from tyre surface turn-over frame, directional tagging is good.

Described positioning plate is vertically arranged.

Adopt above structure, effective location can be carried out to tyre surface by positioning plate, avoid occurring dropping in its upset, reliably spacing.

The piston rod of described driving cylinder and the angle of gravity direction are acute angle.

Adopt above structure, can conveniently drive cylinder to drive the other end of tyre surface turn-over frame to swing.

Compared with prior art, the overturn structure in this tyre surface automatic charging device has the following advantages:

1, be placed on by tyre surface in the utility model on tyre surface turn-over frame, by driving cylinder to drive tyre surface turn-over frame to swing, overturning, and can be placed on tyre surface feed frame, can substitute manual operation completely to tyre surface, turn-over fast, conveniently.

2, tyre surface turn-over frame is also provided with some axis of rolling, adopts this structure, after tyre surface overturns, conveniently it can be outputted to required place from tyre surface turn-over frame, directional tagging is good.

3, positioning plate is vertically arranged, and adopts this structure, can carry out effective location by positioning plate to tyre surface, avoids occurring dropping in its upset, reliably spacing.

Accompanying drawing explanation

Fig. 1 is the perspective view of this tyre surface automatic charging device.

Fig. 2 is the planar structure schematic diagram of this tyre surface automatic charging device.

Fig. 3 is the perspective view of location structure in this tyre surface automatic charging device.

Fig. 4 is the perspective view of this overturn structure.

Fig. 5 is the perspective view picking and placeing assembly in this tyre surface automatic charging device.

Fig. 6 is the planar structure schematic diagram of travel mechanism in this tyre surface automatic charging device.

Fig. 7 is the planar structure schematic diagram that this tyre surface automatic charging device removes part.

In figure, 1, framework; 2, sucker mounting rod; 2a, installation portion one; 2b, installation portion two; 3, crane; 4, movable stand; 5, cylinder is driven; 6, support frame; 7, tyre surface turn-over frame; 8, positioning guide rail one; 9, positioning guide rail two; 10, vacuum cup; 11, the 3rd guide rail; 12, the first motor; 13, the second motor; 14, pulley two; 15, pulley one; 16, positioning plate; 17, S. A.; 18, swing component; 19, locations; 20, dowel bolt; 21, track adjusting wheel; 22, the second gear; 23, belt conveyor; 24, the second adapter plate; 25, the first slide block; 26, the 3rd slide block; 27, the first gear; 28, the first adapter plate; 29, the first guide rail; 30, the first tooth bar; 31, the second slide block; 32, the second tooth bar; 33, the second guide rail.

Detailed description of the invention

Be below specific embodiment of the utility model and by reference to the accompanying drawings, the technical solution of the utility model is further described, but the utility model be not limited to these embodiments.

As shown in Figure 1, Figure 2, Figure 4 shows, overturn structure in this tyre surface automatic charging device, overturn structure comprises support frame 6 and tyre surface turn-over frame 7, tyre surface turn-over frame 7 is hinged on support frame 6 by S. A. 17, support frame 6 is near the tyre surface feed frame of all steel load radial tyre forming machine, the driving cylinder 5 that tyre surface turn-over frame 7 and can drive it to swing is connected, and tyre surface turn-over frame 7 is also fixed with the positioning plate 16 for preventing tyre surface landing; Tyre surface turn-over frame 7 one end is hinged on support frame 6 by S. A. 17, tyre surface turn-over frame 7 other end is connected with a driving cylinder 5 that it can be driven upwards to swing, the piston rod of cylinder 5 is driven to tilt upward setting, drive the piston rod of cylinder 5 to be connected with tyre surface turn-over frame 7 other end, drive the cylinder body of cylinder 5 to be hinged on support frame 6.

As Figure 1 and Figure 4, tyre surface turn-over frame 7 is also provided with some axis of rolling, in the present embodiment, the quantity of the axis of rolling is 30; Adopt this structure, after tyre surface overturns, conveniently it can be outputted to required place from tyre surface turn-over frame 7, directional tagging is good.

As shown in Figure 1, Figure 2, Figure 4 shows, positioning plate 16 is vertically arranged, and the quantity of positioning plate 16 is three pieces; Adopt this structure, effective location can be carried out to tyre surface by positioning plate 16, avoid occurring dropping in its upset, reliably spacing.

As shown in Figure 1, Figure 2, Figure 4 shows, the piston rod of cylinder 5 and the angle of gravity direction is driven to be acute angle; Adopt this structure, cylinder can be facilitated to drive the other end of tyre surface turn-over frame 7 to swing.

As shown in Figure 1 and Figure 2, this tyre surface automatic charging device also comprises framework 1, the tyre surface feed frame of all steel load radial tyre forming machine is in the below of framework 1, be provided with below framework 1 and pick and place assembly for what pick and place tyre surface, picking and placeing assembly and can drive the lifting structure of its oscilaltion to be connected, and lifting structure and can drive the travel mechanism of its parallel motion to be connected.

As shown in Figure 1, Figure 2, Figure 3, Figure 4, be also provided with the location structure that can be used for directing treads louvered carriage below framework 1, overturn structure is between location structure and the tyre surface feed frame of all steel load radial tyre forming machine; Adopt this structure, can fast tyre surface louvered carriage is positioned at below framework 1 by location structure; By lifting structure, travel mechanism and the action that picks and places assembly, tyre surface is put on overturn structure.

As shown in Figure 1, Figure 2, Figure 5, pick and place assembly and comprise some vacuum cups 10 and sucker mounting rod 2, in the present embodiment, the quantity of vacuum cup 10 is 12; Sucker mounting rod 2 top is connected with lifting structure, and some vacuum cups 10 are arranged on sucker mounting rod 2 bottom, and some vacuum cups 10 and can make its vacuum vacuum generating device be connected; Sucker mounting rod 2 comprises installation portion one 2a and is hinged on installation portion two 2b of installation portion one 2a end, and the quantity of installation portion two 2b is two, and it is hinged on the two ends of installation portion one 2a respectively; Installation portion one 2a is provided with the swing component 18 that installation portion two 2b can be driven to swing along its hinged place; Adopt this structure, installation portion two 2b can be driven to swing by swing component 18, the better and tyre surface laminating of the sucker at installation portion two 2b place can be made, draw stable, reliably.

As shown in Figure 1, shown in Figure 5, swing component 18 is cylinder, and the cylinder body of cylinder is hinged on installation portion one 2a, and piston rod and installation portion two 2b of cylinder are hinged, and adopt this structure, can be realized the swing of installation portion two 2b by cylinder action; Certainly, also can adopt this kind of embodiment, swing component 18 is push-rod electric machine, and push-rod electric machine is hinged on installation portion one 2a, and push rod and installation portion two 2b of push-rod electric machine are hinged, and adopt this structure, can be realized the swing of installation portion two 2b by push-rod electric machine action.

As Fig. 1, shown in Fig. 5, vacuum cup 10 is arranged on sucker mounting rod 2 by a detachable mechanism, detachable mechanism comprises locations 19 and dowel bolt 20, locations 19 is set on sucker mounting rod 2, locations 19 side has tapped bore, dowel bolt 20 is located in tapped bore, the end of dowel bolt 20 can be resisted against on sucker mounting rod 2, vacuum cup 10 is fixed on locations 19, the mode that vacuum cup 10 is bolted is fixed on locations 19, adopt this structure, by rotational positioning bolt 20, by locations 19 parallel motion, locations 19 drives vacuum cup 10 to move, can be used for the tyre surface drawing different length, highly versatile.

Vacuum generating device comprises vacuum and dress device, connection pipe, controller and electromagnetic valve occurs, and the empty dress device that occurs adopts the existing product that market can have been bought; Connection pipe one end is connected with vacuum cup 10, and the connection pipe other end and vacuum occur to fill device and be connected, and electromagnetic valve is arranged on connection pipe, and electromagnetic valve and vacuum dress device are occurred and be all connected with this controller by circuit.

Certainly, also can adopt this kind of scheme according to actual conditions, pick and place assembly and comprise some suckers and sucker mounting rod 2, in the present embodiment, the quantity of sucker is 12; Sucker mounting rod 2 top is connected with lifting structure, some suckers are arranged on sucker mounting rod 2 bottom, sucker is provided with tracheae, tracheae one end is connected with sucker, and the tracheae other end can be connected with the external world, is provided with electromagnetic valve in tracheae, when sucker contacts with tyre surface, by electromagnetic valve, tracheae is connected with the external world, the air in sucker is discharged from tracheae, makes its inner generation vacuum state; When tyre surface puts down by needs, by electromagnetic valve, tracheae is connected with the external world, outside air can enter suction cup interior, and tyre surface, under self gravitation effect, can be separated from sucker.

As Fig. 1, Fig. 2, shown in Fig. 7, lifting structure comprises crane 3, first adapter plate 28, first tooth bar 30, second tooth bar 32, first guide rail 29, second guide rail 33, first slide block 25, second slide block 31, first gear 27 and the first motor 12, first adapter plate 28 and crane 3 are successively set in travel mechanism, and the first adapter plate 28 is between crane 3 and travel mechanism, first guide rail 29 is vertically arranged on crane 3 side, first slide block 25 is arranged on the first guide rail 29, first slide block 25 and the first adapter plate 28 side fix, second guide rail 33 is arranged in travel mechanism, second slide block 31 is arranged on the second guide rail 33, second slide block 31 and the first adapter plate 28 opposite side fix, sucker mounting rod 2 and crane 3 opposite side fix, first tooth bar 30 is vertically arranged on crane 3, second tooth bar 32 is vertically arranged in travel mechanism, first motor 12 is fixed on the first adapter plate 28, the output shaft of the first motor 12 is horizontally disposed with, first gear 27 is fixed on the output shaft of the first motor 12, first gear 27 is arranged between the first tooth bar 30 and the second tooth bar 32, and the first gear 27 is meshed with the first tooth bar 30 and the second tooth bar 32 simultaneously, adopt this structure, by the reverse movement of the first tooth bar 30 and the second tooth bar 32, the stroke of crane 3 can be made to be the twice of the first tooth bar 30 length.

Certainly, also this kind of scheme can be adopted according to actual conditions, lifting structure comprises the first tooth bar 30, first gear 27, first motor 12, first guide rail 29 and the first slide block 25, first guide rail 29 is arranged in travel mechanism, first guide rail 29 is arranged along gravity direction, first slide block 25 is arranged in the first guide rail 29, and the first slide block 25 can along the first guide rail 29 oscilaltion; Sucker mounting rod 2 is fixed on the first slide block 25, and the mode that sucker mounting rod 2 is bolted is fixed on the first slide block 25; First tooth bar 30 is fixed on the first slide block 25, and the mode that the first tooth bar 30 is bolted is fixed on the first slide block 25; First motor 12 is arranged in travel mechanism, and the first gear 27 is fixed on the output shaft of the first motor 12, and the first gear 27 is fixed on the output shaft of the first motor 12 by the mode that key connects; And the first gear 27 is meshed with the first tooth bar 30

As shown in Figure 1 and Figure 2, what crane 3 lower end had an outwards bending hides portion, and sucker mounting rod 2 is arranged on to be hidden in portion; Adopt this structure, can avoid in crane 3 parallel motion and support frame 6 generation interference.

As Fig. 1, Fig. 2, Fig. 6, shown in Fig. 7, travel mechanism comprises movable stand 4, belt conveyor 23, second gear 22, second motor 13, 3rd guide rail 11 and the 3rd slide block 26, 3rd guide rail 11 is horizontally set on framework 1, 3rd slide block 26 is arranged on the 3rd guide rail 11, movable stand 4 is fixed on the 3rd slide block 26, second motor 13 is fixed on movable stand 4 side by the second adapter plate 24, the output shaft of the second motor 13 is horizontally disposed with, second gear 22 is fixed on the output shaft of the second motor 13, and the second gear 22 is meshed with belt conveyor 23, second tooth bar 32 and the second guide rail 33 are all fixed on movable stand 4 opposite side, in the present embodiment, the second adapter plate 24 also has track adjusting wheel 21, the quantity of track adjusting wheel 21 is two, and belt conveyor 23 adopts Timing Belt.

Certainly, also this kind of scheme can be adopted according to actual conditions, travel mechanism comprises the second tooth bar 32, second gear 22, second motor 13, second guide rail 33 and the second slide block 31, second guide rail 33 is fixed on framework 1, and the mode that the second guide rail 33 is bolted is fixed on framework 1; Second guide rail 33 arranged direction and gravity direction perpendicular, the second slide block 31 is arranged on the second guide rail 33, and the second slide block 31 can along the second guide rail 33 parallel motion; Second tooth bar 32 is fixed on framework 1, and the mode that the second tooth bar 32 is bolted is fixed on framework 1, and the second guide rail 33 and the second tooth bar 32 are parallel to each other; Second motor 13 is fixed on the second slide block 31, and the mode that the second motor 13 is bolted is fixed on the second slide block 31; Second gear 22 is fixed on the output shaft of the second motor 13, and the second gear 22 is fixed on the output shaft of the second motor 13 by the mode that key connects; And the second gear 22 is meshed with the second tooth bar 32, the first guide rail 29 is arranged on the second slide block 31, and the first motor 12 is arranged on the second slide block 31.

The protection zone of protection operator is provided with between location structure and overturn structure; After personnel enter this region, region inner sensor sends signal to controller, after controller receives signal, sends instruction and controls the first motor 12 and the second motor 13, stop any motion, reaches protection operator object; Safety zone signal takes out to be had with under type: laser region scanner; Safe light curtain; Correlation photoelectric switch; Press line; Thereunder fill the safety tread of common proximity switch.

Can set protection zone by laser region scanner, when people is in this protection zone, laser region scanner is by signal transmission to controller, and controller controls the first motor 12 and the second motor 13 quits work, and can guarantee personal safety, safety is high; Laser region scanner and one can drive its regulating mechanism moved up and down to be connected, regulating mechanism comprises adapter plate, guide rail, slide block and electric pushrod, guide rail is vertically arranged on framework 1, slide block is arranged in guide rail, adapter plate is fixed on slide block, laser region scanner is fixing on a mounting board, and electric pushrod is fixed on framework 1, and the push rod of electric pushrod is connected with slide block; Adopt this structure, the height of adjustable laser region scanner work; Safety tread is the pedal be laid in secured area, has sensor below pedal; Press line adopts the existing product that market can have been bought; Correlation photoelectric switch adopts the existing product that market can have been bought, and have emission part and acceptance division, it is protection zone between the two.

As shown in Figure 1, Figure 2, Figure 3 shows, location structure comprises positioning guide rail 1 and positioning guide rail 29, and positioning guide rail 1 and positioning guide rail 29 be arranged in parallel, positioning guide rail 1 is provided with some pulleys 1, and in the present embodiment, the quantity of pulley 1 is ten; Positioning guide rail 29 is provided with some pulleys 2 14, in the present embodiment, the quantity of pulley 2 14 is ten; The two ends of positioning guide rail 1 all have outward extending guide part one, and the two ends of positioning guide rail 29 all have outward extending guide part two; Adopt this structure, by the directional tagging of pulley 1 and pulley 2 14, tyre surface louvered carriage can be made to enter into smoothly between positioning guide rail 1 and positioning guide rail 29, and directional tagging is good.

Crane 3 is also provided with laser displacement sensor, sucker mounting rod 2 is provided with displacement pickup, laser displacement sensor and displacement pickup are all connected with this controller by circuit; Adopt this structure, can the position of quick obtaining vacuum cup 10 by laser displacement sensor and displacement pickup, to detect accurately, reliable; First motor 12 and the second motor 13 are band-type brake servomotor; Adopt which, under the abnormal condition such as power-off, can guarantee that sucker mounting rod 2 can not move by opposing frame 1, location is reliable, convenient.

Principle of work of the present utility model is as follows: when on the tyre surface feed frame needing the tyre surface on tyre surface louvered carriage to be transported to all steel load radial tyre forming machine, by the directional tagging of pulley 1 and pulley 2 14, tyre surface louvered carriage can enter between positioning guide rail 1 and positioning guide rail 29 smoothly, it is made to be in below framework 1, manually dig blinds, it is made to expose tyre surface, control the output shaft rotation of the second motor 13, the output shaft of the second motor 13 drives the second gear 22 to rotate, second gear 22 and belt conveyor 23 engage each other and make movable stand 4 parallel motion, movable stand 4 drives sucker mounting rod 2 parallel motion, sucker mounting rod 2 drives vacuum cup 10 parallel motion, control the output shaft rotation of the first motor 12, the output shaft of the first motor 12 drives the first gear 27 to rotate, first gear 27 is meshed with the first tooth bar 30 and the second tooth bar 32 simultaneously, first tooth bar 30 and the second tooth bar 32 is close to each other or away from, make crane 3 oscilaltion, crane 3 drives sucker mounting rod 2 oscilaltion, and sucker mounting rod 2 drives vacuum cup 10 oscilaltion, and vacuum cup 10 contacts with tyre surface, control vacuum generating device is started working, and makes vacuum cup 10 inside for vacuum state, by the suction of vacuum cup 10, draws the tyre surface of tyre surface louvered carriage, control the output shaft rotation of the first motor 12, the output shaft of the first motor 12 drives the first gear 27 to rotate, first gear 27 is meshed with the first tooth bar 30 and the second tooth bar 32 simultaneously, first tooth bar 30 and the second tooth bar 32 is close to each other or away from, make crane 3 oscilaltion, crane 3 drives sucker mounting rod 2 oscilaltion, and sucker mounting rod 2 drives vacuum cup 10 oscilaltion, control the output shaft rotation of the second motor 13, the output shaft of the second motor 13 drives the second gear 22 to rotate, second gear 22 and belt conveyor 23 engage each other and make movable stand 4 parallel motion, and movable stand 4 drives sucker mounting rod 2 parallel motion, and sucker mounting rod 2 drives vacuum cup 10 parallel motion, control vacuum generating device quits work, and makes vacuum cup 10 inside for non-vacuum, under the effect of tyre surface self gravitation, is placed on by tyre surface on tyre surface feed frame, substitutes and be manually put on tyre surface feed frame by tyre surface from louvered carriage, when needs overturn tyre surface, by vacuum cup 10, tyre surface is placed on tyre surface turn-over frame 7, controls to drive the piston rod of cylinder 5 to stretch out, drive the piston rod of cylinder 5 to drive the other end of tyre surface turn-over frame 7 to swing, tyre surface is overturn, and is sent on tyre surface feed frame.

Specific embodiment described herein is only to the explanation for example of the utility model spirit.The utility model person of ordinary skill in the field can make various amendment or supplements or adopt similar mode to substitute to described specific embodiment, but can't depart from spirit of the present utility model or surmount the scope that appended claims defines.

Claims (5)

1. the overturn structure in tyre surface automatic charging device, it is characterized in that, overturn structure comprises support frame and tyre surface turn-over frame, tyre surface turn-over frame is on the support frame hinged by S. A., support frame is near the tyre surface feed frame of all steel load radial tyre forming machine, the driving cylinders that tyre surface turn-over frame and can drive it to swing connects, and tyre surface turn-over frame is also fixed with the positioning plate for preventing tyre surface landing.

2. the overturn structure in tyre surface automatic charging device according to claim 1, it is characterized in that, described tyre surface turn-over frame one end is on the support frame hinged by S. A., the driving cylinders that the tyre surface turn-over frame other end and can drive it upwards to swing connects, the piston rod of cylinder is driven to tilt upward setting, drive the piston rod of cylinder to be connected with the tyre surface turn-over frame other end, drive the cylinder body of cylinder on the support frame hinged.

3. the overturn structure in tyre surface automatic charging device according to claim 2, is characterized in that, described tyre surface turn-over frame is also provided with some axis of rolling.

4. the overturn structure in tyre surface automatic charging device according to claim 2, it is characterized in that, described positioning plate is vertically arranged.

5. the overturn structure in tyre surface automatic charging device according to claim 2, is characterized in that, the piston rod of described driving cylinder and the angle of gravity direction are acute angle.