CN2573205Y

CN2573205Y - Tread taking-out device for tread extrusion production line

Info

Publication number: CN2573205Y
Application number: CN 02276461
Authority: CN
Inventors: 方常跃; 陆阿忠; 周述跳; 汤毅; 汤军; 张忠明; 吴诗清; 江永富
Original assignee: Shanghai Tire Rubber (group) Ltd By Share Ltd Shuangqian Lorry Tire Co; Guilin Rubber Machinery Factory
Current assignee: Shanghai Tire Rubber (group) Ltd By Share Ltd Shuangqian Lorry Tire Co; Guilin Rubber Machinery Factory
Priority date: 2002-09-10
Filing date: 2002-09-10
Publication date: 2003-09-17
Anticipated expiration: 2012-09-10

Abstract

The utility model relates to a tread taking out device for a tread extrusion production line, which is composed of a tread lifting part, an overturning rack, a middle moving platform and a releasing part. When a fast conveyed tread reaches an arranged position, a tread is lifted and picked up by the tread lifting part and is disengaged from a raceway surface. The tread is absorbed by the overturning rack, is overturned by 180 DEG and is released on the middle moving platform. When the middle moving platform moves to an adsorbing and releasing part, the tread is absorbed upwards, is lifted and drops down to needed height, horizontally moves to a needed position and is released on the specified position of a leaf truck. The utility model has the advantages that all actuating mechanisms adopt pneumatic elements and the actuating mechanisms are suitable for reciprocation repeated motion which is fast, stable and reliable; the tread has homogeneous stress without deformation in the processes of overturn and movement in order to ensure tread quality. The tread taking out device for a tread extrusion production line has the advantages of operation automatic control, high efficiency and stable tread quality. A PLC and a servo control unit are adopted for forming the control core of the utility model in order to arrange relevant technological parameters. The working condition of a storage device and probably generated fault information are displayed by a touch screen which has convenient utilization and repair.

Description

The tyre surface withdrawing device of tyre surface extruding production line

(1) technical field

The utility model relates to the tyre surface withdrawing device of tire tread extruding production line.

(2) technical background

Extrude in the production process at present tire tread, the production line of tire tread end is the withdrawing device of the tyre surface of production line of tire tread.This device disposes the swing span of an air cylinder driven, its general working condition is: when qualified tyre surface arrives this device desired location of taking-up, angle of swing span rotation holds up tyre surface, tyre surface skids off production line of tire tread along the swing span inclined plane, by two workmans turnback is picked up, turned over to tyre surface then, lie on the louver car that stores tyre surface.Two tangible problems are wherein arranged: 1, the production line of tire tread speed of production generally is 3～5 tyre surfaces of per minute, that is to say, manually the continuous action per minute of tyre surface being picked up, overturn, being placed on the louver car repeats 3～5 times, and labour intensity is very big.2, manually tyre surface is being picked up, overturns, is being placed on the louver car in this course of action, because tyre surface is only stressed at hand-held two ends, discontinuity is difficult to the shape that remains unchanged, and causes the tyre surface percent defective to rise.

(3) utility model content

The purpose of this utility model provides a kind of tyre surface withdrawing device of new production line of tire tread, this tyre surface withdrawing device automatically will qualified tyre surface steadily, equably with tyre surface from the production line of tire tread taking-up, turn over turnback, be placed on the assigned address of designated layer of louver car.Both the workman can be freed from repeat onerous toil, can guarantee again tyre surface pick up, in the upset, put procedure stressed evenly, Deformation control is in tolerance band.

This new tyre surface withdrawing device comprises the driving cylinder, also comprises tyre surface lift portion, rollover stand, middle mobile platform and four parts of release portion.

1. the tyre surface lift portion comprises pedestal, promotes cylinder, lifting arm.When the tyre surface of quick conveying arrives desired location, the disengaging roller surface is picked up in the tyre surface lifting, make the tyre surface stop motion.

2. rollover stand comprises oscillating cylinder, swing arm, the vaccum-suction attachement pad of 180 degree, and a plurality of vacuum suction rim tread direction is arranged.The tyre surface of picking up is picked up by vaccum-suction attachement pad, and swing arm turns over turnback under the driving of oscillating cylinder, and the top and bottom that make tyre surface are just in time with opposite when carrying roller surface fast.Then, vaccum-suction attachement pad discharges tyre surface and places on the middle mobile platform.

3. mobile platform comprises cylinder, straight-line motion mechanism, pan carriage in the middle of.The tyre surface that vaccum-suction attachement pad is discharged moves to the absorption release portion.

4. adsorb release portion and comprise bracing frame, vertical-lift mechanism, horizontal mobile mechanism, vacuum cup, a plurality of vacuum cups are arranged along tread direction, the tyre surface that middle mobile platform is sent here picks up, promote/drop to desired height, move to desired location then, vacuum cup is discharged into tyre surface the assigned address of louver car.

The utility model has following remarkable advantage:

1. all executing agencies all adopt pneumatic element, are specially adapted to reciprocal repetitive operation, and the action quick and stable is reliable, and time action cycle is short, can be satisfied with the rate request of production line.

2. vacuum cup is arranged even, reasonable quantity, and vacuum cup all is connected on the same vacuum generator, so the vacuum unanimity, and like this, tyre surface is in upset, moving process, and is stressed even, can not produce distortion, guaranteed the tyre surface quality.

3. this device control operation automatically frees the workman from repeat onerous toil, while efficient height, tyre surface steady quality.

4. can adopt PLC and servo control unit to form this machine control core, adopt touch-screen as man-machine interface simultaneously, the user can set the related process parameter on touch-screen.For example: the louver car number of plies, wide, the individual layer of layer are placed the tyre surface number, are placed the position etc. of tyre surface first, simultaneously, can show memory device duty and the fault message that might produce on touch-screen, and the user uses, easy to maintenance.

(4) description of drawings

Fig. 1 is the overall structure side view of the utility model tyre surface withdrawing device;

Fig. 2 is that the tyre surface of the utility model tyre surface withdrawing device is mentioned the part front view;

Fig. 3 is that the tyre surface of the utility model tyre surface withdrawing device is mentioned the part side view;

Fig. 4 is that the tyre surface of the utility model tyre surface withdrawing device is mentioned the part vertical view;

Fig. 5 is the rollover stand front view of the utility model tyre surface withdrawing device;

Fig. 6 is the rollover stand side view of the utility model tyre surface withdrawing device;

Fig. 7 is the release portion front view of the utility model tyre surface withdrawing device;

Fig. 8 is the release portion side view of the utility model tyre surface withdrawing device;

Fig. 9 is the release portion vertical view of the utility model tyre surface withdrawing device.

(5) specific embodiment

As shown in Figure 1, the tyre surface withdrawing device of tyre surface extruding production line of the present utility model comprises the driving cylinder, also comprises by tyre surface lift portion, rollover stand, middle mobile platform and four parts of release portion.

As shown in Figure 1, Figure 2, Figure 3 and Figure 4, the tyre surface lift portion comprises pedestal 1, promotes cylinder 2, lifting arm 3.The tyre surface lifting device is installed in tyre surface carriage 18 sides.Pedestal 1 is the framework that column and crossbeam constitute.Promote crossbeam 21 and link to each other with pedestal 1 by straight-line motion mechanism 20, it is parallel with tyre surface 16 to promote crossbeam 21, promotes crossbeam 21 length and is equal to or greater than maximum tread 16 length.Promote on the crossbeam 21 and install 15～20 identical lifting arms 3 that are parallel to each other, be distributed on the whole length that promotes crossbeam 21.Lifting arm 3 is " L " shape, and the upper end of its vertical part is packed in and promotes on the crossbeam 21, and vertically part is vertical with lifting crossbeam 21, and many lifting arms 3 are parallel to each other.The horizontal component length of lifting arm 3 is equal to or slightly greater than the width of maximum tread 16.The plane that the horizontal component of many lifting arms 3 constitutes is parallel with the roller surface that tyre surface conveying roller 19 constitutes.Promoting cylinder 2 is promoting between crossbeam 21 and the pedestal 1.When lifting cylinder 2 was not started working, lifting arm 3 horizontal components were lower than the roller surface that tyre surface conveying roller 19 constitutes.When tyre surface 16 was transported to desired location by tyre surface conveying roller 19, optoelectronic switch sent signal and gives PLC, after PLC obtains signal, sent and promoted the tyre surface instruction.Promote cylinder 2 and upwards mention and promote crossbeam 21 and lifting arm 3, the direction of motion that promotes crossbeam 21 and lifting arm 3 is that the unit 20 that moves along a straight line moves both vertically up and down.Move upward its horizontal component of lifting arm 3 holds up tyre surface 16, makes it to break away from tyre surface conveying roller 19, and the tyre surface 16 of former high-speed motion enters relative static conditions, and the vaccum-suction attachement pad 6 of being convenient to rollover stand adsorbs.After tyre surface 16 is taken away in rollover stand absorption, promote cylinder 2 reverse operations and make lifting crossbeam 21 and lifting arm 3 repositions.

As Fig. 1, Fig. 5, shown in Figure 6, rollover stand comprises oscillating cylinder 4, swing arm 23, vaccum-suction attachement pad 6.Swing arm 23 is parallel with lifting crossbeam 21, and its two ends are fixed on the tyre surface conveying roller frame of this device by rolling bearing 22.Swing arm 23 length are equal to or greater than maximum tread 16 length.The output shaft range of movement of oscillating cylinder 4 is that 180 degree move back and forth, and is packed in an end of swing arm 23.15～20 support arms that are parallel to each other 5 are housed on the swing arm 23, are distributed on the whole length of swing arm 23.1～3 vaccum-suction attachement pad 6 is installed on each support arm 5.When oscillating cylinder 4 was not started working, the plane that the vaccum-suction attachement pad 6 of rollover stand constitutes was positioned under the plane of many lifting arms 3 horizontal components formation, promptly is positioned under the tyre surface 16 that arrives desired location.After tyre surface 16 is raised bar 3 picking-ups, oscillating cylinder 4 actions, swing arm 23 upwards rotates, tyre surface 16 is held by vaccum-suction attachement pad 6, swing arm 23 drives support arm 5 and turns over turnback together under the driving of oscillating cylinder 4, and the top and bottom that make tyre surface 16 are just in time with opposite when carrying roller surface.Then, vaccum-suction attachement pad 6 discharges tyre surface 16 on the pan carriage 15 that places middle mobile platform.After vaccum-suction attachement pad 6 discharged tyre surface 16, oscillating cylinder 4 reverse operations made swing arm 23 and support arm 5 upset repositions.

As shown in Figure 1, middle mobile platform comprises cylinder 17, straight-line motion mechanism 14, pan carriage 15.Straight-line motion mechanism 14 has two parallel tracks, and the leg of pan carriage 15 is packed on the bearing block of this track.When rollover stand was turned to pan carriage 15 1 sides, pan carriage 15 was in vaccum-suction attachement pad 6 belows of support arm 5.Cylinder 17 is positioned at an end of straight-line motion mechanism 14 tracks, drives pan carriage 15 and moves back and forth along track.After the vaccum-suction attachement pad 6 of rollover stand was released in tyre surface 16 on the pan carriage 15, cylinder 17 work drove pan carriage 15 and move to track other end release portion place.After vacuum cup 13 on the release portion picked up tyre surface 16, pan carriage 15 translation again turned back to a end by rollover stand, prepares to connect next bar tyre surface.Secondary linear bearing mechanism, the motion quick and stable of adopting of translational motion.

As Fig. 1, Fig. 7, Fig. 8 and shown in Figure 9, the absorption release portion comprises bracing frame 10, vertical-lift mechanism 12, horizontal mobile mechanism 8, vacuum cup 13.Bracing frame 10 is positioned at the other end of pan carriage 15 tracks.Bracing frame 10 top has the upper end with the vertical track of three horizontal rail parallel track, horizontal mobile mechanism 8,9, the 2 cover vertical-lift mechanisms 12 of pan carriage 15 to be packed in respectively on the linear axis bearing 27 of left and right sides track 9 of horizontal mobile mechanism 8.A Rodless cylinder 24, a displacement transducer are arranged on the horizontal rail 9 in the middle of the horizontal mobile mechanism 8.Connecting rod 25 is vertical with horizontal rail 9, its two ends respectively with bearing block 27 Joints on left and right horizontal track 9, Rodless cylinder 24 Joints on its middle part and the by-level track 9.Rodless cylinder 24 action of horizontal mobile mechanism 8, the bearing block 27 that connecting rod 25 is driven on the left and right horizontal tracks 9 moves forward and backward along horizontal rail, and 2 overlap vertical-lift mechanisms 12 promptly does horizontal movement on the horizontal rail direction.Displacement transducer detects and feedback level displacement signal.There is a Rodless cylinder 7 in every cover vertical-lift mechanism 12, and wherein a cover vertical-lift mechanism 12 is furnished with a displacement transducer, detects and feedback vertical displacement amount signal.Absorption release lever 26 is parallel with connecting rod 25, is positioned at connecting rod 25 belows, the two ends, the left and right sides of adsorbing release lever 26 respectively with the vertical track of vertical-lift mechanism 12 on bearing block affixed.15～20 vacuum cups 13 are distributed on the absorption release lever 26 whole length.Rodless cylinder 7 work of vertical-lift mechanism 12, the bearing block that drives on the vertical track moves up and down, thereby makes 26 upper and lower displacements of absorption release lever.Before release portion is started working, absorption release lever 26 is positioned at pan carriage 15 upper mounting plates top, the tyre surface 16 that its vacuum cup 13 is sent the pan carriage 15 of middle mobile platform here picks up, motion by control horizontal mobile mechanism 8 and vertical-lift mechanism 12, tyre surface 16 is promoted/drops to desired height, move to desired location then, vacuum cup group 13 is discharged into tyre surface arbitrary assigned address of the louver car 11 that is positioned under the bracing frame 10.Vertical-lift mechanism 12 and horizontal mobile mechanism 8 are the linear servo structure of driving unit, and their motion is controlled by displacement transducer, and its control position degree of accuracy is ± 0.5mm.

This machine can adopt PLC and servo control unit to form the control core, is connected with the displacement transducer at each position, can set the related process parameter, and for example: the louver car number of plies, layer are wide, individual layer is placed the tyre surface number, place the position of tyre surface etc. first.Adopt touch-screen as man-machine interface, the user can be at the touch-screen setup parameter, and touch-screen also shows memory device duty and the fault message that might produce, user's use, easy to maintenance.

Claims

The tyre surface withdrawing device of 1 one kinds of tyre surface extruding production lines comprises the driving cylinder, it is characterized by: also comprise tyre surface lift portion, rollover stand, middle mobile platform and four parts of release portion;

The tyre surface lift portion comprises pedestal (1), promotes cylinder (2), lifting arm (3);

Rollover stand comprises oscillating cylinder (4), swing arm (5), vaccum-suction attachement pad (6), and a plurality of vaccum-suction attachement pads (6) are arranged along tread direction;

Middle mobile platform comprises cylinder (17), straight-line motion mechanism (14), pan carriage (15);

The absorption release portion comprises bracing frame (10), vertical-lift mechanism (12), horizontal mobile mechanism (8), vacuum cup (13), and a plurality of vacuum cups (13) are arranged along tread direction.
The tyre surface withdrawing device of 2 tyre surface extruding production lines according to claim 1 is characterized by:

Described tyre surface lifting device is installed in tyre surface carriage (18) side; Pedestal (1) is the framework that column and crossbeam constitute, and promotes crossbeam (21) and links to each other with pedestal (1) by straight-line motion mechanism (20), and it is parallel with tyre surface (16) to promote crossbeam (21), promotes crossbeam (21) length and is equal to or greater than maximum tread (16) length; Promote on the crossbeam (21) and install 15～20 identical lifting arms (3) that are parallel to each other, be distributed on the whole length that promotes crossbeam (21); Lifting arm (3) is " L " shape, it vertically is packed on the lifting crossbeam (21) upper end of part, vertically part is vertical with lifting crossbeam (21), many lifting arms (3) are parallel to each other, the horizontal component length of lifting arm (3) is equal to or slightly greater than the width of maximum tread (16), and the plane that the horizontal component of many lifting arms (3) constitutes is parallel with the roller surface that tyre surface conveying roller (19) constitutes; Promote cylinder (2) and be positioned between lifting crossbeam (21) and the pedestal (1), promote cylinder (2) when not starting working, lifting arm (3) horizontal component is lower than the roller surface that tyre surface conveying roller (19) constitutes.
The tyre surface withdrawing device of 3 tyre surface extruding production lines according to claim 1 and 2 is characterized by:

The swing arm of described rollover stand (23) is parallel with lifting crossbeam (21), and its two ends are fixed on by rolling bearing (22) on the tyre surface conveying roller frame of this device, and swing arm (23) length is equal to or greater than maximum tread (16) length; The output shaft range of movement of oscillating cylinder (4) is that 180 degree move back and forth, and is packed in an end of swing arm (23); 15～20 support arms that are parallel to each other (5) are housed on the swing arm (23), are distributed on the whole length of swing arm (23); 1～3 vaccum-suction attachement pad (6) is installed on each support arm (5).Oscillating cylinder (4) is not when starting working, and the plane that the vaccum-suction attachement pad of rollover stand (6) constitutes is positioned under the plane of many lifting arms (3) horizontal component formation, promptly is positioned under the tyre surface (16) that arrives desired location.
The tyre surface withdrawing device of 4 tyre surface extruding production lines according to claim 1 and 2 is characterized by:

The straight-line motion mechanism (14) of mobile platform has two parallel tracks in the middle of described, and the leg of pan carriage (15) is packed on the bearing block of this track; When rollover stand was turned to pan carriage (15) one sides, pan carriage (15) was in vaccum-suction attachement pad (6) below of support arm (23); Cylinder (17) is positioned at an end of straight-line motion mechanism (14) track, drives pan carriage (15) and moves back and forth along track.
The tyre surface withdrawing device of 5 tyre surface extruding production lines according to claim 3 is characterized by:

The straight-line motion mechanism (14) of mobile platform has two parallel tracks in the middle of described, and the leg of pan carriage (15) is packed on the bearing block of this track; When rollover stand was turned to pan carriage (15) one sides, pan carriage (15) was in vaccum-suction attachement pad (6) below of support arm (23); Cylinder (17) is positioned at an end of straight-line motion mechanism (14) track, drives pan carriage (15) and moves back and forth along track.
The tyre surface withdrawing device of 6 tyre surface extruding production lines according to claim 1 and 2 is characterized by:

The bracing frame of described absorption release portion (10) is positioned at the other end of pan carriage (15) track, there are three horizontal rail (9) parallel track, horizontal mobile mechanism (8) with pan carriage (15) on bracing frame (10) top, and the upper ends of the vertical track of 2 cover vertical-lift mechanisms (12) are packed in respectively on the linear axis bearing (27) of left and right sides track (9) of horizontal mobile mechanism (8); On the horizontal rail (9) in the middle of the horizontal mobile mechanism (8) Rodless cylinder (24), a displacement transducer are arranged.Connecting rod (25) is vertical with horizontal rail (9), its two ends respectively with bearing block (27) Joint on left and right horizontal track (9), Rodless cylinder (24) Joint on its middle part and the by-level track (9); There is a Rodless cylinder (7) in every cover vertical-lift mechanism (12), and wherein a cover vertical-lift mechanism (12) is furnished with a displacement transducer; Absorption release lever (26) is parallel with connecting rod (25), is positioned at connecting rod (25) below, the two ends, the left and right sides of adsorbing release lever (26) respectively with the vertical track of vertical-lift mechanism (12) on bearing block affixed; 15～20 vacuum cups (13) are distributed on the whole length of absorption release lever (26).
The tyre surface withdrawing device of 7 tyre surface extruding production lines according to claim 3 is characterized by:

The bracing frame of described absorption release portion (10) is positioned at the other end of pan carriage (15) track, there are three horizontal rail (9) parallel track, horizontal mobile mechanism (8) with pan carriage (15) on bracing frame (10) top, and the upper ends of the vertical track of 2 cover vertical-lift mechanisms (12) are packed in respectively on the linear axis bearing (27) of left and right sides track (9) of horizontal mobile mechanism (8); On the horizontal rail (9) in the middle of the horizontal mobile mechanism (8) Rodless cylinder (24), a displacement transducer are arranged.Connecting rod (25) is vertical with horizontal rail (9), its two ends respectively with bearing block (27) Joint on left and right horizontal track (9), Rodless cylinder (24) Joint on its middle part and the by-level track (9); There is a Rodless cylinder (7) in every cover vertical-lift mechanism (12), and wherein a cover vertical-lift mechanism (12) is furnished with a displacement transducer; Absorption release lever (26) is parallel with connecting rod (25), is positioned at connecting rod (25) below, the two ends, the left and right sides of adsorbing release lever (26) respectively with the vertical track of vertical-lift mechanism (12) on bearing block affixed; 15～20 vacuum cups (13) are distributed on the whole length of absorption release lever (26).
The tyre surface withdrawing device of 8 tyre surface extruding production lines according to claim 4 is characterized by:

The bracing frame of described absorption release portion (10) is positioned at the other end of pan carriage (15) track, there are three horizontal rail (9) parallel track, horizontal mobile mechanism (8) with pan carriage (15) on bracing frame (10) top, and the upper ends of the vertical track of 2 cover vertical-lift mechanisms (12) are packed in respectively on the linear axis bearing (27) of left and right sides track (9) of horizontal mobile mechanism (8); On the horizontal rail (9) in the middle of the horizontal mobile mechanism (8) Rodless cylinder (24), a displacement transducer are arranged.Connecting rod (25) is vertical with horizontal rail (9), its two ends respectively with bearing block (27) Joint on left and right horizontal track (9), Rodless cylinder (24) Joint on its middle part and the by-level track (9); There is a Rodless cylinder (7) in every cover vertical-lift mechanism (12), and wherein a cover vertical-lift mechanism (12) is furnished with a displacement transducer; Absorption release lever (26) is parallel with connecting rod (25), is positioned at connecting rod (25) below, the two ends, the left and right sides of adsorbing release lever (26) respectively with the vertical track of vertical-lift mechanism (12) on bearing block affixed; 15～20 vacuum cups (13) are distributed on the whole length of absorption release lever (26).
The tyre surface withdrawing device of 9 tyre surface extruding production lines according to claim 5 is characterized by:

The bracing frame of described absorption release portion (10) is positioned at the other end of pan carriage (15) track, there are three horizontal rail (9) parallel track, horizontal mobile mechanism (8) with pan carriage (15) on bracing frame (10) top, and the upper ends of the vertical track of 2 cover vertical-lift mechanisms (12) are packed in respectively on the linear axis bearing (27) of left and right sides track (9) of horizontal mobile mechanism (8); On the horizontal rail (9) in the middle of the horizontal mobile mechanism (8) Rodless cylinder (24), a displacement transducer are arranged.Connecting rod (25) is vertical with horizontal rail (9), its two ends respectively with bearing block (27) Joint on left and right horizontal track (9), Rodless cylinder (24) Joint on its middle part and the by-level track (9); There is a Rodless cylinder (7) in every cover vertical-lift mechanism (12), and wherein a cover vertical-lift mechanism (12) is furnished with a displacement transducer; Absorption release lever (26) is parallel with connecting rod (25), is positioned at connecting rod (25) below, the two ends, the left and right sides of adsorbing release lever (26) respectively with the vertical track of vertical-lift mechanism (12) on bearing block affixed; 15～20 vacuum cups (13) are distributed on the whole length of absorption release lever (26).