CN204895960U - Sign indicating number brick transfer system - Google Patents

Abstract

The utility model provides a sign indicating number brick transfer system which characterized in that: including sign indicating number brick elevating system, have parallel relative both sides board, set up the bearing plate between the board of both sides and drive the elevating system that the bearing plate goes up and down to remove, the bearing plate is used for stacking yard fragment of brick that the brick robot provided, chain conveyor has the chain that transversal arrangement and intermittent type formula were carried, and the interval is provided with a plurality of usefulness and deposits the box body of fragment of brick in heaps on the chain, a pushing equipment for the fragment of brick in heaps that will pile up on the bearing plate pushes in the box body, the 2nd pushing equipment for release the fragment of brick in heaps in the box body, the utility model discloses can realize the pile of fragment of brick and transfer fragment of brick in heaps, can be applied to automatic sign indicating number and change the vanning production line, effectively improve production efficiency, reduce intensity of labour.

Description

One stacks bricks transfer system

Technical field

The utility model relates to a kind of ceramic tile production field, particularly relates to one and to stack bricks transfer system.

Background technology

The demand of ceramic tile increases day by day, and productive output is also along with increasing sharply.After ceramic tile machines, for avoid transport and storage process in fragmentation and scuffing, all need to pack ceramic tile, because tile packs operation is many, long flow path, brings very large difficulty to mechanization production.Existing tile packs mainly produces manufacturing line by artificial or semi-automatic, and labour intensity is large, and efficiency is low, and work under bad environment, people free from onerous toil in the urgent need to automatic production line.

Utility model content

The purpose of this utility model is for the deficiencies in the prior art, provides one to stack bricks transfer system, can realize the pile of fragment of brick and transfer fragment of brick in heaps.

The purpose of this utility model realizes by following technical solution:

One stacks bricks transfer system, it is characterized in that: comprise

Stack bricks lifting mechanism, having parallel relative biside plate, being arranged on back plate between biside plate and driving the lifting mechanism of back plate lifting moving, the fragment of brick that back plate provides for stacking the robot that stacks bricks;

Chain conveyor, has lateral arrangement and the chain of intermittent delivery, chain is arranged at intervals with multiple box body with depositing fragment of brick in heaps;

First pusher, for pushing in box body by the fragment of brick in heaps be stacked on back plate;

Second pusher, for releasing the fragment of brick in heaps in box body.

Further, the motor that described lifting mechanism comprises vertically arranged screw mandrel, screw collar is located at nut on screw mandrel and drive nut rotates, described back plate and screw mandrel link.

Further, first, second pusher described includes the push pedal along pushing away screw mandrel, screw collar that brick direction extends and being located at nut on screw mandrel, motor that drive nut rotates and linking with screw mandrel.

Further, the utility model also comprises Zhuan Zhuan testing agency, comprise the swing arm be hinged on bottom each described box body, retracing spring between being arranged on bottom swing arm and described box body, be arranged on the first sensor swinging situation below the relative box body of described first pusher for wobble detection bar, be arranged on the second sensor swinging situation below the relative box body of described second pusher for wobble detection bar, swing arm can be pressed down by fragment of brick and swing, first pusher is connected with first sensor, can the action according to first sensor signal, second pusher is connected with the second sensor, can the action according to the second sensor signal.

Further, described box body comprises base plate and to be arranged on base plate and parallel relative biside plate, and described swing arm is arranged on base plate, described base plate is formed with the resigning hole stretched out for described swing arm upper end.

Further, described chain is provided with the box body of at least two kinds of specifications that can adapt at least two kinds of specification fragments of brick, the swing arm position of different size box body is different, and first, second sensor includes at least two that match with the swing arm of different size box body accordingly.

Further, the utility model also comprises and being arranged on above the relative described box body of first, second pusher described for limiting the detent mechanism that described box body rocks, the vertical movement mechanism that this detent mechanism comprises briquetting moving up and down and drives briquetting to move up and down, briquetting is formed with the groove for clamping down on described box body top.

The utility model has following beneficial effect:

The robot that stacks bricks can pick ceramic tile according to picking up brick instruction and be stacked on and stack bricks on the back plate of lifting mechanism, back plate can decline until reach target location according to code revolution amount gradually, ceramic tile in heaps on back plate pushes in box body by the first pusher, box body is delivered to the charging position of vanning mould by chain conveyor, ceramic tile in heaps in box body pushes in vanning mould by the second pusher, then mold movement is cased to discharge position, ceramic tile in heaps in vanning mould pushes in casing by the 3rd pusher, so, what just can realize automation picks up brick, stack bricks and case, effective raising boxing efficiency, reduce labour intensity.

Accompanying drawing explanation

Below in conjunction with accompanying drawing, the utility model is described in further detail.

Fig. 1 is structural representation of the present utility model.

Fig. 2 is belt conveyor, chain conveyor, the relative position of stack bricks robot and the pusher that stacks bricks and structural representation.

Fig. 3 is the partial enlarged drawing of Fig. 2.

Fig. 4 is the side direction partial enlarged drawing of chain conveyor.

Fig. 5 is the partial top view of box body and the pusher that stacks bricks.

Fig. 6 is relative position and the structural representation of the second pusher, chain conveyor and vanning mould.

Fig. 7 is relative position and the structural representation of the 3rd pusher, vanning mould and mould rollover unit, and Mobile base is in gets case position.

Fig. 8 is relative position and the structural representation of the 3rd pusher, vanning mould and mould rollover unit, and Mobile base is in vanning position.

Fig. 9 is relative position and the structural representation of roller feedway and antinose-dive leg, backrest horizontal arrangement.

Detailed description of the invention

Shown in Fig. 9, apply fully-automatic intelligent of the present utility model and pick up brick packaging system, comprise belt conveyor 11, chain conveyor 12, straight line module 13, roller feedway 14, the lifting mechanism 8 that stacks bricks, NI Vision Builder for Automated Inspection (not shown), the robot 2 that stacks bricks, vanning mould 4, first pusher 84, second pusher 31, the 3rd pusher 32, mould rollover unit 5, Zhuan Zhuan testing agency, casing forming machine 61, automatic box sealing machine 62 and automatic strapping machine 63.

Belt conveyor 11 comprises two conveying rollers arranged lateral separation, the servomotor being stretched in the endless-belt 111 between two conveying rollers and driving conveying roller to rotate, and the loading section transverse horizontal of this belt 111 extends for receiving and carrying fragment of brick A.

Chain conveyor 12 comprises two sprocket shafts that lateral separation is arranged, be disposed on two sprocket wheels on sprocket shaft, be stretched in the motor that two ring chains 121 between sprocket wheel of two sprocket shafts and driving chain wheel shaft rotate, chain 121 transverse horizontal is arranged, multiple box bodys 7 that lateral separation is arranged are provided with between two chains 121, box body 7 comprises and is connected to base plate 71 between two chains 121 and is connected to base plate 71 and parallel two second side plates 72 relatively, two second side plates 72 extend longitudinally and make box body 7 form import and export relative longitudinally, first, second pusher 84, the detent mechanism for locating box body 7 is provided with above 31 relative box bodys 7, the cylinder 73 that this detent mechanism comprises briquetting 74 moving up and down and drives briquetting 74 to move up and down, briquetting 74 is formed with the groove 741 for clamping down on box body 7 top.

Roller feedway 14, for receiving and carrying casing B, comprises the conveying roller 141 arranged lateral separation and the motor driving conveying roller 141 to rotate by transmission device; Casing forming machine 61, automatic box sealing machine 62 and automatic strapping machine 63 are arranged successively along the throughput direction of roller feedway 14, casing forming machine 61 can make casing B for packing fragment of brick and input roller feedway 14, automatic box sealing machine 62 is for carrying out adhesive plaster sealing to the casing B filling fragment of brick, and automatic strapping machine 63 is fastening for carrying out band to the casing B after adhesive plaster sealing.

The lifting mechanism 8 that stacks bricks comprise parallel relatively and two first side plates 81 extended longitudinally, be arranged on the back plate 82 between two first side plates 81, drive the lifting mechanism 83 of back plate 82 lifting moving, upgrading mechanism 83 comprises the nut seat 831 be fixedly installed, vertically arranged screw mandrel 834, to be arranged on rotationally on nut seat 831 and the nut 832 be set on screw mandrel 834 by bearing, the line slideway 833 of interlock parallel with screw mandrel 834, the servomotor 835 that drive nut 832 rotates, the slide block of line slideway 833 is fixed on nut seat 831, back plate 82 is connected to screw mandrel 834 upper end.

First pusher 84, for the fragment of brick in heaps be stacked on back plate 82 is pushed in box body 7, comprise screw mandrel 843 that the nut seat 841, the vertical equity that are fixedly installed arrange, to be arranged on rotationally on nut seat 841 by bearing and the push pedal 85 being set in the nut 842 on screw mandrel 843, the line slideway 844 of interlock parallel with screw mandrel 843, servomotor 845 that drive nut 841 rotates and being arranged on screw mandrel 843 front end, the slide block of line slideway 844 is fixed on nut seat 841.

NI Vision Builder for Automated Inspection is arranged on above belt 111, has camera head, can absorb the fragment of brick information on belt 111 and feed back to code to turn robot 2, and wherein, fragment of brick information comprises the information such as whether fragment of brick position coordinate, fragment of brick quality qualified; The robot 2 that stacks bricks to be arranged on above belt 111 and to be connected with NI Vision Builder for Automated Inspection, the fragment of brick information that can provide according to NI Vision Builder for Automated Inspection carries out action, when target fragment of brick A is up-to-standard without time damaged, stack bricks the location coordinate information of robot 2 according to this target fragment of brick A, and this target fragment of brick A of crawl is also stacked on and stacks bricks on the back plate 82 of lifting mechanism 8; When the damaged nonconformity of target fragment of brick A, the robot 2 that stacks bricks does not capture this target fragment of brick A, and the robot 2 that here stacks bricks can adopt the parallel robot with negative pressure sucker, as spider robot; In order to improve the efficiency that stacks bricks, multiple stage can be set and stack bricks robot 2, and arrange at least one lifting mechanism 8 that stacks bricks for every platform robot 2 that stacks bricks.

Vanning mould 4 is surrounded by base plate, top and biside plate, has import and export relative longitudinally, and the exit end reducing process of vanning mould 4 makes it to be convenient to stretch in casing B, and the entrance point enlarging process of vanning mould 4 makes it to be convenient to receive fragment of brick; Straight line module 13 transverse horizontal is arranged, vanning mould 4 is arranged on the slide of straight line module 13, can be driven transverse shifting between charging position and discharge position by straight line module 13, for receiving the fragment of brick A in heaps be pushed out from box body 7, straight line module 13 adopts driven by servomotor.

Second pusher 31 is for pushing in vanning mould 4 at charging position by the fragment of brick A in heaps in box body 7,3rd pusher 32 is for pushing in casing B at discharge position by the fragment of brick A in heaps in vanning mould 4, the structure of second, third pusher 31,32 is substantially identical with the first pusher 83, here no longer describes in detail.

Mould rollover unit 5 comprises can at vanning position and the Mobile base 51 getting movement between case position, by pivotal axis 533 turning be hinged on antinose-dive leg 53 on Mobile base 51, the cylinder 54 of drive case support 53 rotary movement and the travel mechanism 52 of driving Mobile base 51 movement, antinose-dive leg 53 has orthogonal backrest 531 and underframe 532, when Mobile base 51 is getting case position, antinose-dive leg 53 turn to and makes backrest 531 horizontal arrangement to accept empty van body B or release trunkful body B, when Mobile base 51 is in vanning position, antinose-dive leg 53 turn to and backrest 531 is arranged vertically, casing B is enable to accept the fragment of brick A in heaps be pushed out from vanning mould 4, backrest 531 comprises the cramp bar 5311 of some parallel interval arrangement, when backrest 531 horizontal arrangement can collapse in the gap between conveying roller 141, travel mechanism 52 comprises screw mandrel 522 that vertical equity arranges, be fixed on Mobile base 51 and the nut be socketed with screw mandrel 522 screw thread, the motor 521 driving screw mandrel 522 to rotate and for supporting and guide the guide rail of Mobile base 51 straight-line motion.

Blocking mechanism be set and push away case adsorbing mechanism, making antinose-dive leg 53 can accurately receive and secure casing B.

This blocking mechanism comprises and can stop the baffle plate 55 of action between the position of release casing B and drive the cylinder of baffle plate 55 action, concrete baffle plate 55 can between adjacent two conveying rollers 141 fore and aft motion, the backrest 531 of horizontal arrangement collapses in the gap between conveying roller 141, and baffle plate 55 stops that casing B makes it to be in above backrest 531, push away case adsorbing mechanism and comprise the organ type vacuum cup 5321 being arranged on and underframe 532 can holding empty van body, empty van body B can be promoted and move to the push pedal 572 can adsorbed by organ type vacuum cup 5321 and the cylinder 571 being connected driving push pedal 572 movement, push pedal 572 can be arranged in the frame of roller feedway 14 by relative underframe 532 by pilot bar 574 with orienting sleeve 573 movably, the cylinder body of cylinder 571 is fixed in the frame of roller feedway 14, its piston rod is connected with push pedal 572, organ type vacuum cup 5321 can hold empty van body B in antinose-dive leg 53 switching process.

The specific works mode of mould rollover unit 5 is: travel mechanism 52 drives Mobile base 51 to move to and gets case position, as shown in Figure 7, cylinder 54 drive case support 53 overturns, its backrest 531 is made to draw in the gap between conveying roller 141, roller feedway 14 is fed forward empty van body B, stopped by baffle plate 55 above the backrest 531 that empty van body B is delivered to horizontal arrangement, cylinder 571 drives push pedal 572 laterally to promote empty van body B, empty van body B and underframe 532 are fitted, organ type vacuum cup 5321 holds empty van body B, then cylinder 54 drive case support 53 overturns, backrest 531 is arranged vertically and makes casing B accept fragment of brick A, travel mechanism 52 drives Mobile base 51 to move to vanning position, as shown in Figure 8, fragment of brick A in vanning mould 4 pushes in casing B by the 3rd pusher 32, then Mobile base 51 moves to and gets case position, cylinder 54 drive case support 53 turn to and makes backrest 531 horizontal arrangement, the casing B filling fragment of brick A is made to be bearing on conveying roller 141, trunkful body B is fed forward by roller feedway 14.

Zhuan Zhuan testing agency comprises and is hinged on swing arm 91 bottom each box body 7 base plate 71 by pivotal axis 92, be set on pivotal axis 92 and two ends and act on torsion spring 93 between swing arm 91 and base plate 71, be arranged on the first sensor swinging situation below the relative box body 7 of the first pusher 84 for wobble detection bar 91, be arranged on the second sensor swinging situation below the relative box body 7 of the second pusher 31 for wobble detection bar 91, base plate 71 is formed with the resigning hole 711 passed for swing arm 91 upper end, swing arm 91 upper end can be pressed down by fragment of brick A and swing, the controller of the first pusher 84 is connected with first sensor, can the action according to first sensor signal, the controller of the second pusher 31 is connected with the second sensor, can the action according to the second sensor signal.Chain 121 is provided with the box body 7 of two kinds of specifications that can adapt to two kinds of specification fragments of brick, the width of the mainly fragment of brick of specification here, the installation site of the swing arm 91 of two kinds of specification box bodys 7 is different, and corresponding first sensor comprises two the first proximity switches 941,942 matched with the swing arm 91 of two kinds of specification box bodys 7; Corresponding second sensor comprises two the second proximity switches 951,952 matched with the swing arm 91 of two kinds of specification box bodys 7; Namely the first proximity switch 941 is for detecting box body 7, first proximity switch 942 of the first specification for detecting the box body 7 of the second specification, and the box body 7 of first, second specification is respectively used to the fragment of brick A holding different in width.

Specific works mode is: belt conveyor 11 receives fragment of brick A and is fed forward, NI Vision Builder for Automated Inspection can absorb the fragment of brick information on belt 111, and generate control command according to fragment of brick information, the robot 2 that stacks bricks draws the fragment of brick A of relevant position according to control command action, and be placed into and stack bricks on the back plate 82 of lifting mechanism 8, simultaneously lifting mechanism 83 drives back plate 82 to decline the distance of a block thickness, circulation like this is until the fragment of brick A of stacking predetermined number on back plate 82, chain conveyor 12 batch (-type) is fed forward box body 7, be sylphon body 7 when the first proximity switch 941 to detect in box body 7 without fragment of brick, and the back plate 82 relative with this box body 7 is stacked the fragment of brick A of predetermined number, detent mechanism positions box body 7, fragment of brick A in heaps on back plate 82 pushes in box body 7 by push pedal 85 action of the first pusher 84, when the second proximity switch 951 detect in box body 7 filled fragment of brick A and vanning mould 4 be urged to charging position by straight line module 13, fragment of brick A in heaps in box body 7 pushes in vanning mould 4 by push pedal 311 action of the second pusher 31, vanning mould 4 needs the fragment of brick A of two to three box bodys 7 just can fill, therefore, the charging position of vanning mould 4 arranges two to three usually, after fragment of brick A filled by vanning mould 4, straight line module 13 drives vanning mould 4 to move to discharge position, mould rollover unit 5 has received empty van body B and has made empty van body B be in the state that can receive fragment of brick A before this, fragment of brick A in vanning mould 4 pushes in empty van body B by push pedal 321 action of the 3rd pusher 32, then the Mobile base 51 of mould rollover unit 5 moves to and gets case position, cylinder 54 drive case support 53 turn to and makes backrest 531 horizontal arrangement, the casing B filling fragment of brick is made to be bearing on conveying roller 141, trunkful body B is fed forward by roller feedway 14, and under the guiding of guiding mechanism, to enter in automatic box sealing machine 62 carry out joint sealing, and continued to be fed forward by roller feedway 14 after joint sealing, enter in automatic strapping machine 63 and carry out band and fix.

The above, be only preferred embodiment of the present utility model, therefore can not limit with this scope that the utility model implements, the equivalence namely done according to the utility model claim and description change with modify, all should still belong in scope that the utility model patent contains.

Claims (7)

1. stack bricks a transfer system, it is characterized in that: comprise

Stack bricks lifting mechanism, having parallel relative biside plate, being arranged on back plate between biside plate and driving the lifting mechanism of back plate lifting moving, the fragment of brick that back plate provides for stacking the robot that stacks bricks;

Chain conveyor, has lateral arrangement and the chain of intermittent delivery, chain is arranged at intervals with multiple box body with depositing fragment of brick in heaps;

First pusher, for pushing in box body by the fragment of brick in heaps be stacked on back plate;

Second pusher, for releasing the fragment of brick in heaps in box body.

2. one according to claim 1 stacks bricks transfer system, it is characterized in that: the motor that described lifting mechanism comprises vertically arranged screw mandrel, screw collar is located at nut on screw mandrel and drive nut rotates, described back plate and screw mandrel link.

3. one according to claim 1 stacks bricks transfer system, it is characterized in that: the motor that first, second pusher described includes along pushing away screw mandrel that brick direction extends, screw collar is located at nut on screw mandrel, drive nut rotates and the push pedal linked with screw mandrel.

4. the one according to claim 1 or 2 or 3 stacks bricks transfer system, it is characterized in that: also comprise Zhuan Zhuan testing agency, comprise the swing arm be hinged on bottom each described box body, retracing spring between being arranged on bottom swing arm and described box body, be arranged on the first sensor swinging situation below the relative box body of described first pusher for wobble detection bar, be arranged on the second sensor swinging situation below the relative box body of described second pusher for wobble detection bar, swing arm can be pressed down by fragment of brick and swing, first pusher is connected with first sensor, can the action according to first sensor signal, second pusher is connected with the second sensor, can the action according to the second sensor signal.

5. one according to claim 4 stacks bricks transfer system, it is characterized in that: described box body comprises base plate and to be arranged on base plate and parallel relative biside plate, described swing arm is arranged on base plate, described base plate is formed with the resigning hole stretched out for described swing arm upper end.

6. one according to claim 4 stacks bricks transfer system, it is characterized in that: the box body described chain being provided with at least two kinds of specifications that can adapt at least two kinds of specification fragments of brick, the swing arm position of different size box body is different, and first, second sensor includes at least two that match with the swing arm of different size box body accordingly.

7. the one according to claim 1 or 2 or 3 stacks bricks transfer system, it is characterized in that: also comprise and being arranged on above the relative described box body of first, second pusher described for limiting the detent mechanism that described box body rocks, the vertical movement mechanism that this detent mechanism comprises briquetting moving up and down and drives briquetting to move up and down, briquetting is formed with the groove for clamping down on described box body top.