CN106697971A - Automatic brick stacking assembly line - Google Patents

Abstract

The invention aims at providing an automatic brick stacking assembly line. According to the assembly line, the problems about brick placement density adjustment, brick posture adjustment and tray waste in the background technology are solved, the automation degree can be remarkably increased, and cost can be reduced. The automatic brick stacking assembly line is composed of a low-density conveying belt, a high-density conveying belt, a stacking mechanical arm and a tray. The two conveying belts are each composed of a driving wheel, a driven wheel and belt bodies wound around the driving wheel and the driven wheel. The multiple belt bodies of each of the two conveying belts are arranged at intervals, and the belt bodies of the two conveying belts are arranged at the junction of the two conveying belts in a staggered manner. The conveying speed of the high-density conveying belt is lower than that of the low-density conveying belt. The low-density conveying belt further comprises a brick turnover mechanism. The brick turnover mechanism comprises a rotary shaft and two or more turnover arms arranged on the rotary shaft in a protruding manner, and a brick clamping part with the included angle being 90 degrees is formed by the opposite side faces of every two adjacent turnover arms. The tray comprises a flat-plate-shaped body, and protruding blocks distributed in an array shape are arranged on the top face of the body.

Description

Automate the streamline that stacks bricks

Technical field

The invention belongs to brick-making technology field, and in particular to automate the streamline that stacks bricks to one kind.

Background technology

At present, many brickmaking factories have all employed automated production, but, due to the particularity of brickmaking technology, there is one A little problems are not yet well solved so that the automaticity of streamline is not high.

For example say：

1st, many brick fields apply the coercive method to produce adobe at present, and it is horizontality that adobe is suppressed after coming, and in order to burn Save space when processed, it is necessary to adobe is changed into plumbness and code is into piled bricks, same situation is also appeared in the transport of fragment of brick. How by horizontal adjustment to be fast and efficiently vertical by the state of adobe or fragment of brick, be problem demanding prompt solution always in the industry.Mesh Before can only be using manually adobe or fragment of brick be overturn, high cost, efficiency is low.

2nd, it is necessary to the fragment of brick at brickmaking machine brick outlet is in place to piled bricks institute by tape transport during brickmaking Put, when fragment of brick is put on conveyer belt, the interval between fragment of brick is larger, and, it is necessary to fragment of brick is closely suffered when needing to stack bricks Together, just facilitate together to lift multiple fragments of brick and be put on piled bricks.The fragment of brick manually adjusted on conveyer belt can only be relied at present Density is put, to meet the demand for stacking bricks.This kind of mode that manually adjusts increased manually, is unfavorable for automated production and reduces into This.

3rd, all it is that piled bricks is bundled into an entirety together with the pallet of its bottom when piled bricks is transported, is inserted using fork truck Enter in the through hole set by pallet, so as to by piled bricks lifting, be loaded on car.But, piled bricks and pallet after transport to destination, Pallet seldom can again send back to brickmaking factory, but divert to other purpose or work as waste disposal, can undoubtedly cause huge waste.

The content of the invention

The streamline that stacks bricks is automated the purpose of the present invention is to propose to one kind, the streamline solves the fragment of brick in background technology The problem that density adjustment, fragment of brick pose adjustment and pallet are wasted is put, automaticity, reduces cost can be significantly improved.

Automation of the invention stacks bricks streamline by low-density conveyer belt, high density conveyer belt, palletizing mechanical arm and pallet Constitute, the low-density conveyer belt and high density conveyer belt is by driving wheel, driven pulley and is around on driving wheel and driven pulley Belt body is constituted, and the low-density conveyer belt, the belt body of high density conveyer belt have a plurality of and interval setting, high density conveyer belt Belt body is staggered with the belt body of low-density conveyer belt in the intersection of two conveyer belts, and the transporting velocity of high density conveyer belt is small In the transporting velocity of low-density conveyer belt；The low-density conveyer belt also includes the fragment of brick being located between its driving wheel and driven pulley The drive mechanism that switching mechanism and driving fragment of brick switching mechanism are rotated, the fragment of brick switching mechanism includes rotating shaft and is provided projectingly on Two or more flip-arms in rotating shaft, the opposite flank of adjacent flip-arm constitutes the fragment of brick clamping part that angle is 90 degree；It is described Pallet includes flat body, and the top surface of body is provided with the projection being distributed in array-like, width is provided between adjacent projections big In the gap for tying up bandwidth.

The operation principle that stacks bricks of above-mentioned streamline is as follows：

Fragment of brick is the level of state first is placed sequentially on low-density conveyer belt, when fragment of brick is with low-density conveyer belt to fragment of brick When at switching mechanism, arm is reversed first and is supported, and as flip-arm is around its axis of rotation, in the process, the appearance of fragment of brick State is gradually converted into vertically by level, is finally reversed arm and is placed on belt body again, is continued with the belt body of low-density conveyer belt It is mobile.

On low-density conveyer belt, the spacing between adjacent fragment of brick is larger, when fragment of brick be transported to high density conveyer belt with During the intersection of low-density conveyer belt, will simultaneously by two belt body supports of conveyer belt, so as to be transferred to high density conveyer belt On；Due to the transporting velocity of the transporting velocity less than low-density conveyer belt of high density conveyer belt, therefore on high density conveyer belt Adjacent fragment of brick between spacing can put the purpose of density so as to be automatically obtained adjustment fragment of brick than diminishing originally.

The fragment of brick on high density conveyer belt is clamped using palletizing mechanical arm and fragment of brick is put on pallet, on pallet During stacking bricks, vacant locations are reserved in piled bricks, the lifting hole passed through with the jaw formed for fork truck treats that piled bricks code is good Afterwards, make strapping through the gap piled bricks and pallet, piled bricks is bundled into an entirety.To strengthen the stability of piled bricks, During being stacked bricks on pallet, the fragment of brick orientation in adjacent brick layer is vertical, with all fragments of brick in avoiding piled bricks all to same Topple in one direction.Piled bricks on pallet is independently packaged into an entirety and is directly transported using fork truck lifting, without again will Pallet and piled bricks are packaged with and cause the waste of pallet.

Above-mentioned palletizing mechanical arm morning in the field of business is widely used, and here is omitted.

Further, the rotation of the fragment of brick switching mechanism is beat-type；The flip-arm is in the process with axis of rotation In, flip-arm is exposed to belt body upwards in the front of rotating shaft by the lower section of belt body, and along conveyer belt conveying direction up over After rotating shaft, then it is swung down to below belt body at the rear of rotating shaft；When the fragment of brick on fragment of brick clamping part in vertical state when, fragment of brick The bottom surface of clamping part and belt body either flush or slightly below belt body top surface, and rotor pauses the scheduled time at this moment.As long as control Make the transporting velocity for rotating beat and low-density conveyer belt belt body of fragment of brick switching mechanism, you can make the fragment of brick of horizontality complete When moving to the top of flip-arm entirely, flip-arm is just rotated and props up fragment of brick upwards；Can also be fully converted to fragment of brick simultaneously Plumbness and after falling on low-density conveyer belt belt body, flip-arm pause treats that the fragment of brick of plumbness is defeated by low-density Send band belt body to take away rear flip-arm to be further continued for rotating, can avoid flip-arm that low-density conveyer belt belt body is encountered in rotation process On plumbness fragment of brick.

Further, the flip-arm is made up of a point flip-arm for multiple and spaced and parallel arrangement, described point of flip-arm with Belt body interval setting.So divide flip-arm and point belt body to form fragment of brick in multiple positions to support, it is ensured that fragment of brick it is flat Weighing apparatus.

Further, the driven pulley of the high density conveyer belt and the driven pulley of low-density conveyer belt are in two conveyer belts Intersection is arranged in same rotating shaft, the driven pulley of its middle-high density conveyer belt and/or the driven pulley of low-density conveyer belt and institute Stating rotating shaft can relatively rotate.The driven pulley of two conveyer belts is arranged at intersection, and is coaxially disposed, it is possible to reduce two conveyings Overlap length with belt body, is conducive to keeping the stabilization of fragment of brick；And, two velocities of rotation of the driven pulley of conveyer belt are not done mutually Disturb, do not interfere with the realization that adjustment fragment of brick puts density.

Further, the belt body in low-density conveyer belt and high density conveyer belt is towards driving wheel, driven pulley Drive surface sets spaced convex portion, and the driving wheel, driven pulley are provided with interval corresponding with convex portion recess；The driving wheel, Driven pulley is constituted by wheel body and some pins, and the wheel Middle face of the wheel body is provided with annular groove, and the pin passes through annular groove Cell wall and be spaced and be fixed at annular groove, so as to annular groove is separated into recess at interval.By matching somebody with somebody between convex portion and recess Close so that stabilization, accurate annexation are formed between driving wheel, driven pulley and belt body, will not be sent out between driving wheel and belt body The raw situation skidded, so as to improve the reliability and precision of driving；And by opening up annular groove on wheel body, and in ring The mode of pin is worn on connected in star to constitute the recess on wheel body, with it is easily manufactured, easily improve recess location, precision it is excellent Point.

Further, it is the adaptability of raising pallet, the bottom of the body is provided with some spaced adjustment heights Support feet.On ground during out-of-flatness, the length of each support feet can be adjusted, so that the body of pallet is in horizontality, carried Stability and security when height stacks bricks.Specifically, the support feet is made up of internally threaded sleeve and stud, described sleeve pipe Top is fixedly connected with body bottom surface, and the stud is threaded onto in sleeve pipe, and the length in sleeve pipe is screwed in by regulation stud, you can adjusted The length of support feet is saved, it is very convenient.

Automation of the invention stacks bricks, and cleverly fragment of brick switching mechanism, transporting velocity are different by setting structure for streamline Two conveyer belts and the pallet without binding of being packed with piled bricks, automatically can be overturn the fragment of brick on conveyer belt, And can be adjusted instead of manually putting density to the fragment of brick on conveyer belt automatically, automaticity is improve, save people Power resource, and operating efficiency is improve, with good practicality.

Brief description of the drawings

Fig. 1 is the integral layout schematic diagram for automating the streamline that stacks bricks of the invention.

Fig. 2 is the principle schematic of low-density conveyer belt of the invention.

Fig. 3 is the partial top view of low-density conveyer belt of the invention.

Fig. 4 is the connection diagram of low-density conveyer belt of the invention and high density conveyer belt.

Fig. 5 is the partial structurtes top view of low-density conveyer belt of the invention and the intersection of high density conveyer belt.

Fig. 6 is low-density conveyer belt, the structural representation of the belt body of high density conveyer belt.

Fig. 7 is the front view of wheel body.

Fig. 8 is the A-A sectional views of Fig. 7.

Fig. 9 is the schematic diagram of piled bricks packing method.

Figure 10 is the structural representation of pallet.

Accompanying drawing is indicated：1st, pallet；2nd, fragment of brick；3rd, low-density conveyer belt；4th, high density conveyer belt；5th, palletizing mechanical arm；6、 Driving wheel；7th, driven pulley；8th, belt body；81st, convex portion；9th, fragment of brick switching mechanism；91st, the rotating shaft of fragment of brick switching mechanism；92nd, overturn Arm；921st, flip-arm is divided；93rd, fragment of brick clamping part；10th, the rotating shaft of the driven pulley of low-density conveyer belt；11st, recess；12nd, wheel body； 121st, annular groove；13rd, pin；14th, the body of pallet；15th, projection；16th, gap；17th, support feet；18th, strapping；19th, lifting Hole.

Specific embodiment

It is each as involved by specific embodiment of the invention by the description to embodiment below against accompanying drawing The shape of component, the mutual alignment between construction, each several part and annexation, the effect of each several part and operation principle etc. are made into one The detailed description of step.

Embodiment 1：

As illustrated, the automation of the present embodiment stacks bricks, streamline is by pallet 1, low-density conveyer belt 3, the and of high density conveyer belt 4 Can palletizing mechanical arm 5 constitute, low-density conveyer belt 3, high density conveyer belt 4 conveying direction it is identical and on same straight line； The low-density conveyer belt 3 and high density conveyer belt 4 is by driving wheel 6, driven pulley 7 and is around on driving wheel 6 and driven pulley 7 Belt body 8 is constituted, and the low-density conveyer belt 3, the belt body 8 of high density conveyer belt 4 have a plurality of and interval setting, high density conveying It is staggered in the intersection of two conveyer belts with the belt body 8 of low-density conveyer belt 3 with 4 belt body 8, it is each self-driven by adjusting The actuating speed of wheel 6 so that transporting velocity of the transporting velocity of high density conveyer belt 4 less than low-density conveyer belt 3；It is described low close Degree conveyer belt 3 also includes the fragment of brick switching mechanism 9 being located between its driving wheel 6 and driven pulley 7 and drives 9 turns of fragment of brick switching mechanism Dynamic drive mechanism（Can be not drawn into figure using stepper motor etc.）, the fragment of brick switching mechanism 9 include rotating shaft 91 and protrusion set The two or more flip-arms 92 being placed in rotating shaft 91, the opposite flank of adjacent flip-arm 92 constitutes the fragment of brick folder that angle is 90 degree Hold portion 93.

Further, the rotation of the fragment of brick switching mechanism 9 is beat-type；The flip-arm 92 is being rotated with rotating shaft 91 During, flip-arm 92 is exposed to belt body 8 upwards in the front of rotating shaft 91 by the lower section of belt body 8, and along the conveying side of conveyer belt After up over rotating shaft 91, then it is swung down to below belt body 8 at the rear of rotating shaft 91；Fragment of brick on fragment of brick clamping part 93 2 in vertical state when, the bottom surface of fragment of brick clamping part 93 and the either flush of belt body 8 or the slightly below top surface of belt body 8, and rotor is herein When pause the scheduled time.As long as controlling the conveying for rotating beat and the belt body 8 of low-density conveyer belt 3 of fragment of brick switching mechanism 9 Speed, you can when making the fragment of brick 2 of horizontality be moved fully to the top of flip-arm 92, flip-arm 92 is just rotated and propped up upwards Fragment of brick；After simultaneously fragment of brick 2 can also being made to be fully converted to plumbness and fall on the belt body 8 of low-density conveyer belt 3, flip-arm 92 Pause, flip-arm 92 is further continued for rotating after the fragment of brick 2 of plumbness is taken away by the belt body 8 of low-density conveyer belt 3, can keep away Exempt from the fragment of brick 2 that flip-arm 92 encounters the plumbness on the belt body 8 of low-density conveyer belt 3 in rotation process.

In the present embodiment, flip-arm 92 is made up of a point flip-arm 921 for multiple and spaced and parallel arrangement, described point of upset The interval setting of belt body 8 of arm 921 and low-density conveyer belt 3.So divide point belt body 8 of flip-arm 921 and low-density conveyer belt 3 equal Fragment of brick can be formed in multiple positions and supported, it is ensured that the balance of fragment of brick.

The driven pulley 7 of high density conveyer belt 4 is with the driven pulley 7 of low-density conveyer belt 3 in two intersection peaces of conveyer belt In same rotating shaft 10, the driven pulley 7 of its middle-high density conveyer belt 4 and/or the driven pulley 7 of low-density conveyer belt 3 with it is described Rotating shaft 10 can be relatively rotated.Two driven pulleys of conveyer belt 7 are arranged at intersection, and are coaxially disposed, it is possible to reduce two defeated The overlap length with belt body 8 is sent, is conducive to keeping the stabilization of fragment of brick 2；And, two velocities of rotation of the driven pulley of conveyer belt 7 It does not interfere with each other, does not interfere with the realization that adjustment fragment of brick 2 puts density.

The belt body 8 in low-density conveyer belt 3 and high density conveyer belt 4 is towards driving wheel 6, the driving of driven pulley 7 Face sets spaced convex portion 81, and the driving wheel 6, driven pulley 7 are provided with interval recess 11 corresponding with convex portion 81；The driving Wheel 6, driven pulley 7 is constituted by wheel body 12 and some pins 13, and the wheel Middle face of the wheel body 12 is provided with annular groove 121, described Pin 13 is spaced and is fixed at annular groove 121 through the cell wall of annular groove 121, recessed at interval so as to annular groove 121 be separated Portion 11.In the moving process of belt body 85, the convex portion 81 of belt body 85 moves closer to the recess 11 of driving wheel 6, is then inserted into recessed In portion 11, as driving wheel 6 is rotated in the presence of driving wheel 6, so that drive belt body 8 to move, then, with driving wheel 6 Rotate, convex portion 81 is deviate from from recess 11 again.By the cooperation between convex portion 81 and recess 11 so that driving wheel 6, driven pulley 7 Formation stabilization, accurate annexation between belt body 8, the situation that will not be skidded between driving wheel 6 and belt body 8, so that Improve the reliability and precision of driving.

Pallet 1 includes flat body 14, and the top surface of body 14 is provided with the projection 15 being distributed in array-like, adjacent projections Width is provided between 15 and is more than the gap 16 for tying up bandwidth.The bottom of body 14 is provided with some spaced adjustment heights Support feet 17, support feet 17 is made up of internally threaded sleeve and stud, and the top of described sleeve pipe is fixedly connected with the bottom surface of body 14, institute State stud to be threaded onto in sleeve pipe, the length in sleeve pipe is screwed in by regulation stud, you can the length of regulation support feet 17, very just Just.

When stacking bricks, projection 15 can be used for supporting fragment of brick 2, and the gap 16 between projection 15 is generally less than fragment of brick 2 Width, will not be such that fragment of brick 2 drops in gap 16, after the good piled bricks 2 of code, be using the strapping through gap 16 projection 15 Piled bricks 2 can be tied, piled bricks 2 is separated with pallet 1.On ground during out-of-flatness, the length of each support feet 17 can be adjusted, so that The body 14 of pallet 1 is in horizontality, stability and security when raising stacks bricks.

The operation principle of above-mentioned streamline is as follows：

The compartment of terrain successively that is the level of state of fragment of brick 2 is placed on low-density conveyer belt 3 first, when fragment of brick 2 as low-density is defeated Send when at band 3 to fragment of brick switching mechanism 9, arm 92 is reversed first and is supported, and as flip-arm 92 is rotated around its rotating shaft 1791, In the process, the attitude of fragment of brick 2 is gradually converted into vertically by level, is finally reversed arm 92 and is placed in again on belt body 8, after It is continuous to be moved with belt body 8.

On low-density conveyer belt 3, the spacing between adjacent fragment of brick 2 is larger, when fragment of brick 2 is transported to high density conveyer belt 4 with the intersection of low-density conveyer belt 3 when, will be supported by two belt bodies of conveyer belt 8 simultaneously, it is defeated so as to be transferred to high density Send on band 4；It is because the transporting velocity of high density conveyer belt 4 is less than the transporting velocity of low-density conveyer belt 3 therefore defeated in high density Send can be than diminishing, so as to be automatically obtained the mesh that adjustment fragment of brick 2 puts density with the spacing between the adjacent fragment of brick 2 on 4 originally 's.

The plumbness most at last on high density conveyer belt 4 of palletizing mechanical arm 5 and put 2 yards of the larger fragment of brick of density into brick Pile.During being stacked bricks on pallet 1, make the orientation of fragment of brick 2 in adjacent brick layer vertical, and vacancy position is reserved in piled bricks Put, the lifting hole 19 passed through with the jaw formed for fork truck, after piled bricks code is good, make strapping 18 through piled bricks and pallet 1 it Between gap, piled bricks is bundled into an entirety.

When piled bricks is bundled using strapping, first with four vertical strappings 18 by four of piled bricks vertical seamed edges The fragment of brick 2 at place is tied, and described four vertical strappings 18 form structure of the depression angle in groined type；Again with the bundle of level Band 5 ties the bottom of piled bricks, middle part, top, finally recycles vertical strapping 18 to tie the middle part of piled bricks.So The fragment of brick in piled bricks can be gathered to center first with vertical strapping 18, reduce shared volume, it is to avoid piled bricks pine Dissipate, while active force when vertical strapping 18 can bear fork truck lifting piled bricks；Then the strapping 5 of recycling level will Piled bricks forms an entirety, is readily transported.

Claims (6)

1. a kind of automation stacks bricks streamline, it is characterised in that by low-density conveyer belt, high density conveyer belt, palletizing mechanical arm and Pallet is constituted, the low-density conveyer belt and high density conveyer belt is by driving wheel, driven pulley and is around in driving wheel and driven pulley On belt body constitute, the low-density conveyer belt, the belt body of high density conveyer belt have an a plurality of and interval setting, high density conveying The belt body of band is staggered with the belt body of low-density conveyer belt in the intersection of two conveyer belts, the conveying speed of high density conveyer belt Transporting velocity of the degree less than low-density conveyer belt；The low-density conveyer belt also includes being located between its driving wheel and driven pulley The drive mechanism that fragment of brick switching mechanism and driving fragment of brick switching mechanism are rotated, the fragment of brick switching mechanism includes that rotating shaft and protrusion set The two or more flip-arms being placed in rotating shaft, the opposite flank of adjacent flip-arm constitutes the fragment of brick clamping part that angle is 90 degree； The pallet includes flat body, and the top surface of body is provided with the projection being distributed in array-like, width is provided between adjacent projections Degree is more than the gap for tying up bandwidth.

2. automation according to claim 1 stacks bricks streamline, it is characterised in that the rotation of the fragment of brick switching mechanism is Beat-type；During with axis of rotation, flip-arm is exposed the flip-arm upwards in the front of rotating shaft by the lower section of belt body In belt body, and along conveyer belt conveying direction up over rotating shaft after, then be swung down to below belt body at the rear of rotating shaft；When Fragment of brick on fragment of brick clamping part in vertical state when, the bottom surface of fragment of brick clamping part and belt body either flush or slightly below belt body top Face, and rotor pauses the scheduled time at this moment.

3. the conveyer belt of turnable fragment of brick according to claim 1 and 2, it is characterised in that the flip-arm by it is multiple and Every point flip-arm composition, described point of flip-arm and belt body interval setting arranged in parallel.

4. it is according to claim 1 to automate the streamline that stacks bricks, it is characterised in that the driven pulley of the high density conveyer belt Driven pulley with low-density conveyer belt is arranged in same rotating shaft in two intersections of conveyer belt, its middle-high density conveyer belt The driven pulley of driven pulley and/or low-density conveyer belt can be relatively rotated with the rotating shaft.

5. the automation according to claim 1 or 4 stacks bricks streamline, it is characterised in that the belt body towards driving wheel, from The drive surface of driving wheel sets spaced convex portion, and the driving wheel, driven pulley are provided with interval corresponding with convex portion recess；The drive Driving wheel, driven pulley are constituted by wheel body and some pins, and the wheel Middle face of the wheel body is provided with annular groove, and the pin passes through ring The cell wall of shape groove and be spaced and be fixed at annular groove, so as to annular groove is separated into recess at interval.

6. it is according to claim 1 to automate the streamline that stacks bricks, it is characterised in that the bottom of the body is provided with some phases The support feet of the adjustment height being mutually spaced.