CN205114528U

CN205114528U - Intelligence subregion hacking machine

Info

Publication number: CN205114528U
Application number: CN201520976072.XU
Authority: CN
Inventors: 李天色
Original assignee: Individual
Current assignee: Quanzhou Sheng Ji Intelligent Equipment Manufacturing Co Ltd
Priority date: 2015-12-01
Filing date: 2015-12-01
Publication date: 2016-03-30
Anticipated expiration: 2025-12-01

Abstract

The utility model discloses an intelligence subregion hacking machine relates to the brickmaking field, uses this intelligence subregion hacking machine can be at the pile up neatly in -process, carries out the optional subregion of violently indulging to each layer fragment of brick of brick pillar and arranges, helps more the scientific and reasonable fragment of brick of arranging, increases brick pillar's fastness. The layer board is followed to this intelligence subregion hacking machine fragment of brick in proper order through a pusher, detection device, horizontal pusher, rotary platform, the 2nd pusher and support plate, finally can form the brick layer that a scientific and reasonable arranged at the support plate, and last different brick layers form brick pillar through piling up the device. This intelligence subregion hacking machine compact structure, occupation space are little to the brick pillar finished product of production is rational in infrastructure firm, be convenient for transportation, use etc..

Description

A kind of Intelligent partition stacker

Technical field

The utility model relates to brickmaking field, is specifically related to a kind of Intelligent partition stacker.

Background technology

Disclosed in Chinese patent CN103552832A, one unloads brick palletizing method, comprises the following steps:

One, brick is unloaded: utilize de-hackers to be undertaken clamping to be placed on after horizontal meaders draws in unloading brick platform by unit by the kiln car higher slice of fired brick from kiln discharge;

Two, laterally draw in: utilize and be located at the delivery device that unloads brick platform both sides the merging being placed on the fired brick unloading brick platform in step one and carrying out thickness direction is drawn in;

Three, longitudinally draw in: the merging utilizing the neat brick device being located at the first roller-way delivery platform the fired brick through step 2 process to be carried out length direction is drawn in;

Four, longitudinally grouping: under the control of the controller by through step 3 process fired brick as required the size of piling specification carry out being transported to the second roller-way delivery platform after is longitudinal direction divided into groups;

Five, lateral transfer: after the brick after grouping longitudinal in step 4 is changed transporting direction 90 °, continuative transport is to piling position;

Six, laterally grouping piling: by the fired brick being transported to piling position as required the size of piling specification carry out successively stacking after is transverse direction divided into groups carrying out piling, the placement direction of adjacent two layers or several layers of fired brick is that 90 degree of intersections are piled up.

Above-mentioned palletizing method only adopts the placement direction of adjacent two layers or several layers of fired brick to be that 90 degree of intersections are piled up, cannot count fragment of brick quantity in piled bricks finished product, more scientific and reasonable arrangement cannot be carried out to piled bricks every layer fragment of brick arrangement mode, and above-mentioned palletizing method cannot in piled bricks preset clearance, need to install pallet additional and transport to facilitate fork truck.

The piling layout mechanism of a kind of preset clearance disclosed in Chinese patent CN104495395A, the counting that can realize fragment of brick in finished product piled bricks is set and is realized the arrangement of combination in length and breadth of the fragment of brick of finished product piled bricks every layer by both sides for the pusher of brick by detecting device.Above-mentioned piling layout mechanism achieves preset clearance, but cause machine to take up room greatly owing to have employed both sides for brick, use cost is high, and because longitudinal fragment of brick and horizontal fragment of brick push from support plate both sides respectively, the in length and breadth cross arrangement of piled bricks with layer cannot be completed, and then more scientific and reasonable arrangement etc. cannot be carried out to piled bricks every layer fragment of brick arrangement mode.

Summary of the invention

The utility model provides a kind of Intelligent partition stacker, to solve problems such as cannot carrying out more scientific and reasonable arrangement to piled bricks every layer fragment of brick arrangement mode, piled bricks easily falls apart, cannot count piled bricks, machine is too huge.

The utility model adopts following technical scheme:

A kind of Intelligent partition stacker, comprises frame, for brick device, support plate, the first pusher, rotation platform, control system, the second pusher, crosswise pushing device, stack device and detecting device.Above-mentioned frame is provided with the confession brick track be connected with confession brick device.Above-mentioned first pusher is located in the frame above for brick track, and first of this first pusher pushes race orthogonal in arranging for brick track.Above-mentioned crosswise pushing device is located in the frame of the first propelling movement track end, the crosswise pushing race orthogonal of this crosswise pushing device pushes track in first and arranges, and is provided with one between crosswise pushing device with the first pusher for detecting the detecting device that fragment of brick is connected by number and with control system.Above-mentioned second pusher is located in the frame of crosswise pushing track end, and second of this second pusher pushes race orthogonal and arranges in crosswise pushing track.Above-mentioned rotation platform is located in the frame below the second propelling movement track.Above-mentioned support plate can be arranged at be close in the frame of rotation platform to transverse shifting, and the frame on this support plate moving direction is equipped with stack device.

Further:

Above-mentioned stack device comprises the jacking system being assemblied in frame, the baffle plate being liftably assemblied in frame and transfer station.Above-mentioned transfer station is located at the below of jacking system, and this transfer station comprises the rotating transfer roller of complex root and pedestal, and the two ends of above-mentioned transfer roller are erected on pedestal respectively.Above-mentioned jacking system comprises the grid-like bay-lift that can embed gap between transfer roller.Left end end or the right-hand member end of each above-mentioned transfer roller are provided with driving chain wheel, and driving chain wheel is located at the transfer roller of left end and driving chain wheel, and to be located at the transfer roller of right-hand member staggered spaced apart successively.Above-mentioned pedestal is also equipped with driving chain, lower edge and this driving chain engaged transmission of all above-mentioned driving chain wheels.Above-mentioned bay-lift is is integrally connected and composed by longitudinal frame side, connecting strap and horizontal batten, the two ends of horizontal batten are set up in edge under two longitudinal frame side respectively by connecting strap with connecting, space between two adjacent connecting straps can accommodating above-mentioned driving chain wheel, and the space between two blocks of adjacent horizontal battens can accommodating above-mentioned transfer roller.

Above-mentioned rotation platform is driven by rotating machine, and the anglec of rotation that rotation platform rotates at every turn is 90 °.

Above-mentioned detection device comprises a sensor.

Above-mentioned Intelligent partition stacker also comprises the board falling device for collecting the supporting plate for brick device, and this board falling device is located at and is arranged with for brick device is corresponding for brick track left end.

A kind of Intelligent partition piling method of combination, comprises the following steps:

A. by a plurality of fragment of brick being placed on supporting plate to arrangement in matrix longitudinally level push to counting channel; By the fragment of brick of continuous arrangement a plurality of before counting channel transversely level push on rotation platform, longitudinally with laterally mutual vertical; Then the fragment of brick of a plurality of continuous arrangement on rotation platform is longitudinally released;

B. by a plurality of fragment of brick being placed on supporting plate to arrangement in matrix longitudinally level push to counting channel; By the fragment of brick of continuous arrangement a plurality of before counting channel transversely level push on rotation platform, then by rotation platform after himself center-point half-twist; Then the fragment of brick of a plurality of continuous arrangement on rotation platform is longitudinally released;

The fragment of brick of a plurality of continuous arrangement c. step a or step b released longitudinally pushes to one can on the support plate of transversely movement;

D. repeat step c plural number secondary and with coordinating support plate mobile, support plate formed a brick layer:

Brick layer is made up of a plurality of brick district, and each brick district is formed by the fragment of brick of at least one piece of continuously arrangement in the same way, and the arragement direction of the fragment of brick in arbitrary adjacent Liang Gezhuan district all in the same way or mutually vertical.

Further:

A kind of Intelligent partition piling method of combination also comprises: form a plurality of brick layer after repetition step a is secondary to steps d plural number, a plurality of brick layer mutually stacked, form the piled bricks of a subregion layout.

A kind of Intelligent partition piling method of combination also comprises: repeat step a and on support plate, form a brick layer to steps d, by the movement of support plate, be formed with the gap that a plurality of extend longitudinally in brick layer.

A kind of Intelligent partition piling method of combination also comprises: repeat step a and on support plate, form a brick layer to steps d, by longitudinally pushing to the control of the propelling movement distance of support plate from rotation platform, be formed with the gap that a plurality of extend transversely in brick layer.

From the above-mentioned description created the utility model, compared to the prior art, the utility model tool has the following advantages:

The first, the utility model can carry out arbitrary transverse and longitudinal arrangement to all fragments of brick of every one deck of finished product piled bricks, to arrange more scientifically and rationally, makes piled bricks structure science, firm more.

The second, the utility model can count the fragment of brick quantity in finished product piled bricks, can control the size of piled bricks and comprise the quantity of fragment of brick.

3rd, the utility model can control the size of finished product piled bricks and shape, facilitates subsequent transportation.

4th, the utility model is rational in infrastructure compact, and machine takes up room little.

5th, the utility model is created and is coordinated the setting of transfer station by embedding the grid-like bay-lift in gap between transfer roller, achieve stacker with regard to realizing without the need to relying on pallet finished product buttress is migrated out bay-lift thus carries out the process of transporting of packing, eliminate manufacture and the operating costs of pallet, save the use cost of stacker and the manufacturing cost of product.

Accompanying drawing explanation

Fig. 1 is the procedure decomposition schematic diagram forming brick layer A in embodiment one in the utility model.

Fig. 2 is the procedure decomposition schematic diagram forming brick layer A in embodiment one in the utility model.

Fig. 3 is the procedure decomposition schematic diagram forming brick layer A in embodiment one in the utility model.

Fig. 4 is the schematic diagram forming brick layer A in embodiment one in the utility model.

Fig. 5 is the schematic diagram of the Intelligent partition piled bricks in embodiment one in the utility model.

Fig. 6 is the schematic diagram forming brick layer C in embodiment two in the utility model.

Fig. 7 is the schematic diagram forming brick layer D in embodiment three in the utility model.

Fig. 8 is the schematic diagram forming brick layer E in embodiment four in the utility model.

Fig. 9 is the structural representation of the stacker in embodiment one in the utility model.

Figure 10 is the plan structure schematic diagram of the stacker in embodiment one in the utility model.

Figure 11 is the structural representation of the transfer station of stacker in embodiment one in the utility model.

Figure 12 is the structural representation of the bay-lift of stacker in embodiment one in the utility model.

Figure 13 is the structural representation of the driver train of stacker in embodiment one in the utility model.

Detailed description of the invention

Detailed description of the invention of the present utility model is described with reference to the accompanying drawings.

Embodiment one:

Referring to figs. 1 to Fig. 5, a kind of Intelligent partition piling method of combination, comprises the following steps:

A. by a plurality of be sidelong and line up fragment of brick that a matrix is placed on supporting plate 22 push to counting channel by row, with the bearing of trend of this block thickness for longitudinal direction, with the bearing of trend of this fragment of brick length for transverse direction towards the bearing of trend of block thickness; Transversely push on rotation platform 4 after 5 fragments of brick of arranging continuously front in counting channel are separated with other fragments of brick, then the fragment of brick of arranging continuously of 5 on rotation platform 4 is longitudinally pushed;

B. by a plurality of be sidelong and line up the fragment of brick that a matrix is placed on supporting plate 22 longitudinally push to counting channel by row; Transversely push on rotation platform 4 after the fragments of brick of 5 continuous arrangements front in counting channel are separated with other fragments of brick, then by rotation platform 4 after himself center-point half-twist, a fragment of brick for the continuous arrangement in 5 on rotation platform 4 is longitudinally pushed;

The fragments of brick of 5 that c. step a or step b are released arrangements continuously longitudinally push to one can on the support plate 1 of transversely movement;

D. on support plate 1, form brick layer A, repeat step c16 time and coordinate support plate 1 ground to move:

Brick layer A is made up of 16 Ge Zhuan districts, each brick district is formed by 5 pieces of fragments of brick of arranging continuously in the same way, the arragement direction of the fragment of brick in arbitrary adjacent Liang Gezhuan district is all mutually vertical, the step c's of 16 times can on the support plate 1 of transversely movement according to first the fragments of brick of release in step a 5 arrangements continuously longitudinally being pushed to one, after the fragments of brick of release in step b 5 continuous arrangements are longitudinally pushed to one and can the order on the support plate 1 of transversely movement alternately complete successively, often carry out the distance that support plate 1 is just moved a fragment of brick length by 4 times afterwards;

E. on support plate 1, form brick layer B, repeat step c16 time and coordinate support plate 1 ground to move:

Brick layer B is made up of 16 Ge Zhuan districts, each brick district is formed by 5 pieces of fragments of brick of arranging continuously in the same way, the arragement direction of the fragment of brick in arbitrary adjacent Liang Gezhuan district is all mutually vertical, the step c's of 16 times can on the support plate 1 of transversely movement according to first the fragments of brick of release in step b 5 arrangements continuously longitudinally being pushed to one, after the fragments of brick of release in step a 5 continuous arrangements are longitudinally pushed to one and can the order on the support plate 1 of transversely movement alternately complete successively, often carry out the distance that support plate 1 is just moved a fragment of brick length by 4 times afterwards;

F. 4 brick layer A and 4 brick layer B are stacked mutually, form the piled bricks of a subregion layout.

With reference to figure 9, Figure 10, a kind of Intelligent partition stacker, comprises frame, for brick device 2, support plate 1, first pusher 3, rotation platform 4, control system, the second pusher 6, crosswise pushing device 5, stack device 7 and detecting device 8.Above-mentioned confession props up fragment of brick by multi-disc supporting plate 22 in brick device 2.Above-mentioned frame is provided with the confession brick track 21 be connected with confession brick device 2.Be equipped with the board falling device 23 for collecting the supporting plate 22 for brick device 2 for brick device 2, this board falling device 23 is located at and is arranged with for brick device 2 is corresponding for brick track 21 left end.Above-mentioned first pusher 3 is located in the frame above for brick track 21, and first of this first pusher 3 pushes track 31 and arranges perpendicular to for brick track 21.Above-mentioned crosswise pushing device 5 is located in the frame of the first propelling movement track 31 end, the crosswise pushing track 51 of this crosswise pushing device 5 pushes track 31 perpendicular to first and arranges, and is provided with one between crosswise pushing device 5 with the first pusher 3 for detecting the detecting device 8 that fragment of brick is connected by number and with control system.Above-mentioned detection device 8 comprises a sensor.Detected by fragment of brick quantity by detecting device 8, and feed back to control system, after reaching destination number, control system controls the first pusher 3 and stops pushing, and is separated fragment of brick and starts crosswise pushing device 5.Above-mentioned second pusher 6 is located in the frame of crosswise pushing track 51 end, and second of this second pusher 6 pushes track 61 and arranges perpendicular to crosswise pushing track 51.Above-mentioned rotation platform 4 is located in the frame below the second propelling movement track 61.Above-mentioned support plate 1 can be arranged at transverse shifting be close to rotation platform 4 frame on, the frame on this support plate 1 moving direction is equipped with stack device 7.Above-mentioned pusher includes drive motor, track, guide wheel, gear, tooth bar and pushing plate, tooth bar is fixedly assemblied in the frame of track place, be assemblied in movably on track after drive motor, guide wheel, gear and pushing plate attach together, drive motor driven wheel moves on tooth bar.Above-mentioned rotation platform 4 is driven by rotating machine and the anglec of rotation is set to 90 °.

Above-mentioned board falling device 23 comprises a framework, the upper end of framework is provided with on one, the collection plate case opened wide below, integrate a sidewall upper of plate case as supporting plate 22 entrance, framework is also provided with one and is transported toward lower by supporting plate 22 and to be positioned at the conveying mechanism below collection plate case, this trigger that falls also comprises two and to be positioned at bottom collection plate case and for stopping the shifting board that the supporting plate 22 of collection plate case drops, the side of two shifting boards is all extended towards the inner side bottom collection plate case, opposite side all extends towards the outside bottom collection plate case and is provided with a connecting portion straight up, this connecting portion is articulated on collection plate case lateral wall, this trigger that falls also comprises one and swings to make supporting plate 22 fall into the control mechanism of conveying mechanism from collecting box for control linkage portion.Supporting plate 22 delivers the propelling movement scope that fragment of brick enters the first pusher 3, and after fragment of brick leaves supporting plate 22 completely, supporting plate 22 continues mobile until fall into board falling device 23.

With reference to figure 9 to Figure 13, above-mentioned stack device 7 comprises the jacking system being assemblied in frame, the baffle plate 71 being liftably assemblied in frame and transfer station 72.Above-mentioned transfer station 72 is located at the below of jacking system, and this transfer station 72 comprises 24 rotating transfer rollers 721.The two ends of above-mentioned transfer roller 721 are erected on pedestal 722 respectively.Left end end or the right-hand member end of each above-mentioned transfer roller 721 are provided with driving chain wheel 723, and the transfer roller 721 that driving chain wheel 723 transfer roller 721 of being located at left end and driving chain wheel 723 are located at right-hand member is staggered spaced apart successively.The driving chain (not shown in FIG.) that this pedestal 722 is also equipped with driving motor 724 and is driven by driving motor 724, the lower edge of all above-mentioned driving chain wheels 723 and this driving chain (not shown in FIG.) engaged transmission.

With reference to figure 9 to Figure 13, the grid-like bay-lift 731 that above-mentioned jacking system comprises installation shaft 732, tooth bar, driver train and can embed gap between transfer roller 721.Above-mentioned bay-lift 731 is is integrally connected and composed by longitudinal frame side, connecting strap and horizontal batten, the two ends of horizontal batten are set up in edge under two longitudinal frame side respectively by connecting strap with connecting, space between two adjacent connecting straps can accommodating above-mentioned driving chain wheel 723, and the space between two blocks of adjacent horizontal battens can accommodating above-mentioned transfer roller 721.The Width of above-mentioned horizontal batten is parallel to vertical direction.Space between above-mentioned two adjacent connecting straps is overlooked rectangular.The outside face of two above-mentioned longitudinal frame side front-rear side walls is respectively fitted with two guide wheels.Above-mentioned frame 1 is provided with the fluctuating orbit matched with this guide wheel.Two above-mentioned longitudinal frame side are connected with installation shaft 732 bearing respectively, installation shaft 732 extends longitudinally, the two ends of installation shaft 732 are fixedly equipped with balance gear respectively, and above-mentioned frame lateral wall is provided with the tooth bar matched with four balance gears, and tooth bar extends along lifting direction; Driver train comprises lifting motor, two transmission shafts and four elevating chains, and lifting motor is fixedly assemblied in above-mentioned frame upper surface, and two transmission shafts are fixedly assemblied in the lifting motor left and right sides.Lifting motor drives two above-mentioned drive axis by chain drive-belt.The two ends of transmission shaft are fixedly equipped with lifter wheel respectively; Article four, above-mentioned elevating chain one end is fixedly connected on the rear and front end of two above-mentioned longitudinal frame side upper surfaces respectively, and the other end is set up in frame after walking around above-mentioned lifter wheel.

Embodiment two:

With reference to figure 6, a kind of Intelligent partition piling method of combination, comprises the following steps:

D. on support plate 1, form brick layer C, repeat step c12 time and coordinate support plate 1 ground to move:

Repeat the distance of step c4 rear mobile support plate 1 two fragment of brick length, repeat this action three times, support plate 1 is formed a brick layer C, in brick layer C, be formed with 2 gaps extended longitudinally.

This method can be realized by a kind of Intelligent partition stacker in embodiment one, difference is that the stack device in a kind of Intelligent partition stacker in embodiment one in use only needs to fall one piece of baffle plate 71, and application needs to fall the three pieces of baffle plates 71 matched with the above-mentioned gap extended longitudinally in the present embodiment, the two pieces of baffle plates 71 had more are for the formation of two gaps extended longitudinally of brick layer C.

Embodiment three:

With reference to figure 7, a kind of Intelligent partition piling method of combination, comprises the following steps:

D. on support plate 1, form brick layer D, repeat step c12 time, coordinate support plate 1 ground move and pass through the control of the propelling movement distance longitudinally pushing to support plate 1 from rotation platform 4, support plate 1 is formed a brick layer D, in brick layer D, is formed with 2 gaps extended transversely.

This method can be realized by a kind of Intelligent partition stacker in embodiment one.

Embodiment four:

With reference to figure 8, a kind of Intelligent partition piling method of combination also comprises:

A. by a plurality of be sidelong and line up fragment of brick that a matrix is placed on supporting plate 22 push to counting channel by row, with the bearing of trend of this block thickness for longitudinal direction, with the bearing of trend of this fragment of brick length for transverse direction towards the bearing of trend of block thickness; Transversely push on rotation platform 4 after 9 fragments of brick of arranging continuously front in counting channel are separated with other fragments of brick, then by rotation platform 4 after himself center-point half-twist, then the fragment of brick of 9 on rotation platform 4 arrangement continuously longitudinally being pushed to one can on the support plate 1 of transversely movement;

B. repeat step a tri-times, support plate 1 is formed the fragment of brick that three rows arrange continuously, and the distance of mobile support plate 1 nine pieces of block thickness;

C. transversely push on rotation platform 4 after 15 fragments of brick of arranging continuously front in counting channel being separated with other fragments of brick, the fragment of brick of arranging continuously of 15 on rotation platform 4 is longitudinally pushed on support plate 1, support plate 1 forms brick layer E.

Above are only detailed description of the invention of the present utility model, but design concept of the present utility model is not limited thereto, all changes utilizing this design the utility model to be carried out to unsubstantiality, all should belong to the behavior of invading the utility model protection domain.

Claims

1. an Intelligent partition stacker, comprises frame, for brick device, support plate, the first pusher, rotation platform and control system, it is characterized in that: also comprise the second pusher, crosswise pushing device, stack device and detecting device; Described frame is provided with the confession brick track be connected with confession brick device; Described first pusher is located in the frame above for brick track, and first of this first pusher pushes race orthogonal in arranging for brick track; Described crosswise pushing device is located in the frame of the first propelling movement track end, the crosswise pushing race orthogonal of this crosswise pushing device pushes track in first and arranges, and is provided with one between crosswise pushing device with the first pusher for detecting the detecting device that fragment of brick is connected by number and with control system; Described second pusher is located in the frame of crosswise pushing track end, and second of this second pusher pushes race orthogonal and arranges in crosswise pushing track; Described rotation platform is located in the frame below the second propelling movement track; Described support plate can be arranged at be close in the frame of rotation platform to transverse shifting, and the frame on this support plate moving direction is equipped with stack device.

2. a kind of Intelligent partition according to claim 1 stacker, is characterized in that: described stack device comprises transfer station, lifting mechanism and baffle plate; Described transfer station is located at the below of lifting mechanism, and this transfer station comprises the rotating transfer roller of complex root parallel arrangement; Described lifting mechanism comprises the grid-like bay-lift that can embed gap between transfer roller.

3. a kind of Intelligent partition according to claim 1 stacker, is characterized in that: described rotation platform is driven by rotating machine, and the anglec of rotation that rotation platform rotates at every turn is 90 °.

4. a kind of Intelligent partition according to claim 1 stacker, is characterized in that: described detecting device comprises a sensor.

5. a kind of Intelligent partition according to claim 1 stacker, is characterized in that: also comprise the board falling device for collecting the supporting plate for brick device, and this board falling device is located at and is arranged with for brick device is corresponding for brick track left end.