CN203173506U - Cantilever stack-moving type brick stacking machine - Google Patents
Cantilever stack-moving type brick stacking machine Download PDFInfo
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- CN203173506U CN203173506U CN 201320160397 CN201320160397U CN203173506U CN 203173506 U CN203173506 U CN 203173506U CN 201320160397 CN201320160397 CN 201320160397 CN 201320160397 U CN201320160397 U CN 201320160397U CN 203173506 U CN203173506 U CN 203173506U
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Abstract
A cantilever stack-moving type brick stacking machine comprises a rack (1), a lifting beam (2), a pair of travelling wheels A (3), a pair of travelling wheels B (4), a gear motor A (5), a stack moving mechanism, a brick stacking mechanism and a plate taking mechanism. The brick stacking machine disclosed by the utility model has the advantages of strong universality, capability of being matched with brick making machines of various different models, high degree of automation, simple and convenient operation, and high brick stacking efficiency.
Description
Technical field
The utility model relates to the non-burning brick mechanical field that stacks bricks, and is specifically related to a kind of cantilever and moves the buttress formula machine that stacks bricks.
Background technology
At present, non-burning brickly produce with brick press one plate one plate, every plate brick has supporting plate, then with many plates brick (general 4-6 plate) buttress together, with fork truck it is gone to the stagnant district that changes and places about 20 hours, reach certain set strength, it is in heaps with its piling to go to the district that stacks bricks again, takes out supporting plate and is carrying out maintenance to reaching the requirement of dispatching from the factory, and its weak point is, above-mentioned workflow needs manually to finish the time-consuming effort of taking a lot of work in a large number.
The utility model content
The purpose of this utility model at present non-burning brick be to produce with brick press one plate one plate, every plate brick has supporting plate, buttress together with many plates brick (general 4-6 plate) then, with fork truck it being gone to the stagnant district that changes placed about 20 hours, reach certain set strength, it is in heaps with its piling to go to the district that stacks bricks again, take out supporting plate and carrying out maintenance to reaching the requirement of dispatching from the factory, its weak point is, above-mentioned workflow needs manually to finish in a large number, the deficiency of the time-consuming effort of taking a lot of work, and provide a kind of cantilever to move the buttress formula machine that stacks bricks.
The utility model is by frame, draw-beam, a pair of A road wheel, a pair of B road wheel, the A reducing motor, move the stack machine structure, mechanism and plate fetching machine structure composition stacks bricks, draw-beam is installed on the frame, a pair of A road wheel and a pair of B road wheel are installed on the frame by wheel shaft respectively, the A reducing motor is installed in frame one side, the wheel shaft drive of the road wheel that the power take-off shaft of A reducing motor is corresponding with it links to each other, move the stack machine structure by pedestal, the B reducing motor, a pair of A sprocket wheel and a pair of B sprocket wheel are formed, pedestal is installed on the frame, the B reducing motor is installed on the pedestal, a pair of A sprocket wheel and a pair of B sprocket wheel are installed on the pedestal by wheel shaft respectively, a pair of A sprocket wheel links to each other by chain gear with a pair of B sprocket wheel, the power take-off shaft of B reducing motor links to each other with the wheel shaft drive of a pair of A sprocket wheel, stack bricks mechanism by hydraulic power unit, the A mobile crane, the A support, two hydraulic cylinders, two groups of collets and a pair of side elastic chuck hydraulic power unit 10 are installed on the frame by erecting frame, the A mobile crane is installed on the draw-beam of frame, the lifting rope of A mobile crane links to each other with the A support, two hydraulic cylinders are installed on the A support, two groups of collets are installed in the piston rod two ends of two hydraulic cylinders respectively, a pair of side elastic chuck is installed in A support both sides respectively, a pair of side elastic chuck links to each other by link gear with two groups of collets, the plate fetching machine structure is by the B mobile crane, the B support, a pair of tractive magnet, a pair of plate grapple and a pair of pull back spring composition got, the B mobile crane is installed on the draw-beam of frame, the B support links to each other with steel rope one end of B mobile crane, a pair of tractive magnet is installed in the two ends, top of B support respectively, the a pair of plate grapple of getting is installed in respectively on the B support, the moving head of the magnet of a pair of tractive magnet links with a pair of plate grapple of getting respectively, and the two ends of a pair of pull back spring link to each other with a pair of plate grapple of getting with the B support respectively.
The utility model has the advantages that:
1, the utility model moves the innovation that stack machine is applied on the machine of stacking bricks with conveying-type and establishes;
2, will move stack machine and be combined with the mechanism of stack bricks mechanism and three kinds of difference in functionalitys of plate fetching machine structure and should use workmanship, and finish the innovative design of the everything that the operation that stacks bricks needs;
3, interlocks brick clamp in hydraulic pressure four limits is that collet that side's application force is linked principle of work that four limits do manual work or regulatory function is arranged is applied in the innovative design in the mechanism that stacks bricks;
4, the plate fetching machine structure is to adopt spring return automatic hitch mode to get plate and utilize the tractive magnet pulling force to finish the innovative design of unloading plate automatically;
Highly versatile, can be supporting with various different model brick presss, degree of automation height, easy and simple to handle, the efficient that stacks bricks height.
Description of drawings
Fig. 1 is the utility model structural representation.
The specific embodiment
As shown in Figure 1, the utility model is by frame 1, draw-beam 2, a pair of A road wheel 3, a pair of B road wheel 4, A reducing motor 5, move the stack machine structure, mechanism and plate fetching machine structure composition stacks bricks, draw-beam 2 is installed on the frame 1, a pair of A road wheel 3 and a pair of B road wheel 4 are installed in frame 1 both sides by wheel shaft respectively, A reducing motor 5 is installed on the frame 1, the power take-off shaft of A reducing motor 5 links to each other with the wheel shaft drive of one of them road wheel, move the stack machine structure by pedestal 6, B reducing motor 7, a pair of A sprocket wheel 8 and a pair of B sprocket wheel 9 are formed, pedestal 6 is installed on the frame 1, B reducing motor 7 is installed on the pedestal 6, a pair of A sprocket wheel 8 and a pair of B sprocket wheel 9 are installed on the pedestal 6 by wheel shaft respectively, a pair of A sprocket wheel 8 and a pair of B sprocket wheel 9 link to each other by chain gear, the power take-off shaft of B reducing motor 7 links to each other with the wheel shaft drive of a pair of A sprocket wheel 8, stack bricks mechanism by hydraulic power unit 10, A mobile crane 11, A support 12, two hydraulic cylinders 13, two groups of collets 14 and a pair of side elastic chuck 15 hydraulic power units 10 are installed on the frame 1 by erecting frame, A mobile crane 11 is installed on the draw-beam 2 of frame 1, the lifting rope of A mobile crane 11 links to each other with A support 12, two hydraulic cylinders 13 are installed on the A support 12, two groups of collets 14 are installed in the piston rod two ends (guide rod of two groups of collets 14 links with A support 12 respectively) of two hydraulic cylinders 13 respectively, a pair of side elastic chuck 15 is installed in A support 12 both sides respectively, a pair of side elastic chuck 15 links to each other by link gear 16 with two groups of collets 14, the plate fetching machine structure is by B mobile crane 17, B support 18, a pair of tractive magnet 19, a pair of plate grapple 20 and a pair of pull back spring 21 compositions got, B mobile crane 17 is installed on the draw-beam 2 of frame 1, B support 18 links to each other with steel rope one end of B mobile crane 17, a pair of tractive magnet 19 is installed in the two ends, top of B support 18 respectively, the a pair of plate grapple 20 of getting is installed in respectively on the B support 18, the moving head of the magnet of a pair of tractive magnet 19 links with a pair of plate grapple 20 of getting respectively, and the two ends of a pair of pull back spring 21 link to each other with a pair of plate grapple 20 of getting with B support 18 respectively.
Move stack machine structure mode of operation: fork truck will be with supporting plate piled bricks 22(to see Fig. 1) amplifier moving on the stack machine structure, owing to move and to place many groups (being generally 3 buttress) piled bricks 22 on the stack machine structure simultaneously, start B reducing motor 7, a pair of A sprocket wheel 8 is rotated, driving a pair of B sprocket wheel 8 by chain rotates, the piled bricks 22 that meanwhile drives on the chain moves forward, cross central line until last buttress brick overlaps with the cross central line of draw-beam 2, after last buttress brick sign indicating number is intact, back one buttress brick moves forward to the position of last buttress brick automatically, fork truck constantly will be waited to stack bricks to pile up neatly to go to and move on the stack machine structure, and take back and get supporting plate to the brickmaking scene, so circulation.
Mechanism's method of work stacks bricks: after moving last buttress brick on the stack machine structure and putting in place, restarting A mobile crane 11 moves to and waits to stack bricks accurately position and make brick clamp (A support 12, buttress top, two hydraulic cylinders 13, two groups of collets 14, a pair of side elastic chuck 15 and link gear 16) drop to wait to stack bricks on, the primer fluid pressing system shrinks the piston rod of one group of two hydraulic cylinder 13, two groups of collets 14 of linkage (by link gear 16) and a pair of side elastic chuck 15 shrink will wait the clamping that stacks bricks, reverse operating moves to heap 23 tops that stack bricks with brick then, with the good rise again of brick decline sign indicating number, so cycling gets final product.
Plate fetching machine structure occupation mode: when the mechanism that stacks bricks finished bricks is picked up remove with supporting plate after, start B mobile crane 17, make a pair of plate grapple 20 of getting move to and drop to the vertical midway location of desirable supporting plate, and supporting plate hung up properly, when a pair of inclined-plane gib head of getting on the plate grapple 20 contacts supporting plate, by plate fetching machine structure own wt hook is opened and descending putting in place, a pair of pull back spring 21 pulling force make its return, it is good again the supporting plate that hangs up properly to be risen and moves on the supporting plate heap 24 sign indicating number, restart 19 tractions of a pair of electromagnet and make supporting plate and get plate grapple 20 and separate with supporting plate and rise, so cycling gets final product.
Behind the intact a pile brick of above-mentioned actuation cycle function code, start A reducing motor 5 and make the machine of stacking bricks move to next wait to stack bricks heap position, so circulation.
All programs of machine that stack bricks are all finished by electric electric control system controls.
Claims (1)
1. a cantilever moves the buttress formula machine that stacks bricks, it is characterized in that it is by frame (1), draw-beam (2), a pair of A road wheel (3), a pair of B road wheel (4), A reducing motor (5), move the stack machine structure, mechanism and plate fetching machine structure composition stacks bricks, draw-beam (2) is installed on the frame (1), a pair of A road wheel (3) and a pair of B road wheel (4) are installed in frame (1) both sides by wheel shaft respectively, A reducing motor (5) is installed on the frame (1), the power take-off shaft of A reducing motor (5) links to each other with the wheel shaft drive of one of them road wheel, move the stack machine structure by pedestal (6), B reducing motor (7), a pair of A sprocket wheel (8) and a pair of B sprocket wheel (9) are formed, pedestal (6) is installed on the frame (1), B reducing motor (7) is installed on the pedestal (6), a pair of A sprocket wheel (8) and a pair of B sprocket wheel (9) are installed on the pedestal (6) by wheel shaft respectively, a pair of A sprocket wheel (8) links to each other by chain gear with a pair of B sprocket wheel (9), the power take-off shaft of B reducing motor (7) links to each other with the wheel shaft drive of a pair of A sprocket wheel (8), stack bricks mechanism by hydraulic power unit (10), A mobile crane (11), A support (12), two hydraulic cylinders (13), two groups of collets 14 and a pair of side elastic chuck (15) hydraulic power unit (10) are installed on the frame (1) by erecting frame, A mobile crane (11) is installed on the draw-beam (2) of frame (1), the lifting rope of A mobile crane (11) links to each other with A support (12), two hydraulic cylinders (13) are installed on the A support (12), two groups of collets (14) are installed in the piston rod two ends of two hydraulic cylinders (13) respectively, a pair of side elastic chuck (15) is installed in A support (12) both sides respectively, a pair of side elastic chuck (15) links to each other by link gear (16) with two groups of collets (14), the plate fetching machine structure is by B mobile crane (17), B support (18), a pair of tractive magnet (19), a pair of plate grapple (20) and a pair of pull back spring (21) composition got, B mobile crane (17) is installed on the draw-beam (2) of frame (1), B support (18) links to each other with steel rope one end of B mobile crane (17), a pair of tractive magnet (19) is installed in the two ends, top of B support (18) respectively, the a pair of plate grapple (20) of getting is installed in respectively on the B support (18), the moving head of the magnet of a pair of tractive magnet (19) links with a pair of plate grapple (20) of getting respectively, and the two ends of a pair of pull back spring (21) link to each other with a pair of plate grapple (20) of getting with B support (18) respectively.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN 201320160397 CN203173506U (en) | 2013-04-02 | 2013-04-02 | Cantilever stack-moving type brick stacking machine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN 201320160397 CN203173506U (en) | 2013-04-02 | 2013-04-02 | Cantilever stack-moving type brick stacking machine |
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CN203173506U true CN203173506U (en) | 2013-09-04 |
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CN 201320160397 Expired - Fee Related CN203173506U (en) | 2013-04-02 | 2013-04-02 | Cantilever stack-moving type brick stacking machine |
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Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104176471A (en) * | 2014-08-07 | 2014-12-03 | 山东大学 | Cantilever type automatic loading and unloading device and method for stone plate |
CN104908032A (en) * | 2014-03-10 | 2015-09-16 | 珠海格力电器股份有限公司 | Integrated manipulator structure |
CN105382830A (en) * | 2015-12-03 | 2016-03-09 | 重庆朗正科技有限公司 | Spindle stacking robot |
CN105540245A (en) * | 2016-01-29 | 2016-05-04 | 广西亿品投资有限公司 | Small brick clamp trolley and brick stacker crane with small brick clamp trolley |
WO2016127769A1 (en) * | 2015-02-09 | 2016-08-18 | 张帆 | Rapid automatic loading and stacking machine for container |
CN106004935A (en) * | 2016-06-13 | 2016-10-12 | 费孝锋 | Brick moving trolley for buildings |
CN106185351A (en) * | 2015-05-07 | 2016-12-07 | 李志勇 | Portable place brick stacking machine |
-
2013
- 2013-04-02 CN CN 201320160397 patent/CN203173506U/en not_active Expired - Fee Related
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104908032A (en) * | 2014-03-10 | 2015-09-16 | 珠海格力电器股份有限公司 | Integrated manipulator structure |
CN104176471A (en) * | 2014-08-07 | 2014-12-03 | 山东大学 | Cantilever type automatic loading and unloading device and method for stone plate |
WO2016127769A1 (en) * | 2015-02-09 | 2016-08-18 | 张帆 | Rapid automatic loading and stacking machine for container |
CN106185351A (en) * | 2015-05-07 | 2016-12-07 | 李志勇 | Portable place brick stacking machine |
CN105382830A (en) * | 2015-12-03 | 2016-03-09 | 重庆朗正科技有限公司 | Spindle stacking robot |
CN105540245A (en) * | 2016-01-29 | 2016-05-04 | 广西亿品投资有限公司 | Small brick clamp trolley and brick stacker crane with small brick clamp trolley |
CN106004935A (en) * | 2016-06-13 | 2016-10-12 | 费孝锋 | Brick moving trolley for buildings |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20130904 Termination date: 20180402 |