CN113275893A - Assembled building board anti-bending correction device - Google Patents

Abstract

The invention belongs to the technical field of building materials, solves the problem that a plate is easy to bend and deform in the prior art, and provides an assembled type anti-bending correcting device for a building plate. The assembled type bending-resistant correcting device for the building board comprises a working box, a conveying mechanism for conveying the material, a rolling mechanism for rolling the material, a punching mechanism for processing the material and a hydraulic mechanism, wherein the conveying mechanism is positioned in a conveying cavity; the outside of work box is equipped with the fixed establishment that is used for the fixed material of location, and fixed establishment and punching chamber intercommunication. The invention enables the bent material to be straightened through the rolling mechanism and prevents the material from being bent and deformed again through the fixing mechanism.

Description

Assembled building board anti-bending correction device

Technical Field

The invention belongs to the technical field of building materials, and particularly relates to an anti-bending correction device for an assembled building board.

Background

The plate is a flat rectangular building material plate with standard size, and in the building industry, the assembled building material plate has wider application, but most of the existing building materials can be bent and deformed before assembly, so that the quality of assembly construction is influenced.

Disclosure of Invention

In view of the above, the invention provides an anti-bending correction device for an assembly type building board, which is used for solving the problem that the quality of building assembly is influenced due to bending deformation of the board in the prior art.

The technical scheme adopted by the invention is as follows:

in a first aspect, the present invention provides an anti-bending and straightening device for fabricated building boards, comprising a work box, wherein the work box comprises: the punching mechanism is positioned in the hydraulic cavity, the conveying cavity is communicated with the rolling cavity, one end of the rolling cavity, far away from the conveying cavity, is communicated with the punching cavity, and the punching cavity is communicated with the hydraulic cavity;

the outside of work box is equipped with the fixed establishment that is used for the fixed material of location, fixed establishment with the chamber intercommunication punches.

As a preferred embodiment of the above assembled building board bending-prevention correcting device, the rolling mechanism includes a first connecting member, a first transmission member, a second transmission member, a first supporting member, and a first power source, the first connecting member is rotatably connected to the first transmission member, the first transmission member is connected to the first power source, the first supporting member is rotatably connected to the second transmission member, and the first transmission member and the second transmission member are symmetrically arranged along the material conveying direction.

As a preferable aspect of the above-described fabricated building board bending prevention and correction device, the punching mechanism includes: the punching box is connected with the telescopic box, a punching assembly is arranged in the punching box, and a telescopic assembly is arranged in the telescopic box.

As a preferred embodiment of the above fabricated building board bending-prevention correction device, the hydraulic mechanism includes a hydraulic tank, a hydraulic rod and a first push plate, the hydraulic tank is connected to the hydraulic rod, the telescopic end of the hydraulic rod is connected to the first push plate, and the first push plate is used for pushing a material located in the punching cavity.

As above-mentioned assembled building panel prevents crooked orthotic devices's preferred scheme, transport mechanism includes the mounting, rotates piece, second connecting piece and third driving medium, the mounting is fixed on the conveying intracavity wall, the mounting is arranged with a plurality of equidistant the second connecting piece is connected, the second connecting piece with rotate a fixed connection, the third driving medium rotates the cover and establishes rotate on the piece.

As a preferable scheme of the above fabricated building board bending-prevention correction device, the fixing mechanism includes a receiving box, a receiving part for receiving materials is placed in the receiving box, and a plurality of first positioning holes are formed in the receiving part.

As the preferred scheme of the anti-bending correction device for the fabricated building board, a sleeve is arranged in the punching box, a limiting part is arranged in the sleeve in a sliding mode, the limiting part deviates from the end face of the sleeve and is connected with a third connecting piece, an elastic piece is sleeved on the third connecting piece, and a resistance piece is fixedly arranged at one end, far away from the limiting part, of the third connecting piece.

As a preferable scheme of the above fabricated building board bending-prevention correcting device, a second power source is arranged at the top of the receiving box, an output end of the second power source is connected with a lifting piece, one end of the lifting piece, which is far away from the second power source, is connected with a baffle, and the baffle is located between the receiving box and the boring cavity.

As a preferable scheme of the above fabricated building board bending-prevention correction device, a second support member is disposed in the punching cavity, a plurality of second positioning holes corresponding to the punching member are formed in the second support member, and a cavity is left below the second support member.

As the preferred scheme of the anti-bending correcting device for the fabricated building board, a material is placed on the receiving piece, the receiving piece is connected with a positioning piece used for fixing the material through the first positioning hole, and one end, far away from the receiving piece, of the positioning piece is connected with a positioning plate.

In conclusion, the beneficial effects of the invention are as follows:

the assembled type building plate bending-prevention correcting device provided by the invention conveys plates to the rolling mechanism through the conveying mechanism, the rolling mechanism rolls the plates to enable the plates to be flat, then the plates are processed through the punching mechanism, finally the receiving box receives the processed plates and positions and fixes the processed plates, and the device enables the deformed and bent plates to be restored to a flat state, and positions and fixes the plates through the fixing mechanism to prevent the plates from being bent and deformed again.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the embodiments of the present invention will be briefly described below, and for those skilled in the art, without any creative effort, other drawings may be obtained according to the drawings, and these drawings are all within the protection scope of the present invention.

FIG. 1 is a schematic structural view of an anti-bending correction device for fabricated building boards in example 1 of the present invention;

FIG. 2 is a schematic structural view of a power transmission manner in a rolling chamber in embodiment 1 of the present invention;

fig. 3 is a schematic structural diagram of positions of a first motor and a second motor on a workbench in embodiment 1 of the present invention;

FIG. 4 is a partially enlarged schematic structural view of a rolling mechanism in embodiment 1 of the present invention;

FIG. 5 is a schematic top view of the conveying mechanism in embodiment 1 of the present invention;

FIG. 6 is an enlarged schematic view of the transfer mechanism in embodiment 1 of the present invention;

FIG. 7 is a schematic structural view of a telescopic assembly in embodiment 1 of the present invention;

FIG. 8 is a schematic top view of a telescopic assembly according to embodiment 1 of the present invention;

fig. 9 is a schematic view of the meshing relationship between the turbine and the drive wheel in embodiment 1 of the present invention;

fig. 10 is a schematic view of the meshing relationship between the worm and the sector wheel in embodiment 1 of the present invention;

FIG. 11 is an enlarged schematic view of a hole-punching mechanism in embodiment 1 of the present invention;

FIG. 12 is a schematic structural view of a fixing mechanism in embodiment 1 of the present invention;

FIG. 13 is a schematic structural view of an automatic plate-taking mechanism in embodiment 2 of the present invention;

fig. 14 is a schematic view of a connection structure of a second push plate and a third push plate in embodiment 2 of the present invention;

fig. 15 is a schematic side view of a slide rail according to embodiment 2 of the present invention.

Parts and numbering in the drawings:

1. a work box; 2. a feed inlet; 3. a transport mechanism; 301. a fixing member; 302. a rotating member; 303. a second connecting member; 304. a third transmission member; 4. a rolling mechanism; 401. a first connecting member; 402. a first transmission member; 403. a sliding plate; 404. a second transmission member; 405. a first support member; 5. a work table; 6. a rolling cavity; 7. a first motor; 8. a second motor; 9. a hydraulic tank; 10. a hydraulic lever; 11. a first limit plate; 12. a first push plate; 13. a cavity; 14. a telescopic box; 15. a telescoping assembly; 1501. a first mounting plate; 1502. a second mounting plate; 1503. a first turbine; 1504. a first sector wheel; 1505. a worm; 1506. a driving wheel; 1507. a second turbine; 1508. a second sector wheel; 1509. a fourth motor; 16. a punching mechanism; 1601. punching a hole box; 1602. a first punch; 1603. a sleeve; 1604. a first limit piece; 1605. an elastic member; 1606. a third connecting member; 1607. a resistance member; 1608. a second rotor; 1609. a second punch; 1610. a first rotor; 1611. a fifth motor; 1612. a driving gear; 1613. a first driven gear; 1614. a second driven gear; 17. punching a hole cavity; 18. a second support member; 19. a second positioning hole; 20. a baffle plate; 21. a steel cord; 22. a winch; 23. a third motor; 24. a motor base; 25. a second limiting member; 26. a receiving cavity; 27. a receiver; 28. a first positioning hole; 29. a belt; 30. positioning a plate; 31. a positioning member; 32. a plate material; 33. pressing a plate; 34. a second push plate; 35. a telescoping member; 36. a slide rail; 37. a pulley; 38. a third push plate; 39. a second limiting plate; 40. a tension spring; 41. a slider; 42. and a fourth connecting piece.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention. It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. In the description of the present invention, it is to be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element. In case of conflict, the embodiments of the present invention and the various features of the embodiments may be combined with each other within the scope of the present invention.

Example 1

Referring to fig. 1 and 2, an embodiment 1 of the present invention discloses an anti-bending correction device for fabricated building boards, including: the working box 1 and the fixed mechanism located outside the working box 1 divide the working box 1 into three cavities of a conveying cavity, a rolling cavity 6 and a punching cavity 17, wherein one end of the conveying cavity is communicated with a discharge hole 2 on the working box 1, the other end of the conveying cavity is communicated with one end of the rolling cavity 6, the other end of the rolling cavity 6 is communicated with one end of the punching cavity 17, the other end of the punching cavity 17 is communicated with the fixed mechanism, the conveying mechanism 3 is arranged in the conveying cavity and used for conveying a plate 32, so that the plate 32 is conveyed into the rolling cavity 6, the rolling mechanism 4 is arranged in the rolling cavity 6 and used for rolling the plate 32 to enable the plate 32 to be straight and unbent, and the punching mechanism 16 is arranged in the punching cavity 17 and used for positioning and punching the plate 32 and providing convenience for fixing the plate 32 by a subsequent fixed mechanism.

In order to facilitate understanding of the structure of the prefabricated building board bending prevention correcting device, the conveying mechanism 3, the rolling mechanism 4, the punching mechanism 16 and the fixing mechanism will now be described separately as follows:

the conveying mechanism 3: the transmission mechanism 3 comprises a fixed part 301, a rotating part 302, a second connecting part 303 and a third transmission part 304, wherein the fixed part 301 is a side plate, the rotating part 302 adopts a rotating shaft, the second connecting part 303 is a convex block, the third transmission part 304 is a roller, one end of the fixed part 301 is fixed at the position of the feeding hole 2, the fixed part 301 is symmetrically arranged at two sides of the conveying direction of the plate 32, a plurality of second connecting parts 303 are arranged and are fixedly and symmetrically connected at equal intervals on two sides of the fixed part 301, the second connecting part 303 and the fixed part 301 adopt an integrally formed structure, so that the connection between the second connecting part 303 and the fixed part 301 is firmer, the rotating part 302 is fixedly connected between the two mutually symmetrical second connecting parts 303, the surface of the rotating part 302 is sleeved with the third transmission part 304, and the third transmission part 304 can rotate on the rotating part 302 by means of the rotation of the third transmission part 304, the sheet 32 is fed into the rolling chamber 6.

And (4) rolling mechanism: the rolling mechanism 4 comprises a first connecting piece 401, a first transmission piece 402, a second transmission piece 404, a first supporting piece 405 and a first power source, the first connecting piece 401 is a connecting shaft, the first transmission piece 402 is a rolling shaft, the second transmission piece 404 is a driven shaft, the first supporting piece 405 is a support, a workbench 5 is arranged in the work box 1, the workbench 5 is divided into an upper part and a lower part through a rolling cavity 6, the lower part of the workbench 5 is fixedly connected with a plurality of the first supporting pieces 405, the first supporting pieces 405 are symmetrically arranged at equal intervals along the conveying direction of the sheet material 32, the first supporting pieces 405 which are symmetrical to each other are rotatably connected with two ends of the second transmission piece 404, so that the sheet material 32 can be conveniently conveyed and rolled on the second transmission piece 404, the bottom wall of the upper part of the workbench 5 is fixedly connected with the plurality of the first connecting pieces 401, the first supporting pieces 405 are symmetrically arranged at equal intervals along the conveying direction of the sheet material 32, a first transmission piece 402 is arranged at one end of the first connecting piece 401 close to the second transmission piece 404, the first transmission piece 402 is rotatably connected with the first connecting piece 401, the first transmission piece 402 corresponds to the second transmission piece 404 one by one, so that the plate 32 can be uniformly pressed and can be stably transported, the effect of enhancing the rolled plate 32 can be achieved by increasing the number of the first transmission pieces 402 and the second transmission pieces 404, reducing the distance between a plurality of the first transmission pieces 402 and reducing the distance between a plurality of the second transmission pieces 404, and the plate 32 is ensured to be in a flat state after passing through the rolling cavity, a sliding plate 403 is arranged on the lower part of the workbench 5, the sliding plate 403 and the second transmission pieces 404 are arranged in a staggered interval manner, and chamfers are arranged at the corners of the sliding plate 403, so that the plate 32 is more stably and smoothly transported by using the chamfers, a first power source is arranged on the outer top of the workbench 5, the first power source comprises a first motor 7, a second motor 8 and a belt 29, the first motor 7 and the second motor 8 are arranged on the outer top of the workbench 5 at intervals, the same belt 29 is sleeved on the output end of the first motor 7 and the output end of the second motor 8, one end, far away from the first motor 7 and the second motor 8, of the belt 29 is sleeved with a first transmission piece 402, the rotation directions and the rotation rates of the first motor 7 and the second motor 8 are consistent, the rotation on the first motor 7 and the second motor 8 is transmitted to the first transmission piece 402 through the belt 29, and the belt 29 is enabled to follow the rotation of the first motor 7, the second motor 8, the first transmission piece 402 and the second transmission piece 404 to convey and roll the plate 32.

The punching mechanism 16: the punching mechanism 16 includes a punching box 1601 and a telescopic box 14, and a telescopic assembly 15 is provided in the telescopic box 14. The telescopic assembly 15 comprises: a first mounting plate 1501, a second mounting plate 1502, a first worm gear 1503, a first sector wheel 1504, a worm 1505, a drive wheel 1506, a second worm gear 1507, a second sector wheel 1508, and a fourth motor 1509. Wherein the both ends of first mounting panel 1501 and the both ends of second mounting panel 1502 are all fixed on two inside walls of expansion box 14, and just first mounting panel 1501 and second mounting panel 1502 are setting from top to bottom, are located same vertical plane. Through holes for the worm 1505 to slide up and down are formed in the middle of the first mounting plate 1501 and the middle of the second mounting plate 1502. The worm 1505 is sleeved in the through hole and can slide up and down, and the through hole limits the inclination of the worm 1505, so that the worm 1505 cannot be kept in a vertical state. The worm 1505 is divided into a smooth portion and a threaded portion, the diameter of the smooth portion is slightly smaller than that of the through hole, the diameter of the threaded portion is larger than that of the through hole, the worm 1505 is limited, and the worm 1505 is prevented from completely sliding out of the through hole. A fourth motor 1509 is further installed on the inner wall of the bellows 14, and the direction of the output end of the fourth motor 1509 is perpendicular to the moving direction of the worm 1505. The output end of the fourth motor 1509 is fixedly connected with the driving wheel 1506 and is used for driving the driving wheel 1506 to rotate. The bellows 14 is further provided with two mounting shafts, which are respectively located on both sides of the worm 1505, and on which a first worm wheel 1503 and a second worm wheel 1507 are respectively rotatably connected, the first worm wheel 1503 and the second worm wheel 1507 are respectively located on both sides of the drive pulley 1506 and are both in gear engagement with the drive pulley 1506, and when the drive pulley 1506 rotates, the first worm wheel 1503 and the second worm wheel 1507 respectively rotate in opposite directions. The first turbine 1503 is fixedly provided with a first sector wheel 1504, and the first turbine 1503 and the first sector wheel 1504 are coaxially arranged, that is, the first turbine 1503 can drive the first sector wheel 1504 to synchronously rotate. Similarly, a second sector wheel 1508 is fixedly mounted on the second turbine 1507, and the second turbine 1507 and the second sector wheel 1508 are coaxially mounted, that is, the second turbine 1507 can drive the second sector wheel 1508 to rotate synchronously. Both the first 1504 and second 1508 sector wheels may be meshed with a worm 1505. The engagement site of the first sector wheel 1504 is oriented in the same direction as the initial orientation of the engagement site of the second sector wheel 1508 when installed, i.e., to ensure that the engagement site of the second sector wheel 1508 faces away from the worm 1505 when the first sector wheel 1504 is engaged with the worm 1505; when the second sector wheel 1508 meshes with the worm 1505, the meshing area of the first sector wheel 1504 faces away from the worm 1505. When the fourth motor 1509 rotates, the driving wheel 1506 is driven to rotate, the driving wheel 1506 simultaneously drives the first turbine 1503 and the second turbine 1507 to rotate, the first sector wheel 1504 on the first turbine 1503 rotates synchronously, and then the worm 1505 is driven to move, and the second sector wheel 1508 on the second turbine 1507 rotates synchronously in a direction away from the worm 1505; when the second sector wheel 1508 meshes with the worm 1505, the worm 1505 is driven to move in the opposite direction of the movement of the worm with the first sector wheel 1504, reciprocating motion can be realized without changing the rotation direction of the motor, and one end of the worm 1505 is connected with the punching box 1601 to control the up-and-down movement of the punching box 1601. Meanwhile, the diameter of the driving wheel 1506 is smaller than the diameters of the first turbine 1503 and the second turbine 1507, so that the turbine is prevented from rotating too fast, reciprocating motion is too fast, and accurate punching cannot be performed. A fifth motor 1611 is mounted on the top wall of the punching box 1601, and an output end of the fifth motor 1611 is fixedly connected with a driving gear 1612. Two first punching assemblies and two second punching assemblies are arranged in the punching box 1601, wherein the first punching assemblies and the second punching assemblies are identical in structure, and punching positions of the four punching assemblies respectively correspond to four corners of a material. The first punching assembly comprises a first rotor 1610 arranged on the inner bottom wall of the punching box 1601, the second punching assembly comprises a second rotor 1608 arranged on the inner bottom wall of the punching box 1601, one end of a rotating shaft in the first rotor 1610 penetrates through the bottom of the punching box 1601 and extends to the outside of the punching box 1601, the other end is connected with a first driven gear 1613, and the first driven gear 1613 is meshed with a driving gear 1612; one end of the rotating shaft of the second rotor 1608 penetrates through the bottom of the punching box 1601 and extends to the outside of the punching box 1601, and the other end is connected with a second driven gear 1614, and the second driven gear 1614 is meshed with the driving gear 1612. A first punching member 1602 is connected to one end of the rotating shaft of the first rotor 1610, which is located outside the punching box 1601, a second punching member 1609 is connected to one end of the rotating shaft of the second rotor 1608, which is located outside the punching box 1601, and both the first punching member 1602 and the second punching member 1609 employ drills. A sleeve 1603 is further installed in the middle of the inner bottom wall of the punching box 1601, a first limiting member 1604 is arranged inside the sleeve 1603, the first limiting member 1604 adopts a limiting block and can slide up and down inside the sleeve 1603, a third connecting member 1606 is connected to the end face, away from the sleeve 1603, of the first limiting member 1604, the third connecting member 1606 adopts a connecting rod, one end, away from the first limiting member 1604, of the third connecting member 1606 penetrates through the bottom of the punching box 1601 and extends into the punching cavity 17, an elastic member 1605 is sleeved on the outer surface of the third connecting member 1606, the elastic member 1605 is a return spring, a resistance member 1607 is connected to one end, away from the first limiting member 1604, of the third connecting member 1606, the resistance member 1607 is a resistance plate, and the third connecting member 1606, the resistance member 1607, the elastic member 1605, the first limiting member 1604 and the sleeve 1603 are arranged to make use the resistance member 1607 to abut against the plate 32 when the punching of the punching box 1602 finishes preparation for returning, the plate 32 is prevented from returning along with the punch 1602, and the length of the third connecting member 1606 is equal to the length of the punch 1602, so that the resistance 1607 can still contact the plate 32 when the punch 1602 is separated from the plate 32, so that the plate 32 is supported without following the punch 1602.

A fixing mechanism: the fixing mechanism comprises a receiving box provided with a receiving cavity 26, a receiving part 27 is arranged in the receiving cavity 26, the receiving part 27 is a bottom plate, the receiving part 27 can be drawn out from the receiving cavity 26, when a sufficient amount of sheet materials 32 processed by the rolling mechanism 4 and the punching mechanism 16 are placed above the receiving part 27, the receiving part 27 and the sheet materials 32 on the receiving part 27 can be drawn out from the receiving cavity 26, first positioning holes 28 are respectively arranged at four corners of the receiving part 27, the first positioning holes 28 correspond to the positions of the holes drilled by the punching mechanism 16 on the sheet materials 32 in a one-to-one mode, positioning parts 31 are arranged at the four corners of the receiving part 27 through the holes on the sheet materials 32 and the first positioning holes 28 in sequence, the positioning parts 31 adopt positioning columns, threads are respectively arranged at two ends of the positioning parts 31, internal threads are arranged on the inner surfaces of the first positioning holes 28, and the positioning parts 31 are connected with the first positioning holes 28 through the threads, the positioning plate 30 is in threaded connection with one end of the positioning piece 31 far away from the first positioning hole 27, and the four corners of the plurality of stacked plates 32 are fixed through the positioning piece 31, the positioning plate 30 and the receiving piece 27, so that the bending prevention effect of the plates 32 can be better realized.

By arranging the telescopic assembly 15 capable of automatically performing reciprocating motion, and calculating and determining the relation between the number of turns of the motor and the displacement of the worm for moving according to the meshing relation among the worm 1505, the turbine and the driving wheel, the rotating speed and the number of turns of the related motor can be set in advance, full-automatic accurate punching can be achieved, and the problem that when the motor and the lead screw are adopted for telescopic motion, the forward and reverse rotation of the motor needs to be controlled every time when the motor and the lead screw return, inconvenience is caused, and meanwhile, the frequent forward and reverse rotation of the motor has an influence on the service life of the motor is avoided; utilize same motor and driving gear 1612 to control first punching subassembly and second punching subassembly through the setting, guarantee that the real-time synchronization of first punching subassembly and second punching subassembly, guarantee that drilling depth is the same, different power supply control different punching subassemblies can not appear, certain hole that asynchronous caused has been got through, and certain hole has not reached the standard yet.

Specifically, still be equipped with hydraulic pressure mechanism in the inside of work box 1, hydraulic pressure mechanism is located inside 5, and in the below of rolling chamber 6, this hydraulic pressure mechanism includes hydraulic pressure case 9, hydraulic stem 10 and first push pedal 12, hydraulic pressure case 9 is connected with the one end of hydraulic stem 10, and the flexible of control hydraulic stem 10 is connected with first push pedal 12 in the one end that hydraulic stem 10 kept away from hydraulic pressure case 9 for promote first push pedal 12 horizontal migration, this first push pedal 12 can enter into the chamber 17 that punches under the promotion of hydraulic stem 10, promotes the panel 32 that has accomplished the punching, pushes it into the outside receiving chamber 26 of work box 1.

Specifically, a second supporting member 18 is arranged inside the punching cavity 17, the second supporting member 18 is a supporting plate, and the second supporting member 18 and the bottom surface of the first pushing plate 12 are on the same horizontal plane, so that the first pushing plate 12 can slide on the second supporting member 18.

Specifically, the second positioning holes 19 are formed at four corners of the second supporting member 18, the second positioning holes 19 correspond to the punching members 1602, a cavity 13 is further formed below the second supporting member 18, the second positioning holes 19 corresponding to the punching members 1602 are formed, punching of the plate 32 is facilitated, and the cavity 13 is formed, so that the punching members 1602 can be prevented from damaging the bottom wall of the work box 1.

Specifically, still be equipped with first limiting plate 11 in hydraulic pressure mechanism, first limiting plate 11 cover is established and is served in the flexible of hydraulic stem 10, and the upper and lower both ends of first limiting plate 11 are fixed on the inner wall of workstation 5, have limiting displacement to first push pedal 12.

Specifically, a motor seat 24 is further arranged at the top of the receiving box, a third motor 23 is arranged on the motor seat 24, an output end of the third motor 23 is connected with a winch 22, a steel rope 21 is wound on the winch 22, the other end of the steel rope 21 is connected with a baffle 20, the baffle 20 is positioned between the receiving box and the punching cavity 17 and used for sealing one end of the punching cavity 17, which is used for sending out the plate 32, so as to avoid the plate 32 from falling off or flying out scraps in punching, a second limiting part 25 is further arranged at the top of the receiving box, the second limiting part 25 is tightly attached to the side surface of the baffle 20, when the punching is completed, the third motor 23 is started to drive the winch 22 to rotate, the steel rope 21 is wound on the winch 22, so that the baffle 20 is lifted upwards, the plate 32 can be taken out of the working box 1, and the left-right swinging is avoided from occurring when the baffle 20 is lifted too high through the limiting of the second limiting part 25, causing collision damage to the work box 1.

The working principle of the assembled building board bending-prevention correcting device in the embodiment 1 of the invention is as follows:

when the plate rolling machine works, firstly, a plate 32 needing to be straightened is manually put on the conveying mechanism 3 from the feeding hole 2 of the working box 1, the conveying mechanism 3 conveys the plate 32, when the plate 32 is conveyed to the rolling cavity 6, the rolling mechanism 4 rolls the plate 32 to enable the plate 32 to be straightened, the rolling mechanism 4 has a conveying function on the plate 32 when rolling the plate 32, when the plate 32 is rolled, the plate 32 is conveyed into the rolling cavity 17 in a smooth manner, the plate 32 falls onto the second supporting piece 18, the fourth motor 1509 is started to drive the driving wheel 1506 to rotate, so that the first turbine 1503 or the second turbine 1507 is driven to rotate, the first turbine 1503 rotates to drive the first sector wheel 1504, the second turbine 1507 rotates to drive the second sector wheel 1508, one sector wheel drives the worm 1505 to move downwards, and the other sector wheel is far away from the worm 1505, the worm 1505 moves downwards to push the punching box 1601 to descend, and simultaneously the fifth 1611 motor inside the punching box 1601 is also started, the driving gear 1612 drives the first driven gear 1613 and the second driven gear 1614 to rotate synchronously, and then drives the first rotor 1608 and the second rotor 1609 to rotate, so that the first punching piece 1602 and the second punching piece 1609 rotate synchronously, the rotation speed of the first punching piece 1602 and the second punching piece 1609 is ensured to be the same, the punching speed is the same, after punching is completed, the worm 1605 rises, the punching box 1601 is pulled to rise, the rotation speed of the motor can be accurately set according to the rising and falling distance and the rotation number of the gear and the motor, only the opening and closing of the motor are controlled, the whole automatic reciprocating motion and the punching speed can be ensured to be synchronous, equipment which needs to control the punching box 1601 to move up and down at any time does not need to be added, when the punching box 1601 rises, when the punching member 1602 is separated from the plate 32, the resistance member 1607 will continue to press the plate 32 to prevent the plate 32 from rising along with the punching member 1602, after the punching is completed, the third motor 23 will be started to drive the winch 22 to rotate and wind the steel cable 21, the baffle 20 will be lifted upwards, the hydraulic tank 9 will be started again to control the hydraulic rod 10 to extend and retract, so that the first pushing plate 12 will push the punched plate 32 to the receiving cavity 26, the plate 32 will drop onto the receiving member 27, when a sufficient amount of plate 32 is stacked on the receiving member 27, the receiving member 27 will be taken out from the receiving tank, the first positioning hole 28 on the receiving member 27 will be aligned with the punched hole on the plate 32, so that the positioning member 31 passes through the plate 32 and the first positioning hole 28 in sequence, and the positioning member 31 is screwed with the first positioning hole 28 to position and fix the plate 32 in the horizontal direction, and the positioning member 31 is screwed on the top of the plate 31 to position and fix the plate 32 in the vertical direction, the stacked plates 32 are clamped and positioned, and the effect of preventing the plates 32 from being bent again is achieved.

Example 2

Referring to fig. 3 to 4, the fabricated building board bending-prevention correcting device of embodiment 2 of the present invention is improved based on embodiment 1. Specifically, the anti-bending correction device further comprises an automatic plate taking mechanism, the automatic plate taking mechanism comprises a pressing plate 33, the pressing plate 33 is arranged inside the receiving cavity 26, a plurality of slide rails 36 which are arranged at equal intervals along the width direction of the receiving cavity 26 are arranged on the inner top wall of the receiving cavity 26, a slide block 41 is arranged in each slide rail 36, a pulley 37 is connected to the bottom of each slide block 41, each slide block 41 is slidably connected with each slide rail 36 through the corresponding pulley 37, a fourth connecting piece 42 is further connected to the bottom of each slide block 41, each fourth connecting piece 42 can swing at the bottom of each slide block 41, each fourth connecting piece 42 can be directly hinged, one end, far away from each slide block 41, of each fourth connecting piece 42 is connected with the pressing plate 33, one end, far away from each fourth connecting piece 42, of each pressing plate 33 is movably connected with the bottom end of the baffle plate 20, when the baffle plate 20 is lifted upwards, the pressing plate 33 is changed from an inclined state to a horizontal state along with the lifting of the baffle plate 20, similarly, when the baffle 20 descends, the pressing plate 33 changes from a horizontal state to an inclined state along with the descending of the baffle 20, when the baffle 20 is in a state of closing the punching cavity 17, the bottom end of the baffle 20 and the second supporting member 18 are at the same horizontal height, an extensible member 35 is arranged in the cavity 13, the extensible member 35 is a hydraulic jack, the extensible end of the extensible member 35 is connected with a second push plate 34, a third push plate 38 is sleeved in the second push plate 34, the lower end of the third push plate 38 is also connected with a second limiting plate 39, the end face of the second limiting plate 39, which is far away from the third push plate 38, is connected with an extensible spring 40, the other end of the extensible spring 40 is fixedly connected with the inner bottom wall of the second push plate 34, when the second push plate 34 is located in the cavity 13, the extensible spring 40 is always in a compressed state, the third push plate 38 is retracted inside the second push plate 34, and the punching mechanism finishes punching, when the plate 32 needs to be sent to the receiving cavity 26, the third motor 23 is started, the baffle 20 is lifted upwards through the cooperation of the winch 22 and the steel rope 21, the pressing plate 33 is gradually changed from the inclined state to the horizontal state while the baffle 20 is lifted, and is positioned at the top in the receiving cavity 26, the telescopic member 35 is started again, and through an external control program, the telescopic member 35 is controlled to stretch at a constant speed, the second pushing plate 34 is sent to the inside of the receiving cavity 26, when the second pushing plate 34 reaches the receiving cavity 26, the space is enlarged, the third pushing plate 38 is popped out from the second pushing plate 34 under the elastic force of the deformation recovery of the telescopic spring 40, but the limit of the second limiting plate 39 is provided, so that the third pushing plate 38 cannot be completely separated from the second pushing plate 34, the second pushing plate 34 pushes the receiving part 27 and the plate 32 placed on the receiving part 27 to move together to the outside of the receiving cavity 26, and the overlapped plate 32 exceeds the height of the, the third push plate 38 can stabilize the plate 32 beyond the part, so as to prevent the plate from falling due to inertia when just starting, after the part of work is completed, the third motor 23 is controlled to lower the baffle 20, in the process of lowering the baffle 20, the press plate 33 is changed from a horizontal state to an inclined state along with the lowering of the baffle 20, the telescopic member 35 is controlled to contract, the second push plate 34 moves towards the direction of the telescopic member 35, in the moving process, the third push plate 38 is in contact with the press plate 33, an inclined angle is arranged at the top of the third push plate 38, the inclined angle is matched with the inclined angle of the press plate 33, so that the third push plate 38 can better move along with the inclined angle of the press plate 33, in the moving process, the third push plate 38 can gradually compress the telescopic spring 40 to slowly contract into the second push plate 34, when the second push plate 34 reaches the cavity 13, because the bottom end of the press plate 33 is at the same horizontal height as the bottom end of the baffle 20, therefore, when the second pushing plate 34 reaches the cavity 13, the height of the second pushing plate 34 and the height of the third pushing plate 38 after contraction are equal to the height of the cavity 13, the second pushing plate 34 can smoothly return to the cavity 13, the receiver 27 and the plate overlapped on the receiver 27 can be automatically pushed to the outside of the receiving cavity 26, the second pushing plate 34 can also be automatically retracted into the cavity 13, repeated circulation is achieved, automation at a constant speed is achieved, the situation that when the receiver 27 and the plate 32 are manually pulled out from the receiving cavity 26, the situation that the pulling-out speed is uneven, the plate 32 overlapped above the receiver 32 can fall off is avoided, and some plates 32 for construction are large, time and labor are wasted, and the labor cost is high.

Embodiment 2 the rest of the structure and the operation principle are the same as those of embodiment 1.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (10)

1. An assembled building panel prevents crooked orthotic devices, includes the work box, its characterized in that, the work box includes: the punching mechanism is positioned in the hydraulic cavity, the conveying cavity is communicated with the rolling cavity, one end of the rolling cavity, far away from the conveying cavity, is communicated with the punching cavity, and the punching cavity is communicated with the hydraulic cavity;

the outside of work box is equipped with the fixed establishment that is used for the fixed material of location, fixed establishment with the chamber intercommunication punches.

2. The anti-buckling correcting device of an assembled building board as claimed in claim 1, wherein the rolling mechanism comprises a first connecting member, a first transmission member, a second supporting member and a first power source, the first connecting member is rotatably connected with the first transmission member, the first transmission member is connected with the first power source, the second supporting member is rotatably connected with the second transmission member, and the first transmission member and the second transmission member are symmetrically arranged along the material conveying direction.

3. The fabricated building panel bend-preventing correction device of claim 1, wherein the hole punching mechanism comprises: the punching box is connected with the telescopic box, a punching assembly is arranged in the punching box, and a telescopic assembly is arranged in the telescopic box.

4. The fabricated building board anti-bending correction device of claim 1, wherein the hydraulic mechanism comprises a hydraulic tank, a hydraulic rod and a first push plate, the hydraulic tank is connected with the hydraulic rod, the telescopic end of the hydraulic rod is connected with the first push plate, and the first push plate is used for pushing the material in the punching cavity.

5. The fabricated building board bending-resistant correcting device as claimed in claim 1, wherein the transmission mechanism comprises a fixing member, a rotating member, a second connecting member and a third transmission member, the fixing member is fixed on the inner wall of the transmission chamber, the fixing member is connected with the plurality of second connecting members arranged at equal intervals, the second connecting member is fixedly connected with the rotating member, and the third transmission member is rotatably sleeved on the rotating member.

6. The fabricated building panel bend-preventing brace of claim 1, wherein the securing mechanism includes a receiving box, a receiving member disposed in the receiving box for receiving the material, the receiving member defining a plurality of first positioning holes.

7. The anti-bending correction device for the assembled building boards as claimed in claim 3, wherein a sleeve is arranged in the punching box, a limiting member is slidably arranged in the sleeve, a third connecting member is connected to an end surface of the limiting member, which faces away from the sleeve, an elastic member is sleeved on the third connecting member, and a resistance member is fixedly arranged at one end of the third connecting member, which is far away from the limiting member.

8. The fabricated building board bending-resistant correcting device of claim 6, wherein a second power source is arranged at the top of the receiving box, a lifting member is connected to an output end of the second power source, a baffle is connected to one end of the lifting member far away from the second power source, and the baffle is located between the receiving box and the punching cavity.

9. The anti-bowing correction device according to claim 3, wherein a second supporting member is disposed in the punching cavity, the second supporting member is provided with a plurality of second positioning holes corresponding to the punching member, and a cavity is left below the second supporting member.

10. The fabricated building board bending-resistant correcting device is characterized in that a material is placed on the receiving piece, a positioning piece used for fixing the material is connected to the receiving piece through the first positioning hole, and a positioning plate is connected to one end, far away from the receiving piece, of the positioning piece.

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