CN117301001B - Board turning device and method for stone-plastic floor production and processing - Google Patents

Abstract

The invention discloses a turning plate device and a turning plate device method based on stone plastic floor production and processing, and relates to the technical field of stone plastic floor production and processing. After the stone plastic floor is subjected to the plate turning operation, the hydraulic cylinder IV is firstly regulated to drive the deflection supporting bottom plate to ascend, and after the deflection supporting bottom plate is contacted with the bottom of the stone plastic floor, the hydraulic cylinder III is regulated to drive the deflection supporting bottom plate to deflect, so that the deflection supporting bottom plate is in a bonding state with the stone plastic floor, and then the corresponding hydraulic cylinder V is regulated to drive the push plate to push the friction teeth at the outermost side, so that each friction tooth deflects, and the effect of supporting the inclined stone plastic floor by friction in the operation process after the plate turning is improved.

Description

Board turning device and method for stone-plastic floor production and processing

Technical Field

The invention relates to the technical field of stone plastic floor production and processing, in particular to a flap device and a flap method for stone plastic floor production and processing.

Background

The stone-plastic floor board is also called as stone-plastic floor tile, and the normal name is PVC sheet floor board, which is a novel floor decoration material developed by high-quality and high-tech research, adopts natural marble powder to form a solid base layer with high density and high fiber net structure, and is covered with a super-strong wear-resistant polymer PVC wear-resistant layer, and is processed by hundreds of procedures, and the stone-plastic floor board needs to be subjected to panel turnover treatment by a panel turnover device in the production and processing process.

When the existing flap device for the production and processing of the stone plastic floor is used, in order to improve the simplicity of the flap, rotating mechanisms are generally arranged at two ends of the clamping assembly, the clamping assembly is driven to rotate through the rotating mechanisms, so that the stone plastic floor is driven to turn over, however, aiming at a turning angle of 1-179 degrees, a supporting point is not arranged below the stone plastic floor after turning over, the condition that the stone plastic floor easily shakes or falls in the processing process is caused, certain potential safety hazards exist, and the use value of the flap device is reduced.

Disclosure of Invention

The invention discloses a turning plate device based on stone plastic floor production and processing, which aims to solve the technical problems that when the existing turning plate device for stone plastic floor production and processing is used, in order to improve the convenience of turning plates, rotating mechanisms are generally arranged at two ends of a clamping assembly, the clamping assembly is driven to rotate by the rotating mechanisms so as to drive the stone plastic floor to turn over, however, aiming at a turning angle of 1-179 degrees, supporting points are not arranged below the stone plastic floor after turning over, so that the stone plastic floor is easy to shake or fall in the processing process, and a certain potential safety hazard exists.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the utility model provides a board device based on stone is moulded floor production and processing usefulness, includes the operation panel, the equal fixedly connected with in top both ends of operation panel lay the frame, and two lay frame departments and be equipped with same laminating supporting component, laminating supporting component is including deflecting the supporting baseplate, and the top of deflecting the supporting baseplate is opened flutedly, the inside equidistance of recess is connected with the axle that deflects through the bearing, the equal fixedly connected with friction tooth in the outside of every axle that deflects, the equal fixedly connected with pushing piece in the same one side of every friction tooth, the equal fixedly connected with installation piece in four corners of deflecting the supporting baseplate, and the equal fixedly connected with pneumatic cylinder five in one side of every installation piece towards friction tooth, the equal fixedly connected with push pedal of the output of every pneumatic cylinder five, the push pedal contacts with the outside of the friction tooth of limit side.

Through being provided with laminating supporting component, after carrying out stone plastic floor and turning over the board operation, at first adjust the pneumatic cylinder four and drive deflection supporting baseplate and rise, after deflection supporting baseplate and stone plastic floor's bottom contact, adjust the pneumatic cylinder three and drive deflection supporting baseplate and deflect afterwards for deflection supporting baseplate is in the laminating state with stone plastic floor, then adjusts corresponding pneumatic cylinder five and drives the push pedal and promote the friction tooth in the outermost side, make each friction tooth deflect, realize the friction support of the stone plastic floor of slope through this kind of mode, improve its stability in the operation in-process behind the board.

In a preferred scheme, two the bottom inner wall of laying the frame is all fixedly connected with lift rail, and the equal sliding connection in inside of two lift rails has lift slider, the equal fixedly connected with crane in top of two lift sliders, the equal fixedly connected with arbor in top of two cranes, the opposite one side of two arbor is connected with same connecting axle through the bearing, deflection sleeve has been cup jointed in the outside of connecting axle, deflection supporting baseplate fixed connection is in deflection telescopic outside, lay the frame and be close to the bottom inner wall fixedly connected with pneumatic cylinder four of lift rail, the output fixedly connected with of pneumatic cylinder four is in the bottom of crane, the same side fixedly connected with same connecting rod of two cranes, hinged joint has pneumatic cylinder three at the top of connecting rod, the output of pneumatic cylinder three passes through hinged joint in deflection supporting baseplate's bottom.

In a preferred scheme, the operation panel is located the top at two laying frame both ends and all fixedly connected with tip board, and the outside fixedly connected with driving motor second of one of them tip board, driving motor second's output shaft passes through shaft coupling fixedly connected with pivot second, and another tip board is towards one side of pivot second through bearing connection with pivot first.

In a preferred scheme, the opposite sides of the first rotating shaft and the second rotating shaft are fixedly connected with mounting circular plates, the opposite sides of the two mounting circular plates are fixedly connected with air cylinders, and the output ends of the two air cylinders are respectively provided with a side clamping assembly.

Through being provided with side centre gripping subassembly, when carrying out the centre gripping on stone plastic floor, two side grip blocks are moved towards the both sides on stone plastic floor, realize the quick centre gripping on stone plastic floor through the side grip block, in the centre gripping process, the stone is moulded the floor and is extruded pressing spring pole behind the regional friction plate contact for pressing spring pole is in compression state, simultaneously, limit the top and the bottom contact on clamp plate and stone plastic floor, the in-process of contact, pressing spring pole is in compression state equally, in the course of working when stone plastic floor, realize the weakening of vibrations in the course of working through pressing spring pole and pressing spring pole, ensure the stability in the course of working of stone plastic floor.

In a preferred scheme, side centre gripping subassembly includes the side grip block, and side grip block fixed connection in the output of cylinder, and side grip block is close to both sides department and all opens the perforation, and side grip block is located perforation department fixedly connected with backplate, and one side equidistance fixedly connected with of backplate towards side grip block presses the spring rod, and the one end fixedly connected with same regional friction plate of a plurality of pressing the spring rod that are located on the same backplate.

In a preferred scheme, the top and the bottom of side grip block are all fixedly connected with long slide rail, and the both ends of two long slide rails are all fixedly connected with end piece, and two end pieces are towards the equal fixedly connected with pneumatic cylinder two of one side of long slide rail, and the output fixedly connected with of pneumatic cylinder two removes the slider, removes slider sliding connection in the inside of long slide rail, removes slider and face the equidistant fixedly connected with extrusion spring bar of one side of regional friction plate, the one end fixedly connected with same restriction clamp plate of a plurality of extrusion spring bars that are located on the same removal slider.

In a preferred scheme, the outside of pivot one and pivot two all opens and has the location jack, and two tip boards are located pivot one and pivot two outside departments all are equipped with the location reinforcing component, and the location reinforcing component includes annular guide rail, annular guide rail fixed connection in the outside of tip board.

In a preferred scheme, the inside sliding connection of annular guide rail has two rotatory sliders, and the equal fixedly connected with follower in the outside of two rotatory sliders, two follower are towards the equal fixedly connected with pneumatic cylinder one in one side of location jack, the equal fixedly connected with location inserted bar of output of two pneumatic cylinders one, location inserted bar and location jack looks adaptation, the same driven fluted disc of outside fixedly connected with of two rotatory sliders, one side fixedly connected with driving motor one of tip board, the output shaft of driving motor one passes through the shaft coupling fixedly connected with driving shaft, the outside fixedly connected with initiative fluted disc of driving shaft, initiative fluted disc and driven tooth mesh mutually.

Through being provided with location reinforcing component, after driving motor two drives the side grip block and rotates, stone plastic floor turns over the board operation and accomplishes, then start driving motor one, driving motor one drives rotatory slider and rotates in annular guide rail, then with the location inserted bar rotatory to with the same horizon of location jack, adjust the inside that the hydraulic cylinder one-drive location inserted bar inserted the location jack, accomplish the fixed of pivot one and pivot two, and then accomplish the further location reinforcement of stone plastic floor after turning over the board, still further improve the stability in its course of working.

In a preferred scheme, two opposite one side fixedly connected with same fixed axle of laying the frame, and the outside of fixed axle has cup jointed supplementary flitch down, and the outside that supplementary flitch is close to the bottom is through hinged joint has the buffering arc board, and buffering arc board is the outside equidistance fixedly connected with buffering spring rod to the below, buffering spring rod fixedly connected with in the top of supplementary flitch down, the outside fixedly connected with guide vane of buffering arc board towards the top, the top fixedly connected with base that the operation panel is located supplementary flitch below, the top of base is through hinged joint has electric telescopic handle, and electric telescopic handle's output passes through hinged joint in the bottom of supplementary flitch down.

The use method of the flap device for the production and processing of the stone-plastic-based floor comprises the following steps of:

step one: when the stone plastic floor is clamped, the two side clamping plates move towards two sides of the stone plastic floor, the stone plastic floor is clamped rapidly through the side clamping plates, in the clamping process, the pressing spring rods are extruded after the stone plastic floor is contacted with the regional friction plates, so that the pressing spring rods are in a compressed state, meanwhile, the pressing plates are limited to be contacted with the top and the bottom of the stone plastic floor, and in the contact process, the pressing spring rods are in a compressed state, so that the stone plastic floor is clamped;

step two: in the stone plastic floor processing process, if the stone plastic floor needs to be turned over, a driving motor II is started, the driving motor II drives a rotating shaft II to rotate, then the stone plastic floor is driven to turn over by two side clamping plates, and after the turning over is finished, the stone plastic floor is supported at the bottom;

step three: firstly, the hydraulic cylinder IV is regulated to drive the deflection supporting bottom plate to rise, when the deflection supporting bottom plate contacts with the bottom of the stone plastic floor, the hydraulic cylinder III is regulated to drive the deflection supporting bottom plate to deflect, so that the deflection supporting bottom plate and the stone plastic floor are in a bonding state, and then the corresponding hydraulic cylinder V is regulated to drive the push plate to push the friction teeth at the outermost side, so that each friction tooth deflects, and the inclined friction support of the stone plastic floor is realized by the mode.

According to the invention, after the stone plastic floor is subjected to the stone plastic floor turnover operation, the hydraulic cylinder IV is regulated to drive the deflection supporting bottom plate to ascend, and when the deflection supporting bottom plate is contacted with the bottom of the stone plastic floor, the hydraulic cylinder III is regulated to drive the deflection supporting bottom plate to deflect, so that the deflection supporting bottom plate is in a fit state with the stone plastic floor, and then the corresponding hydraulic cylinder V is regulated to drive the push plate to push the outermost friction teeth, so that each friction tooth deflects, and the inclined friction support of the stone plastic floor is realized in the mode, so that the technical effect of stability of the stone plastic floor in the operation process after the turnover is improved.

Drawings

Fig. 1 is a schematic diagram of the overall structure of a panel turnover device for stone-plastic floor production and processing according to the present invention.

Fig. 2 is a top view of the whole structure of the board turning device for stone-plastic floor production and processing.

Fig. 3 is a schematic diagram of a fitting support assembly of a board turning device for stone-plastic floor production and processing according to the present invention.

Fig. 4 is a schematic view of a deflection supporting bottom plate structure of a plate turnover device for stone-plastic floor production and processing according to the present invention.

Fig. 5 is a schematic diagram of a side clamping assembly of a board turnover device for stone-plastic floor production and processing according to the present invention.

Fig. 6 is an enlarged view of the portion a of fig. 5.

Fig. 7 is a schematic diagram of a positioning and reinforcing assembly of a board turning device for stone plastic floor production and processing.

Fig. 8 is a turnover view of the whole structure of fig. 7.

Fig. 9 is a schematic diagram of an auxiliary blanking plate structure of a board turning device for stone-plastic floor production and processing.

In the figure: 1. an operation table; 2. an end plate; 3. a placement frame; 4. a deflector; 5. an auxiliary blanking plate; 6. buffering the arc plate; 7. positioning the reinforcement assembly; 701. an annular guide rail; 702. a follower block; 703. a driven fluted disc; 704. rotating the slide block; 705. driving a first motor; 706. a first hydraulic cylinder; 707. positioning the inserted link; 708. a driving shaft; 709. a driving fluted disc; 8. a first rotating shaft; 9. a side clamping assembly; 901. a side clamping plate; 902. pressing the spring rod; 903. a rear back plate; 904. extruding a spring rod; 905. a regional friction plate; 906. an end block; 907. a second hydraulic cylinder; 908. moving the slide block; 909. a long slide rail; 910. defining a platen; 10. attaching the supporting component; 1001. deflecting the support base plate; 1002. friction teeth; 1003. a shaft plate; 1004. a lifting frame; 1005. a lifting slide block; 1006. a connecting rod; 1007. a hydraulic cylinder III; 1008. a hydraulic cylinder IV; 1009. lifting rails; 1010. a connecting shaft; 1011. a mounting block; 1012. a deflection shaft; 1013. a pushing piece; 1014. a hydraulic cylinder V; 1015. a deflection sleeve; 1016. a push plate; 11. a second rotating shaft; 12. a second driving motor; 13. a fixed shaft; 14. positioning the jack; 15. a cylinder; 16. mounting a circular plate; 17. a buffer spring rod; 18. an electric telescopic rod; 19. and (5) a base.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

When the plate turnover device for stone plastic floor production and processing is used, in order to improve the convenience of plate turnover, rotating mechanisms are generally arranged at two ends of a clamping assembly, and the clamping assembly is driven to rotate by the rotating mechanisms so as to drive the stone plastic floor to turn over, however, aiming at a turning angle of 1-179 degrees, a supporting point is not arranged below the stone plastic floor after the plate turnover, so that the stone plastic floor is easy to shake or fall in the processing process, and a certain potential safety hazard scene exists.

Referring to fig. 1-9, a board turnover device for stone plastic floor production and processing comprises an operation table 1, wherein two ends of the top of the operation table 1 are fixedly connected with a placement frame 3, two placement frames 3 are provided with the same lamination support assembly 10, the lamination support assembly 10 comprises a deflection support base plate 1001, the top of the deflection support base plate 1001 is provided with a groove, deflection shafts 1012 are connected with the inside of the groove at equal intervals through bearings, friction teeth 1002 are fixedly connected with the outer side of each deflection shaft 1012, pushing plates 1013 are fixedly connected with the same side of each friction tooth 1002, four corners of the deflection support base plate 1001 are fixedly connected with mounting blocks 1011, one side of each mounting block 1011 facing the friction tooth 1002 is fixedly connected with a hydraulic cylinder five 1014, the output end of each hydraulic cylinder five 1014 is fixedly connected with a pushing plate 1016, the pushing plate 1016 contacts with the outer side of the friction tooth 1002 at the side, lifting rails 1009 are fixedly connected to the inner walls of the bottoms of the two placement frames 3, lifting sliding blocks 1005 are slidably connected to the inner parts of the two lifting rails 1009, lifting frames 1004 are fixedly connected to the tops of the two lifting sliding blocks 1005, shaft plates 1003 are fixedly connected to the tops of the two lifting frames 1004, one connecting shaft 1010 is connected to the opposite sides of the two shaft plates 1003 through bearings, deflection sleeves 1015 are sleeved on the outer sides of the connecting shafts 1010, deflection supporting bottom plates 1001 are fixedly connected to the outer sides of the deflection sleeves 1015, a hydraulic cylinder IV 1008 is fixedly connected to the inner wall of the bottom of the placement frame 3, which is close to the lifting rails 1009, the output end of the hydraulic cylinder IV 1008 is fixedly connected to the bottom of the lifting frames 1004, one connecting rod 1006 is fixedly connected to the same side of the two lifting frames 1004, the top of the connecting rod 1006 is connected with a hydraulic cylinder III through a hinge, the output of cylinder three 1007 is hinged to the bottom of yaw support base plate 1001.

In a specific application scene, after the stone plastic floor turns over the board operation, at first adjust pneumatic cylinder IV 1008 drive deflection supporting baseplate 1001 rise, after deflection supporting baseplate 1001 contacts with the bottom of stone plastic floor, then adjust pneumatic cylinder III 1007 drive deflection supporting baseplate 1001 deflect for deflection supporting baseplate 1001 is in the laminating state with stone plastic floor, then adjust corresponding pneumatic cylinder V1014 drive push pedal 1016 promote the friction tooth 1002 of outermost, make each friction tooth 1002 deflect, realize the friction support of slope stone plastic floor through this kind of mode, improve its stability in the operation process behind the board.

Specifically, if the stone plastic floor after turning over the board is in the horizontal placement stage, the bottom support of the stone plastic floor can be completed only by adjusting the four 1008 hydraulic cylinders to drive the deflection support bottom plate 1001 to move to the position contacting the stone plastic floor, so that the stability in the processing process of the stone plastic floor is improved.

Referring to fig. 1 and 2, in a preferred embodiment, the top parts of the two ends of the two placement frames 3 of the operation platform 1 are fixedly connected with end plates 2, the outer side of one of the end plates 2 is fixedly connected with a second driving motor 12, the output shaft of the second driving motor 12 is fixedly connected with a second rotating shaft 11 through a coupling, and one side of the other end plate 2 facing the second rotating shaft 11 is connected with a first rotating shaft 8 through a bearing.

Referring to fig. 1, 2, 5 and 6, in a preferred embodiment, opposite sides of the first rotating shaft 8 and the second rotating shaft 11 are fixedly connected with mounting circular plates 16, opposite sides of the two mounting circular plates 16 are fixedly connected with cylinders 15, output ends of the two cylinders 15 are provided with side clamping assemblies 9, each side clamping assembly 9 comprises a side clamping plate 901, the side clamping plates 901 are fixedly connected with output ends of the cylinders 15, perforations are formed in positions, close to two sides, of each side clamping plate 901, each side clamping plate 901 is fixedly connected with a rear back plate 903, pressing spring rods 902 are fixedly connected to one side, facing the side clamping plate 901, of the rear back plate 903 at equal distances, and one end of each pressing spring rod 902 located on the same rear back plate 903 is fixedly connected with the same regional friction plate 905.

Specifically, when the stone plastic floor is clamped, the two side clamping plates 901 move towards two sides of the stone plastic floor, the stone plastic floor is clamped rapidly through the side clamping plates 901, in the clamping process, the pressing spring rod 902 is extruded after the stone plastic floor is contacted with the regional friction plate 905, the pressing spring rod 902 is in a compressed state, meanwhile, the pressing plate 910 is limited to be contacted with the top and the bottom of the stone plastic floor, the pressing spring rod 904 is also in a compressed state in the contact process, and when the stone plastic floor is in the processing process, the vibration is weakened in the processing process through the pressing spring rod 902 and the pressing spring rod 904, so that the stability of the stone plastic floor in the processing process is ensured.

When the part, which is covered by the limiting pressing plate 910, above the stone plastic floor needs to be processed, the second adjusting cylinder 907 drives the limiting rod pressing plate to move towards the position without processing, so as to ensure the normal processing of the stone plastic floor.

In the invention, the top and bottom of the side clamping plate 901 are fixedly connected with long sliding rails 909, two ends of each long sliding rail 909 are fixedly connected with end blocks 906, one side of each end block 906 facing the long sliding rail 909 is fixedly connected with a second hydraulic cylinder 907, the output end of the second hydraulic cylinder 907 is fixedly connected with a movable slide block 908, the movable slide block 908 is slidably connected in the long sliding rail 909, one side of the movable slide block 908 facing the regional friction plate 905 is fixedly connected with a compression spring rod 904 at equal distance, and one end of a plurality of compression spring rods 904 positioned on the same movable slide block 908 is fixedly connected with the same limiting pressing plate 910.

Referring to fig. 1, fig. 2, fig. 7 and fig. 8, in a preferred embodiment, the outer sides of the first rotating shaft 8 and the second rotating shaft 11 are both provided with positioning insertion holes 14, and the outer sides of the first rotating shaft 8 and the second rotating shaft 11 are both provided with positioning reinforcement assemblies 7, each positioning reinforcement assembly 7 comprises an annular guide rail 701, each annular guide rail 701 is fixedly connected to the outer side of the corresponding end plate 2, two rotating sliders 704 are slidably connected to the inner side of each annular guide rail 701, each follower 702 is fixedly connected to a follower block 702 on the outer side of each rotating slider 704, one side of each follower block 702 facing the corresponding positioning insertion hole 14 is fixedly connected with a first hydraulic cylinder 706, the output ends of each first hydraulic cylinder 706 are fixedly connected with positioning insertion rods 707, each positioning insertion rod 707 is matched with the positioning insertion hole 14, each outer side of each rotating slider 704 is fixedly connected with the same driven fluted disc 703, one side of each end plate 2 is fixedly connected with a first driving fluted disc 705, an output shaft of each driving motor 705 is fixedly connected to the outer side of each driving shaft 708 through a coupling, each driving fluted disc 709 is fixedly connected to the outer side of each driving shaft 708 is meshed with a driven fluted disc 709.

Specifically, after the driving motor two 12 drives the side clamping plate 901 to rotate, the stone plastic floor turns over the board operation and is accomplished, then start driving motor one 705, driving motor one 705 drives rotatory slider 704 to rotate in the annular guide rail 701, then with the location inserted bar 707 rotate to with the same horizontal line of location jack 14, adjust the inside that pneumatic cylinder one 706 drove the location inserted bar 707 and insert location jack 14, accomplish the fixed of pivot one 8 and pivot two 11, and then accomplish the further location reinforcement of stone plastic floor after turning over the board, still further improve the stability in its course of working.

Referring to fig. 1, 2 and 9, in a preferred embodiment, the same fixed shaft 13 is fixedly connected to opposite sides of the two placement frames 3, the auxiliary blanking plate 5 is sleeved on the outer side of the fixed shaft 13, the buffer arc plates 6 are connected to the outer sides, close to the bottom ends, of the auxiliary blanking plate 5 through hinges, the buffer spring rods 17 are fixedly connected to the tops of the auxiliary blanking plates 5 at equal intervals, the guide plates 4 are fixedly connected to the outer sides, facing downwards, of the buffer arc plates 6, the base 19 is fixedly connected to the tops of the operation table 1, located below the auxiliary blanking plate 5, of the auxiliary blanking plate 5, the electric telescopic rods 18 are connected to the tops of the base 19 through hinges, and the output ends of the electric telescopic rods 18 are connected to the bottoms of the auxiliary blanking plate 5 through hinges.

It should be noted that, after the processing of the stone plastic floor is completed, the second driving motor 12 drives the side clamping plate 901 to rotate, deflects the side clamping plate 901 to the auxiliary blanking plate 5, then loosens the clamping of the stone plastic floor, pushes the stone plastic floor to move towards the auxiliary blanking plate 5, slides to the lowest side along the auxiliary blanking plate 5, and the staff collects the stone plastic floor to improve the convenience of the blanking of the stone plastic floor.

The use method of the flap device for the production and processing of the stone-plastic-based floor comprises the following steps of:

step one: when the stone plastic floor is clamped, the two side clamping plates 901 move towards the two sides of the stone plastic floor, the stone plastic floor is clamped rapidly through the side clamping plates 901, in the clamping process, the pressing spring rods 902 are extruded after the stone plastic floor is contacted with the regional friction plates 905, so that the pressing spring rods 902 are in a compressed state, meanwhile, the pressing plates 910 are limited to be contacted with the top and the bottom of the stone plastic floor, and in the contact process, the pressing spring rods 904 are also in a compressed state, so that the stone plastic floor is clamped;

step two: in the stone plastic floor processing process, if the stone plastic floor needs to be turned over, a second driving motor 12 is started, the second driving motor 12 drives a second rotating shaft 11 to rotate, then the stone plastic floor is driven to turn over by two side clamping plates 901, and after the turning over is finished, the stone plastic floor is supported at the bottom;

step three: firstly, a hydraulic cylinder IV 1008 is adjusted to drive a deflection supporting bottom plate 1001 to ascend, when the deflection supporting bottom plate 1001 is contacted with the bottom of a stone plastic floor, then a hydraulic cylinder III 1007 is adjusted to drive the deflection supporting bottom plate 1001 to deflect, so that the deflection supporting bottom plate 1001 and the stone plastic floor are in a fitting state, and then a corresponding hydraulic cylinder V1014 is adjusted to drive a push plate 1016 to push the outermost friction teeth 1002, so that each friction tooth 1002 deflects, and the inclined stone plastic floor is supported in a friction manner.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (6)

1. The utility model provides a board device based on stone plastic floor production and processing usefulness, includes operation panel (1), its characterized in that, top both ends of operation panel (1) all fixedly connected with lays frame (3), and two are laid frame (3) department and are equipped with same laminating supporting component (10), laminating supporting component (10) are including deflecting supporting bottom plate (1001), and the top of deflecting supporting bottom plate (1001) is opened flutedly, the inside equidistance of recess is connected with through the bearing and deflects axle (1012), the outside of every axle (1012) all fixedly connected with friction tooth (1002), the same side of every friction tooth (1002) all fixedly connected with pushing piece (1013), the four corners of deflecting supporting bottom plate (1001) all fixedly connected with installation piece (1011), and the one side of every installation piece (1011) towards friction tooth (1002) all fixedly connected with pneumatic cylinder five (1014), the output of every pneumatic cylinder five (1014) all fixedly connected with push pedal (1016), push pedal (1016) are contacted with the outside of limit side friction tooth (1002);

the lifting frames (3) are fixedly connected with lifting rails (1009) on the inner walls of the bottoms of the two placing frames (3), lifting sliding blocks (1005) are slidably connected in the bottoms of the two lifting rails (1009), lifting frames (1004) are fixedly connected to the tops of the two lifting sliding blocks (1005), shaft plates (1003) are fixedly connected to the tops of the two lifting frames (1004), one connecting shaft (1010) is connected to the opposite side of each shaft plate (1003) through a bearing, a deflection sleeve (1015) is sleeved on the outer side of each connecting shaft (1010), a deflection supporting bottom plate (1001) is fixedly connected to the outer side of each deflection sleeve (1015), a hydraulic cylinder four (1008) is fixedly connected to the bottom inner wall, close to the lifting rail (1009), of each placing frame (3) is fixedly connected to the bottom of each lifting frame (1004), one connecting rod (1006) is fixedly connected to the same side of each lifting frame (1004), the top of each connecting rod (1006) is connected to the bottom of each hydraulic cylinder three (1007) through a hinge, and the output end of each hydraulic cylinder three (1007) is connected to the bottom of the deflection supporting bottom plate (1001) through a hinge;

the operation table (1) is positioned at the tops of two ends of the two placement frames (3) and is fixedly connected with end plates (2), the outer side of one end plate (2) is fixedly connected with a driving motor II (12), an output shaft of the driving motor II (12) is fixedly connected with a rotating shaft II (11) through a coupler, and one side, facing the rotating shaft II (11), of the other end plate (2) is connected with a rotating shaft I (8) through a bearing;

the opposite sides of the first rotating shaft (8) and the second rotating shaft (11) are fixedly connected with mounting circular plates (16), the opposite sides of the two mounting circular plates (16) are fixedly connected with air cylinders (15), and the output ends of the two air cylinders (15) are provided with side clamping assemblies (9);

side centre gripping subassembly (9) are including side grip block (901), and side grip block (901) fixed connection is in the output of cylinder (15), side grip block (901) all opens near both sides department has the perforation, side grip block (901) are located perforation department fixedly connected with backplate (903), backplate (903) are towards one side equidistance fixedly connected with of side grip block (901) pressing spring rod (902), a plurality of pressing spring rods (902) that are located on same backplate (903) one end fixedly connected with same regional friction plate (905).

2. The flap device for stone-plastic floor production and processing according to claim 1, wherein the top and the bottom of the side clamping plate (901) are fixedly connected with long sliding rails (909), two ends of the two long sliding rails (909) are fixedly connected with end blocks (906), one side of each end block (906) facing the long sliding rail (909) is fixedly connected with a hydraulic cylinder II (907), the output end of each hydraulic cylinder II (907) is fixedly connected with a movable sliding block (908), the movable sliding blocks (908) are slidably connected in the long sliding rails (909), one side of each movable sliding block (908) facing the regional friction plate (905) is fixedly connected with a pressing spring rod (904) at equal distance, and one end of each pressing spring rod (904) on the same movable sliding block (908) is fixedly connected with the same limiting pressing plate (910).

3. The board turning device for stone plastic floor production and processing according to claim 2, wherein the outer sides of the first rotating shaft (8) and the second rotating shaft (11) are provided with positioning insertion holes (14), the outer sides of the first rotating shaft (8) and the second rotating shaft (11) are provided with positioning and reinforcing components (7), the positioning and reinforcing components (7) comprise annular guide rails (701), and the annular guide rails (701) are fixedly connected to the outer sides of the first end plates (2).

4. The flap device for stone-plastic floor production and processing according to claim 3, wherein the two rotating sliders (704) are slidably connected in the annular guide rail (701), the outer sides of the two rotating sliders (704) are fixedly connected with the first follower blocks (702), one sides of the two follower blocks (702) facing the positioning jack (14) are fixedly connected with the first hydraulic cylinders (706), the output ends of the first hydraulic cylinders (706) are fixedly connected with the positioning inserting rods (707), the positioning inserting rods (707) are matched with the positioning jack (14), the outer sides of the two rotating sliders (704) are fixedly connected with the same driven fluted disc (703), one side of the end plate (2) is fixedly connected with the first driving motor (705), the output shaft of the first driving motor (705) is fixedly connected with the driving shaft (708) through a coupler, the outer sides of the driving shaft (708) are fixedly connected with the driving fluted disc (709), and the driving fluted disc (709) is meshed with the driven tooth.

5. The flap device for stone-plastic floor production and processing according to claim 4, wherein two opposite sides of the placing frames (3) are fixedly connected with the same fixed shaft (13), an auxiliary blanking plate (5) is sleeved on the outer side of the fixed shaft (13), a buffering arc plate (6) is connected to the outer side of the auxiliary blanking plate (5) close to the bottom end through a hinge, buffering spring rods (17) are fixedly connected to the outer side of the buffering arc plate (6) facing downwards at equal intervals, the buffering spring rods (17) are fixedly connected to the top of the auxiliary blanking plate (5), guide plates (4) are fixedly connected to the outer side of the buffering arc plate (6) facing upwards, a base (19) is fixedly connected to the top of the operating table (1) located below the auxiliary blanking plate (5), an electric telescopic rod (18) is connected to the top of the base (19) through a hinge, and the output end of the electric telescopic rod (18) is connected to the bottom of the auxiliary blanking plate (5) through a hinge.

6. A method of using a stone-based floor board for manufacturing and processing, according to claim 5, comprising the steps of:

step one: when the stone plastic floor is clamped, the two side clamping plates (901) move towards the two sides of the stone plastic floor, the stone plastic floor is clamped rapidly through the side clamping plates (901), in the clamping process, after the stone plastic floor is contacted with the regional friction plate (905), the pressing spring rod (902) is extruded, so that the pressing spring rod (902) is in a compressed state, meanwhile, the pressing plate (910) is limited to be contacted with the top and the bottom of the stone plastic floor, and in the contact process, the pressing spring rod (904) is also in a compressed state, so that the stone plastic floor is clamped;

step two: in the stone plastic floor processing process, if the stone plastic floor needs to be turned over, a second driving motor (12) is started, the second driving motor (12) drives a second rotating shaft (11) to rotate, then the stone plastic floor is driven to turn over by two side clamping plates (901), and after the turning over is finished, the stone plastic floor is supported at the bottom;

step three: firstly, a fourth hydraulic cylinder (1008) is adjusted to drive a deflection supporting bottom plate (1001) to ascend, after the deflection supporting bottom plate (1001) is contacted with the bottom of a stone plastic floor, a third hydraulic cylinder (1007) is adjusted to drive the deflection supporting bottom plate (1001) to deflect, so that the deflection supporting bottom plate (1001) is in a fit state with the stone plastic floor, and then a fifth corresponding hydraulic cylinder (1014) is adjusted to drive a push plate (1016) to push the outermost friction teeth (1002), so that each friction tooth (1002) deflects, and the inclined friction support of the stone plastic floor is realized.