CN115870840B

CN115870840B - Driving and controlling method of basalt reinforced plastic plate forming edge trimming device

Info

Publication number: CN115870840B
Application number: CN202310161372.1A
Authority: CN
Inventors: 王先刚; 杨柳; 张文状; 瞿圣添
Original assignee: Sichuan Juyuan Basalt Fiber Technology Co ltd
Current assignee: Sichuan Juyuan Basalt Fiber Technology Co ltd
Priority date: 2023-02-24
Filing date: 2023-02-24
Publication date: 2023-06-27
Anticipated expiration: 2043-02-24
Also published as: CN115870840A

Abstract

The invention relates to the technical field of plate edging, and discloses a driving and controlling method of a basalt reinforced plastic plate forming edge trimming device, which comprises a workbench for installing components and a conveyor for conveying plastic plates, wherein the conveyor is positioned on the center line of the top of the workbench, three groups of displacement assemblies symmetrically distributed on two sides of the conveyor are arranged on the workbench, and the three groups of displacement assemblies are divided into a front position, a middle position and a rear position. According to the driving and controlling method of the basalt reinforced plastic plate forming edge trimming device, a plastic plate is conveyed by a conveyor, the position of the plastic plate is adjusted through a guide piece, the plastic plate is pressed on the conveyor under the extrusion of an extrusion conveying assembly, shaking of the plastic plate is avoided, the plastic plate is guided out along with the conveyor, two sides of the plastic plate are polished through an edging assembly, finally the plastic plate moves to the tail end along with the conveyor, the rotation degree of the plastic plate is adjusted through a reversing assembly, and the plastic plate is put back into the conveyor for polishing on the other two sides.

Description

Driving and controlling method of basalt reinforced plastic plate forming edge trimming device

Technical Field

The invention relates to the technical field of plate edging, in particular to a driving and controlling method of a basalt reinforced plastic plate forming edge trimming device.

Background

Basalt is a natural, hard, dark brown to black volcanic igneous rock. It is the most common rock type in the crust. It originates several hundred kilometers deep below the earth's surface as molten magma. Common volcanic stones are widely distributed in different areas of the earth. Basalt is widely used in industry as a wear, abrasion and chemical corrosion resistant material. In recent years, a novel fiber reinforced plastic FRP composite material called basalt fiber reinforced plastic (BFRP for short in English) is developed. The material is characterized by having a number of excellent functions such as a high strength to weight ratio, low density and excellent corrosion and fatigue resistance. At present, the material also expands new due ways in the field of civil structure. Physical test results show that basalt is used in the steel bars, and the ultimate tensile strength of the basalt is 4 times higher than that of the traditional steel bars.

After the basalt reinforced plastic plate is cut and molded, in order to remove edges and corners, the edges of the basalt reinforced plastic plate can be polished through edge polishing equipment, but the plastic plate is fixed by a clamp, other polishing surfaces are limited in the polishing process, so that the plastic plate is required to be readjusted to be clamped, polishing can be continued, operations such as feeding, blanking and adjusting the position of the plastic plate are required to be repeated, the operation is complicated, the defect of polishing efficiency is caused, and a driving and controlling method of the basalt reinforced plastic plate molding edge trimming device is provided for the problem.

Disclosure of Invention

Aiming at the defects existing in the prior art, the invention provides a driving and controlling method of a basalt reinforced plastic plate forming edge trimming device.

The invention provides the following technical scheme: the utility model provides a basalt reinforced plastic board shaping edge trimming device, includes the workstation that is used for installing parts and is used for carrying the conveyer of plastics board, and the conveyer is located on the central line at workstation top, its characterized in that: three groups of displacement assemblies symmetrically distributed on two sides of the conveyor are arranged on the workbench, the three groups of displacement assemblies are divided into a front position, a middle position and a rear position, guide pieces for adjusting the positions of the plastic plates are respectively arranged at the front end and the rear end of the displacement assemblies, and edging assemblies for polishing the edges of the plastic plates are arranged at the middle end of the displacement assemblies;

the workbench is provided with an extrusion conveying assembly for compacting the plastic plate on the workbench, and the extrusion conveying assembly is positioned at the middle end of the displacement assembly;

the tail end of the workbench is provided with a reversing assembly, the reversing assembly comprises a steering mechanism for reversing a plastic plate and a supporting plate provided with the steering mechanism, and an air cylinder for adjusting the supporting plate to slide up and down is arranged on the supporting plate;

the steering mechanism comprises a plurality of groups of vacuum chucks for adsorbing the plastic plates and discs for installing the vacuum chucks, and a servo motor for driving the gears to rotate is installed at the top end of the supporting plate;

the head end and the tail end of the conveyor are provided with infrared photoelectric detectors, and the workbench is provided with a control panel for inputting the size of the plastic plate;

the specific driving and controlling method comprises the following steps:

and in the first link, when the infrared photoelectric detector at the head end of the conveyor is triggered, the equipment is operated as follows:

firstly, the displacement assemblies at the front end and the rear end reciprocally drive the guide piece according to the length dimension input by the control panel to adjust the position of the plastic plate on the conveyor;

then, the extrusion conveying assembly moves downwards and the conveyor compresses the plastic plate and conveys the plastic plate, and the middle end of the displacement assembly adjusts the position of the upper edging assembly, so that the two edging assemblies trim the two sides of the plastic plate;

and step two, when the infrared photoelectric detector at the tail end of the conveyor is triggered, the equipment is operated as follows:

firstly, a cylinder pushes a supporting plate to move downwards, a vacuum chuck on a disc is contacted with a plastic plate and is adsorbed, then the cylinder is retracted to drive the disc and the vacuum chuck to reset upwards, the plastic plate is driven to ascend into the air, the disc is rotated by 90 degrees under the driving of a servo motor to drive the adsorbed plastic plate to finish direction conversion, finally the cylinder drives the vacuum chuck and the plastic plate adsorbed by the vacuum chuck to move to the position of a conveyor, the vacuum chuck releases the adsorption effect on the plastic plate, and the cylinder drives the disc and the vacuum chuck to reset upwards;

then, the conveyor reversely conducts the plastic plate after the inversion;

finally, according to the width dimension of the input dimension of the control panel, the guide parts on the displacement assemblies at the front end and the rear end are readjusted to calibrate the positions of the plastic plates, and the edging assemblies on the displacement assemblies at the middle end are readjusted to edging the plastic plates.

Preferably, the conveyor is a roller conveyor, and when the conveyor conveys the plastic plate, both side edges of the plastic plate are outside the roller supporting range of the conveyor.

Preferably, the displacement assembly comprises a base arranged on the workbench, a base for installing components is slidably arranged on the inner side surface of the base, a plurality of fastening openings for installing bolts are formed in the base, and the guide piece and the edging assembly are installed at the positions of the fastening openings of the base through bolt positioning.

Preferably, an electric cylinder for pushing the stand to move is arranged on the base.

Preferably, the guide comprises a plate member mounted on the displacement assembly by bolts, and the plate member is U-shaped and internally mounted with rotatable guide rollers.

Preferably, the edging assembly comprises a die holder which is arranged on the displacement assembly through bolts, a plurality of groups of edging wheels for polishing are arranged in the die holder, and a driving motor for driving the edging wheels to rotate is arranged on the die holder

Preferably, the extrusion conveying assembly comprises a roller frame for pressing the plastic plate, a hydraulic cylinder for pushing the roller frame to move up and down, and a bracket mounted on the workbench and used for mounting the hydraulic cylinder.

Preferably, the support plate is provided with a plurality of guide posts for sliding guiding and being mounted on the workbench.

Preferably, the top end of the disc is rotationally connected with the bottom end of the supporting plate through a slewing bearing, and the inner side of the slewing bearing is an inner gear ring and meshed through a gear.

Compared with the prior art, the invention has the following beneficial effects:

according to the driving and controlling method of the basalt reinforced plastic plate forming edge trimming device, a conveyor is used for conveying a plastic plate, the position of the plastic plate is adjusted through a guide piece, the plastic plate is pressed on the conveyor under the extrusion of an extrusion conveying assembly, shaking of the plastic plate is avoided, the plastic plate is guided out along with the conveyor, polishing treatment is carried out on two sides of the plastic plate through an edging assembly, finally the plastic plate moves to the tail end along with the conveyor, the plastic plate is rotated by 90 degrees under the adjustment of a reversing assembly, the plastic plate is replaced back to the conveyor, the conveyor reversely drives the plastic plate to pass through the adjustment of the guide piece again, the other two sides of the plastic plate are subjected to polishing of the edging assembly under the extrusion of the extrusion conveying assembly, and therefore the side faces of the plastic plate are all trimmed;

the size of the plastic plate can be input through the control panel, the movement distance of the front end and the rear end displacement assembly is controlled, the guide pieces reciprocate in a specified range, after the plastic plate passes through, the position adjustment is carried out on the two guide pieces downwards by pushing, the middle end displacement assembly directly moves to the specified position, the edge grinding assembly on the middle end displacement assembly polishes two sides of the plastic plate, the extrusion conveying assembly tightly presses the plastic plate, the plastic plate is not easy to move in the polishing process, the two infrared photoelectric detectors are matched, when the infrared photoelectric detector at the front end of the conveyor is triggered, the displacement assembly is adjusted according to the length of the plastic plate, when the infrared photoelectric detector at the tail end of the conveyor is triggered, the displacement assembly is adjusted according to the width of the plastic plate, the plastic plate is turned by the reversing assembly, the integrated processing operation is realized, so that the feeding and collecting processes are only needed to be repeated, the operation steps of workers are simplified, and the working efficiency is improved.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic view of a displacement assembly according to the present invention;

FIG. 3 is a schematic view of a guide of the present invention;

FIG. 4 is a schematic view of an edging assembly of the present invention;

fig. 5 is a schematic view of the steering mechanism of the present invention.

In the figure: 1. a work table; 2. a conveyor; 3. extruding the conveying assembly; 31. a roller frame; 32. a hydraulic cylinder; 33. a bracket; 4. a displacement assembly; 41. a base; 42. a base; 43. an electric cylinder; 5. a guide member; 51. a plate member; 52. a guide roller; 6. an edging assembly; 61. a die holder; 62. edging wheel; 63. a driving motor; 7. a reversing assembly; 71. a steering mechanism; 711. a vacuum chuck; 712. a disc; 713. a slewing bearing; 714. a gear; 715. a servo motor; 72. a support plate; 73. a guide post; 74. a cylinder; 8. an infrared photodetector; 9. and a control panel.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present disclosure more apparent, a technical solution of the embodiments of the present disclosure will be clearly and completely described in conjunction with the accompanying drawings of the embodiments of the present disclosure, and detailed descriptions of known functions and known components are omitted from the present disclosure in order to avoid unnecessarily obscuring the concept of the present disclosure.

Referring to fig. 1, a basalt reinforced plastic plate forming edge trimming device comprises a workbench 1 for installing components and a conveyor 2 for conveying plastic plates, wherein the conveyor 2 is positioned on a middle line at the top of the workbench 1, the conveyor 2 is a roller conveyor, when the conveyor 2 conveys the plastic plates, two sides of the basalt reinforced plastic plates are positioned outside the roller supporting range of the conveyor, the conveyor 2 is utilized to convey the plastic plates, and the end surfaces of the plastic plates extend out of the conveyor 2 so as to facilitate polishing treatment.

As can be seen from fig. 2, the workbench 1 is provided with three groups of displacement assemblies 4 symmetrically distributed on two sides of the conveyor 2, and the three groups of displacement assemblies 4 are divided into three positions, namely a front position, a middle position and a rear position, the displacement assemblies 4 comprise a base 41 mounted on the workbench 1, a base 42 for mounting components is slidably arranged on the inner side surface of the base 41, an electric cylinder 43 for pushing the base 42 to move is mounted on the base 41, a plurality of fastening openings for mounting bolts are formed in the base 42, and the electric cylinder 43 is used for pushing the base 42 to move on the base 41 so as to facilitate the movement of components mounted on the base 42, thereby facilitating the adjustment of the positions thereof.

As can be seen from fig. 3, the displacement assemblies 4 at the front and rear ends are respectively provided with a guide member 5 for adjusting the position of the plastic plate, the guide member 5 comprises a plate member 51 mounted on the displacement assemblies 4 by bolts, the plate member 51 is U-shaped and is internally provided with a rotatable guide roller 52, the plastic plate on the conveyor 2 is reciprocally pushed by the displacement assemblies 4, so that the plastic plate is symmetrically placed on the conveyor 2 for later polishing, and therefore, the displacement assemblies 4 at the front and rear ends adjust the position of the plastic plate by the guide member 5, and the guide roller 52 can avoid friction generated in contact with the moving plastic plate, thereby shifting the position of the plastic plate.

As can be seen from fig. 4, the middle end is provided with an edging assembly 6 for polishing the edge of the plastic plate on the displacement assembly 4, the edging assembly 6 comprises a die holder 61 mounted on the displacement assembly 4 through bolts, a plurality of groups of edging wheels 62 for polishing are mounted in the die holder 61, a driving motor 63 for driving the edging wheels 62 to rotate is mounted on the die holder 61, and the position of the edging assembly 6 is adjusted by using the displacement assembly 4, so that the driving motor 63 drives the edging wheels 62 to process the end face of the plastic plate.

The extrusion conveying assembly 3 for compacting the plastic plate on the workbench 1 is arranged on the workbench 1, the extrusion conveying assembly 3 is positioned at the middle end of the displacement assembly 4, the extrusion conveying assembly 3 comprises a roller frame 31 for compacting the plastic plate, a hydraulic cylinder 32 for pushing the roller frame 31 to move up and down and a bracket 33 which is arranged on the workbench 1 and is used for installing the hydraulic cylinder 32, in the edging process, in order to avoid the plastic plate from moving, the plastic plate is extruded by the extrusion conveying assembly 3, the plastic plate can only be conveyed along with the conveyor 2 and cannot be changed in position on the conveyor 2, so that the end face of the plastic plate is always contacted with the edging assembly 6, the roller frame 31 is pushed to move by the hydraulic cylinder 32, and the roller on the roller frame 31 compacts the plastic plate without obstructing the conveying of the plastic plate.

As can be seen from fig. 1 and fig. 5, the tail end of the working table 1 is provided with a reversing assembly 7 for controlling the direction of the plastic plate, the reversing assembly 7 comprises a reversing mechanism 71 for reversing the plastic plate and a supporting plate 72 provided with the reversing mechanism 71, the supporting plate 72 is provided with a plurality of guide posts 73 for sliding guiding and being arranged on the working table 1, the supporting plate 72 is provided with an air cylinder 74 for adjusting the supporting plate 72 to slide up and down, the air cylinder 74 drives the supporting plate 72 to slide on the guide posts 73, so that the reversing mechanism 71 moves downwards and contacts with the plastic plate, and the plastic plate is subjected to reversing treatment and finally is placed on the conveyor 2.

The steering mechanism 71 comprises a plurality of groups of vacuum chucks 711 for adsorbing plastic plates and a disc 712 for installing the vacuum chucks 711, wherein the top end of the disc 712 is rotationally connected with the bottom end of the supporting plate 72 through a slewing bearing 713, the inner side of the slewing bearing 713 is an inner gear ring and is meshed with the inner gear ring through a gear 714, a servo motor 715 for driving the gear 714 to rotate is installed at the top end of the supporting plate 72, the plastic plates are adsorbed by the vacuum chucks 711 and are driven by the servo motor 715 to rotate, the inner ring of the slewing bearing 713 drives the disc 712 to rotate by 90 degrees, the plastic plates are steered, the number of turns of the rotation of the driving gear 714 is the same every time, and the inner ring of the slewing bearing 713 rotates by one quarter of turns every time.

The head end and the tail end of the conveyor 2 are respectively provided with an infrared photoelectric detector 8, a control panel 9 for inputting the size of a plastic plate is arranged on the workbench 1, the inner installation of the workbench 1 is used for controlling the PLC controllers of the displacement assembly 4, the edging assembly 6 and the reversing assembly 7, the PLC controllers are connected with respective power sources through circuits, the control panel 9 is used as an input unit, the PLC controllers are used as a control unit, and the displacement assembly 4, the edging assembly 6 and the reversing assembly 7 are controlled to operate.

The invention also provides a driving and controlling method of the basalt reinforced plastic plate forming edge trimming device, which comprises the following steps:

1. when the infrared photodetector 8 of the head end of the conveyor 2 is triggered, the apparatus operates as follows:

firstly, the displacement assemblies 4 at the front end and the rear end reciprocally drive the guide piece 5 according to the length dimension input by the control panel 9 to adjust the position of the plastic plate on the conveyor 2;

then, the extrusion conveying assembly 3 moves downwards to press the plastic plate with the conveyor 2 and convey the plastic plate, and the middle end of the displacement assembly 4 adjusts the position of the upper edging assembly 6 so that two edging assemblies 6 trim two sides of the plastic plate;

2. when the infrared photodetectors 8 at the end of the conveyor 2 are triggered, the apparatus operates as follows:

firstly, an air cylinder 74 pushes a supporting plate 72 to move downwards, a vacuum chuck 711 on a disc 712 is contacted with a plastic plate and is adsorbed, then the air cylinder 74 is retracted to drive the disc 712 and the vacuum chuck 711 to reset upwards and drive the plastic plate to ascend into the air, the disc 712 is rotated by 90 degrees under the driving of a servo motor 715 to drive the adsorbed plastic plate to finish direction conversion, finally the air cylinder 74 drives the vacuum chuck 711 and the plastic plate adsorbed by the vacuum chuck 711 to move to the position of a conveyor 2, the vacuum chuck 711 releases the adsorption effect on the plastic plate, and the air cylinder 74 drives the disc 712 and the vacuum chuck 711 to reset upwards;

then, the conveyor 2 conducts the reversed plastic sheet in the reverse direction;

finally, according to the width dimension of the input dimension of the control panel 9, the guide piece 5 on the displacement assembly 4 at the front end and the rear end is readjusted to calibrate the position of the plastic plate, and the edging assembly 6 on the displacement assembly 4 at the middle end is readjusted to edging the plastic plate.

Therefore, the infrared photoelectric detector 8 at the head end of the conveyor 2 is triggered, the length of the plastic plate is polished, the infrared photoelectric detector 8 at the tail end of the conveyor 2 is triggered, the width of the plastic plate is polished, and if the infrared photoelectric detectors 8 at the head end and the tail end of the conveyor 2 are repeatedly triggered, the PLC controller cannot readjust.

The above embodiments are only exemplary embodiments of the present invention and are not intended to limit the present invention, the scope of which is defined by the claims. Various modifications and equivalent arrangements of this invention will occur to those skilled in the art, and are intended to be within the spirit and scope of the invention.

Claims

1. The driving and controlling method of basalt reinforced plastic plate forming edge trimming device comprises a workbench (1) for installing components and a conveyor (2) for conveying plastic plates, wherein the conveyor (2) is positioned on the central line of the top of the workbench (1), and the driving and controlling method is characterized in that: three groups of displacement assemblies (4) symmetrically distributed on two sides of the conveyor (2) are arranged on the workbench (1), the three groups of displacement assemblies (4) are divided into a front position, a middle position and a rear position, guide pieces (5) for adjusting the positions of the plastic plates are respectively arranged at the front end and the rear end of the displacement assemblies (4), and edging assemblies (6) for polishing the edges of the plastic plates are arranged on the middle end of the displacement assemblies (4);

an extrusion conveying assembly (3) for compacting the plastic plate on the workbench (1) is arranged on the workbench (1), and the extrusion conveying assembly (3) is positioned at the middle end of the displacement assembly (4);

the tail end of the workbench (1) is provided with a reversing assembly (7), the reversing assembly (7) comprises a reversing mechanism (71) for reversing a plastic plate and a supporting plate (72) provided with the reversing mechanism (71), and an air cylinder (74) for adjusting the supporting plate (72) to slide up and down is arranged on the supporting plate (72);

the steering mechanism (71) comprises a plurality of groups of vacuum suckers (711) for adsorbing plastic plates and discs (712) for installing the vacuum suckers (711), a servo motor (715) for driving a gear (714) to rotate is installed at the top end of the supporting plate (72), the top end of the discs (712) is rotationally connected with the bottom end of the supporting plate (72) through a slewing bearing (713), and an inner gear ring is arranged on the inner side of the slewing bearing (713) and meshed through the gear (714);

the head end and the tail end of the conveyor (2) are provided with infrared photoelectric detectors (8), the workbench (1) is provided with a control panel (9) for inputting the size of a plastic plate, and the specific driving and controlling method comprises the following steps:

in the first link, when an infrared photoelectric detector (8) at the head end of the conveyor (2) is triggered, the equipment operates as follows:

firstly, the displacement assemblies (4) at the front end and the rear end reciprocally drive the guide piece (5) according to the length and the size input by the control panel (9) to adjust the position of the plastic plate on the conveyor (2);

then, the extrusion conveying assembly (3) moves downwards to press the plastic plate with the conveyor (2) and convey the plastic plate, and the displacement assembly (4) at the middle end adjusts the positions of the edging assemblies (6) on the plastic plate, so that the two edging assemblies (6) trim the two sides of the plastic plate;

and in the second step, when an infrared photoelectric detector (8) at the tail end of the conveyor (2) is triggered, the equipment is operated as follows:

firstly, an air cylinder (74) pushes a supporting plate (72) to move downwards, a vacuum chuck (711) on a disc (712) is contacted with a plastic plate and is adsorbed, then the air cylinder (74) is retracted to drive the disc (712) and the vacuum chuck (711) to reset upwards, the plastic plate is driven to lift into the air, the disc (712) is rotated by 90 degrees under the driving of a servo motor (715) to drive the adsorbed plastic plate to finish direction conversion, finally the air cylinder (74) drives the vacuum chuck (711) and the plastic plate adsorbed by the vacuum chuck (711) to move to the position of a conveyor (2), the vacuum chuck (711) releases the adsorption effect on the plastic plate, and the air cylinder (74) drives the disc (712) and the vacuum chuck (711) to reset upwards;

then, the conveyor (2) conducts the reversed plastic plate reversely;

finally, according to the width dimension of the input dimension of the control panel (9), the guide piece (5) on the displacement assembly (4) at the front end and the rear end is readjusted to calibrate the position of the plastic plate, and the edging assembly (6) on the displacement assembly (4) at the middle end is readjusted to edging the plastic plate.

2. The method for controlling a basalt reinforced plastic sheet shaping edge trimming device as defined in claim 1, wherein: the conveyor (2) is a roller conveyor, and when the conveyor (2) conveys the plastic plate, both side edges of the plastic plate are outside the roller supporting range of the conveyor.

3. The method for controlling a basalt reinforced plastic sheet shaping edge trimming device as defined in claim 1, wherein: the displacement assembly (4) comprises a base (41) arranged on the workbench (1), a base (42) for installing components is slidably arranged on the inner side surface of the base (41), a plurality of fastening openings for installing bolts are formed in the base (42), and the guide piece (5) and the edging assembly (6) are installed at the positions of the fastening openings of the base (42) through bolt positioning.

4. A method of controlling a basalt reinforced plastic sheet shaping edge trimming device as defined in claim 3, wherein: an electric cylinder (43) for pushing the stand (42) to move is arranged on the base (41).

5. The method for controlling a basalt reinforced plastic sheet shaping edge trimming device as defined in claim 1, wherein: the guide (5) comprises a plate (51) mounted on the displacement assembly (4) by bolts, and the plate (51) is U-shaped and internally provided with rotatable guide rollers (52).

6. The method for controlling a basalt reinforced plastic sheet shaping edge trimming device as defined in claim 1, wherein: the edging assembly (6) comprises a die holder (61) which is arranged on the displacement assembly (4) through bolts, a plurality of groups of edging wheels (62) which are used for polishing are arranged in the die holder (61), and a driving motor (63) which is used for driving the edging wheels (62) to rotate is arranged on the die holder (61).

7. The method for controlling a basalt reinforced plastic sheet shaping edge trimming device as defined in claim 1, wherein: the extrusion conveying assembly (3) comprises a roller frame (31) for pressing the plastic plate, a hydraulic cylinder (32) for pushing the roller frame (31) to move up and down, and a bracket (33) which is arranged on the workbench (1) and is used for installing the hydraulic cylinder (32).

8. The method for controlling a basalt reinforced plastic sheet shaping edge trimming device as defined in claim 1, wherein: the supporting plate (72) is provided with a plurality of guide posts (73) which are used for sliding guide and are arranged on the workbench (1).