CN113954220A

CN113954220A - Cutting device for light wallboard extrusion forming machine

Info

Publication number: CN113954220A
Application number: CN202111112091.4A
Authority: CN
Inventors: 陈继文; 孟德才; 赵洁; 姬帅; 赵彦华; 刘洪彬
Original assignee: Shandong Jianzhu University
Current assignee: Shandong Jianzhu University
Priority date: 2021-09-23
Filing date: 2021-09-23
Publication date: 2022-01-21

Abstract

A cutting device for a light wallboard extrusion forming machine belongs to the technical field of wallboard manufacturing equipment. The cutting device comprises a transverse moving device, a lifting device, a cutting device, a synchronous moving device, a clamping device and a bottom supporting frame, wherein the transverse moving device is installed on a supporting plate of the synchronous moving device and is driven by a motor to carry the lifting device and a cutting machine to perform a cutting task, the lifting device is installed on the transverse moving device, a cutting saw is driven to descend when the cutting task is started, the plate is cut, the cutting saw is driven to ascend after the cutting is completed, the synchronous moving device is installed on the bottom supporting frame and is driven by the motor to drive the screw rod to transmit, and therefore the cutting device is driven to synchronously cut the plate in a motion state. When the device is used, the length measurement of the wall boards is realized, the wall boards are cut to length, and two wall boards can be cut by one-time reciprocating motion, so that the precision of the light wall board extrusion forming production line is ensured on the basis of high efficiency.

Description

Cutting device for light wallboard extrusion forming machine

Technical Field

The invention relates to a cutting device for a light wallboard extrusion forming machine, in particular to a high-precision and high-efficiency cutting device for a light wallboard extrusion forming production line, and belongs to the technical field of wallboard manufacturing equipment.

Background

With the wide application of the light wall board in the building field, the automatic production line of the novel light wall board gradually goes into the public field of vision. The domestic prior art comprises a semi-automatic wallboard extrusion molding machine, a grouped vertical mold light wallboard production line, a wallboard extrusion molding production line and the like. The semi-automatic wallboard extrusion molding machine has strict production site requirements, large occupied space and low automation degree, needs manual molding and manual cutting and has low production efficiency of the wallboard; the production line of the grouped vertical-die light wallboard needs a large number of forming dies, so that the cost is high and the efficiency is low; the wallboard extrusion molding production line has the advantages of high automation degree, simple production process, low cost and high efficiency.

Wallboard extrusion production line needs cut the wallboard after the wallboard shaping in wallboard production process to obtain required size, current light system wallboard cutting device structure is complicated, and the tangent plane unevenness is accompanied by a large amount of pieces during the cutting, influences the wallboard precision, and the piece scatters inside the cutting machine, causes the cutting machine dirty easily, is difficult to the clearance after long-time work. Therefore, a cutting device of a wallboard extrusion molding machine with high working efficiency, less cutting chips and high cutting precision is needed.

Disclosure of Invention

In view of the above disadvantages, the present invention provides a cutting device for a lightweight wallboard extrusion molding machine.

The invention is realized by the following technical scheme: a cutting device for a light wallboard extrusion molding machine is composed of a transverse moving device, a lifting device, a cutting device, a synchronous moving device, a clamping device and a bottom supporting frame, the transverse moving device is arranged on the supporting plate of the synchronous moving device, is driven by a motor, carries a lifting device and a cutting machine to carry out cutting tasks, can carry out reciprocating motion, can carry out two cutting tasks by one reciprocating motion, the lifting device is arranged on the transverse moving device and drives the cutting saw to descend when starting a cutting task, cutting the plate, driving the cutting saw to ascend and leave the movement range of the plate after finishing the cutting task, the synchronous moving device is arranged on the bottom supporting frame and is driven by a motor to drive a lead screw to transmit, so that the cutting device is driven to synchronously cut the plate in a moving state.

The clamping device clamps the plate by extruding the supporting plate below the plate, on one hand, the precision of synchronous operation is guaranteed, on the other hand, the side face of the plate is supported, and the deformation force of a cutter to the plate in the cutting process is offset.

The bottom support frame is made of No. Q235 galvanized seamless hollow steel.

The cutting saw is a saw-tooth edging circular saw and is made of diamond.

The invention has the advantages that when the device is used, the length measurement of the wall boards is realized, the wall boards are cut to length, two wall boards can be cut by one-time reciprocating motion, the structure of the cutting device of the light wall board production line is newly explored and designed, and the precision of the light wall board extrusion forming production line is ensured on the basis of high efficiency.

Drawings

FIG. 1 is a schematic view of the structure of the present invention

FIG. 2 is a schematic view of the structure of the lateral shifting device of the present invention

FIG. 3 is a schematic view of the lifting device of the present invention

FIG. 4 is a schematic view of the cutting device of the present invention

FIG. 5 is a schematic view of a synchronous moving device according to the present invention

FIG. 6 is a schematic view of a right clamping device of the present invention

FIG. 7 is a schematic view of the structure of the left clamping device of the present invention

FIG. 8 is a schematic view of the bottom bracket of the present invention

In the figure: 1. a transverse moving device, 2, a lifting device, 3, a cutting device, 4, a synchronous moving device, 5, a right clamping device, 6, a left clamping device, 7, a bottom support frame, 101, a first servo motor, 102, a transverse moving frame, 103, a first guide rail, 104, a transverse moving cushion block, 105, a first lead screw fixing seat, 106, a first lead screw, 107, a second guide rail, 108, a first nut seat, 109, a motor mounting seat connecting frame, 110, a first motor mounting seat, 111, a first coupling seat, 201, a second servo motor, 202, a second motor mounting seat, 203, a second coupling seat, 204, a transverse moving tool rest, 205, a second lead screw fixing seat, 206, a third guide rail, 207, a first sliding block, 208, a second sliding block, 209, a third lead screw fixing seat, 210, a second nut seat, 211, a third sliding block, 212, a fourth sliding block, 213, a fourth guide rail, 214, a second lead screw, 301, a motor lifting platform, 302, a cutting motor, 303. the protection cover, 304, the cutting saw, 401, servo motor, 402, the backup pad, 403, the bottom sprag frame, 404, the lead screw, 405, the nut seat, 406, the sliding stand, 407, the guide rail, 408, the guide rail seat, 409, the lead screw fixing base, 410, the slider, 411, the shaft coupling, 412, the motor mount pad, 501, servo electric cylinder, 502, servo electric cylinder mount pad, 503, the centre gripping cardboard, 504, the fender pad, 505, fender pad connecting plate, 601, servo electric cylinder, 602, servo electric cylinder mount pad, 603, centre gripping cardboard, 604, fender pad, 605, fender pad connecting plate.

Detailed Description

A cutting device for a light wallboard extrusion molding machine is composed of a transverse moving device 1, a lifting device 2, a cutting device 3, a synchronous moving device 4, a right clamping device 5, a left clamping device 6 and a bottom supporting frame 7, wherein the transverse moving device 1 is composed of a servo motor 101, a synchronous moving frame 102, a guide rail I103, a transverse moving cushion block 104, a lead screw fixing seat I105, a lead screw I106, a guide rail II 107, a nut seat 108, a motor mounting seat connecting frame 109, a motor mounting seat I110 and a coupling I111, the lifting device 2 is composed of a servo motor II 201, a motor mounting seat II 202, a coupling II 203, a transverse moving tool rest 204, a lead screw fixing seat II 205, a guide rail III 206, a slide block I207, a slide block II 208, a lead screw fixing seat III 209, a nut seat II 210, a slide block III 211, a slide block IV 212, a guide rail IV 213 and a lead screw II 214, the cutting device 3 comprises a motor lifting platform 301, a cutting motor 302, a protective cover 303 and a cutting saw 304, the cutting synchronous moving device 4 comprises a servo motor 401, a supporting plate 402, a bottom supporting frame 403, a screw rod 404, a nut seat 405, a sliding table 406, a guide rail 407, a guide rail seat 408, a screw rod fixing seat 409, a sliding block 410, a coupling 411 and a motor mounting seat 412, the right clamping device 5 comprises a servo electric cylinder 501, a servo electric cylinder mounting seat 502, a clamping plate 503, a blocking pad 504 and a blocking pad connecting plate 505, and the left clamping device 6 comprises a servo electric cylinder 601, a servo electric cylinder mounting seat 602, a clamping plate 603, a blocking pad 604 and a blocking pad connecting plate 605.

Further, a first motor 101 of the lateral moving device 1 is mounted on a first motor mounting seat 110, the first motor mounting seat connecting frame 109 and the synchronous moving frame 102 are respectively connected through bolts, one end of a first lead screw 106 is connected with a first lead screw fixing seat 105, the other end of the first lead screw is connected with the first motor 101 through a coupler 111, and a first guide rail 103 and a second guide rail 107 are connected with the synchronous moving frame 102 through bolts.

Further, a second motor 201 of the lifting device 2 is mounted on the traverse tool holder 204 through a second motor mounting seat 202, a second lead screw 214 is connected with the second motor 201 through a second coupler 203, a third guide rail 206 and a fourth guide rail 213 are connected with the traverse tool holder 204 through bolts, a first slider 207 and a second slider 208 are mounted on the third guide rail 206 through bolts, a third slider 211 and a fourth slider 212 are mounted on the fourth guide rail 213 through bolts, a second lead screw fixing seat 205 and a third lead screw fixing seat are connected with the traverse tool holder 204 through bolts, and a second nut seat 210 is mounted on the second lead screw 214.

Further, the motor lifting platform 301 of the cutting device 3 is respectively connected with the first sliding block 207, the second sliding block 208, the third sliding block 211 and the fourth sliding block 212 through bolts, the cutting motor 302 is installed above the motor lifting platform 301, and the protective cover 303 and the cutting saw 304 are installed on the cutting motor 302.

Further, the servo motor 401 of the synchronous moving device 4 is mounted on the bottom support frame 403 through a motor mounting seat 412 and a support plate 402, the sliding table 406 is fixed with the slider 410 through a bolt, the lead screw 404 is mounted on the bottom support frame 403 through the support plate 402, and the guide rail 407 is mounted on the bottom support frame 403 through a guide rail mounting seat 408.

Further, the servo electric cylinder 501 of the right clamping device 5 is mounted on the servo electric cylinder mounting seat 502, the electric cylinder mounting seat 502 is mounted on the synchronous moving frame 102 through a clamping groove, the clamping chuck plate 503 is directly connected with the servo electric cylinder 501, and the blocking pad connecting plate 505 is used for connecting the blocking pad 504 and the clamping chuck plate 503.

Further, the servo electric cylinder 601 of the left clamping device 6 is mounted on the servo electric cylinder mounting seat 602, the electric cylinder mounting seat 602 is mounted on the synchronous moving frame 102 through a clamping groove, the clamping chuck plate 603 is directly connected with the servo electric cylinder 601, and the blocking pad connecting plate 605 is used for connecting the blocking pad 604 and the clamping chuck plate 603.

When the device works, the whole device is supported by a bottom support frame 7, a synchronous moving device 4 is arranged on the bottom support frame 7 and is driven by a motor to drive a lead screw 402 so as to drive a cutting device 3 to synchronously cut a plate in a moving state, a transverse moving device 1 is arranged on a support plate 402 of the synchronous moving device 4 and is driven by a servo motor 101 to carry a lifting device 2 and the cutting device 3 to carry out a cutting task, the transverse moving device 1 can reciprocate, the lifting device 2 is arranged on the transverse moving device 1 and drives a cutting saw 304 to descend when the cutting task is started so as to cut the plate, the cutting saw 304 is driven to ascend after the cutting task is completed, a left clamping device 5 and a right clamping device 6 are designed and arranged in the cutting process, and when the clamping devices operate, a supporting plate below the plate is respectively extruded by a blocking pad 504 and a blocking pad 604 to clamp the plate, on one hand, the precision of synchronous operation is guaranteed, on the other hand, the side face of the plate is supported, and the deformation force of the cutter on the plate in the cutting process is offset.

It will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in the embodiments described above without departing from the principles and spirit of the invention, the scope of which is defined by the appended claims.

Claims

1. The utility model provides a cutting device for light wallboard extrusion moulding machine, comprises lateral shifting device, elevating gear, cutting device, synchronous motion device, clamping device and bottom sprag frame, its characterized in that: the utility model discloses a cutting device, including lateral shifting device, elevating gear, cutting saw, synchronous mobile device's backup pad, by motor drive, carry on elevating gear and cutting machine and carry out the cutting task, lateral shifting device can carry out reciprocating motion, and a reciprocating motion can carry out twice cutting task, elevating gear install on lateral shifting device, drive the slitting saw decline when beginning the cutting task, cut to panel, after accomplishing the cutting task, drive the slitting saw and rise, leave panel motion range, synchronous mobile device install on the bottom sprag frame, drive lead screw drive by the motor to drive cutting device and carry out synchronous cutting to the panel of motion state.

2. The cutting device for an extrusion molding machine of lightweight wall panels as claimed in claim 1, wherein the bottom support frame is made of Q235 galvanized seamless hollow steel.

3. The cutting apparatus of claim 1, wherein the clamping means clamps the plate by pressing the supporting plate under the plate, so as to ensure the accuracy of synchronous operation, and to support the side of the plate to offset the deformation force of the cutter to the plate during cutting.

4. The cutting device of claim 1, wherein the cutting saw is a saw-toothed circular saw with a sharpened edge and is made of diamond.