CN110778138A - Machine is got to worn-out ceramic tile monoblock cutting clamp - Google Patents

Abstract

The invention discloses a whole cutting and clamping machine for worn floor tiles. The cutting and stripping machine is used for profiling and moving the line along the edge of the floor tile to be stripped, cement between the floor tile and the rest of the good floor tiles is cut, the cement sewing surface at the bottom of the floor tile is stripped from the original blank floor by the steel wire cutting and stripping mechanism, and finally the completely cut worn-out floor tile is sucked out and lifted by the tile sucking disc mechanism, so that the cutting and stripping work of the whole worn-out floor tile is completed. The cleaning efficiency of the worn-out floor tiles is improved, and the manual operation intensity is greatly reduced.

Description

Machine is got to worn-out ceramic tile monoblock cutting clamp

Technical Field

The invention relates to the technical field of building cleaning, in particular to a whole cutting and clamping machine for worn floor tiles.

Background

The floor tiles need to be removed and replaced due to damage or depreciation after a certain time. Generally, manual operation is adopted, a worker uses a tool to firstly break the tile needing to be replaced, and then uses the tool to knock out the residual blocks on the loaded cement; and finally, cleaning the damaged plate block to wait for the replacement of the newly replaced floor tile. The operation flow is complex, and other good floors are easy to damage, so that an automatic old floor tile removing device is urgently needed.

Disclosure of Invention

Aiming at the problems, the invention provides a whole cutting and clamping machine for worn floor tiles, which conveys the whole machine to the position where the worn floor tiles need to be removed through a walking part of a rack. The cutting and stripping machine is used for profiling and moving the line along the edge of the floor tile to be stripped, cement between the floor tile and the rest of the good floor tiles is cut, the cement sewing surface at the bottom of the floor tile is stripped from the original blank floor by the steel wire cutting and stripping mechanism, and finally the completely cut worn-out floor tile is sucked out and lifted by the tile sucking disc mechanism, so that the cutting and stripping work of the whole worn-out floor tile is completed. The cleaning efficiency of the worn-out floor tiles is improved, and the manual operation intensity is greatly reduced.

The technical scheme adopted by the invention is as follows: the whole worn-out floor tile cutting and picking machine comprises a rack, a tile sucking disc mechanism, a cutting seam working machine and a steel wire cutting and stripping mechanism, wherein a circular sucking disc of the tile sucking disc mechanism is fixed on a sucking disc extending sliding block, and the sucking disc extending sliding block is connected to a sucking disc fixing support in a sliding mode. One end of the sucker extension sliding block is rotatably connected with a first sucker extension driving connecting rod, the other end of the first sucker extension driving connecting rod is rotatably connected to a stroke driving nut, the stroke driving nut is connected to a short stroke threaded rod through threads, one end of the short stroke threaded rod is fixedly connected to a driving motor, and the sucker extension driving motor is fixedly installed on a sucker rack. The sucker frame is fixedly arranged on the sucker locking workbench. The sucker locking workbench is provided with three notches, and the three notches are respectively and rotatably connected with a first upper-end U-groove sleeve, a second upper-end U-groove sleeve and a third upper-end U-groove sleeve; the three upper U-shaped groove sleeves are respectively sleeved with a first middle telescopic rod, a second middle telescopic rod and a third middle telescopic rod. And a first lower end U groove sleeve, a second lower end U groove sleeve and a third lower end U groove sleeve are mounted at the other ends of the three middle telescopic connecting rods, and the three lower end U groove sleeves are respectively and rotatably hinged on the first lifting claw hinge seat, the second lifting claw hinge seat and the third lifting claw hinge seat. The hinged position of the tail end of the third upper U-groove sleeve is fixedly connected with a driving motor shaft.

The cutting seam working machine comprises a molding slide block driving motor, a cutting guide rotation driving motor, a motor supporting shell, a square supporting frame, a synchronous belt wheel, a synchronous belt, a screw rod, a first movable guide block, an inner drive rotating rod, a second movable guide block, a first bevel gear set, a cutting milling cutter, a double-end bevel gear motor, a driving belt, a driven wheel, a second bevel gear set, a movable guide limiting rod, a movable slide block guide rod bearing seat, a lifting rotation pin shaft seat, a main drive synchronous wheel, a compression positioning spring, a driven gear, a rotation main drive gear and a pin shaft bearing seat, the cutting milling cutter is characterized in that the movable sliding block is a sliding block with an I-shaped notch, the cutting milling cutter is installed together with the movable sliding block through the I-shaped notch, the movable sliding block is coaxially installed on the movable guide limiting rod, and the movable guide limiting rod is coaxially installed on a guide rail of the rack through holes at two ends of the movable guide limiting rod. Under the drive of the screw rod, the first movable guide block and the second movable guide block which are in threaded connection on the screw rod move towards two sides, and limit positions of the movable guide limiting rods are limited. The modeling slide block driving motor is fixedly connected with the main driving synchronous wheel, one end of the synchronous belt is connected with the main driving synchronous wheel, the other end of the synchronous belt is connected with the driven wheel through synchronous teeth on the synchronous belt, the driven wheel is fixedly connected with a second bevel gear through a shaft rod, and the second bevel gear is meshed with double-end bevel gears at two ends. The other end of the double-end bevel gear is meshed with the first bevel gear group at the corner of the rack to transmit power for the driving of the screw. An inner driving rotary rod is coaxially arranged at the upper end of the movable sliding block, a compression positioning spring is concentrically arranged on the inner driving rod, and the inner driving rotary rod rises at the corner of the center of the frame and is fixedly connected with the driven gear. The driven gear is meshed with a rotary main driving gear, and the rotary main driving gear is fixedly connected with a cutting guide rotary driving motor shaft.

The steel wire cutting and stripping mechanism part comprises a first driven driving rod, a cutting wheel sliding platform, a first cutting motor, a small steel wire wheel, a lifting driven driving rod, a lifting driving rod, a driven driving bevel gear, a cutting assembly frame, a double-end bevel gear, a screw driving motor, a slider guide cylinder, an upper rotating pin shaft seat, a positioning screw, a lower rotating pin shaft seat, a cutting assembly large frame, a lifting fixing sleeve, a pinion, a large gear, a middle telescopic connecting rod, a second lifting fixing sleeve, a second driven driving rod, a frame guide shaft, a large steel wire wheel, a lifting middle driving rod and a lifting main driving rod. The cutting assembly is fixedly installed on a slide rail cross rod of a slide block guide cylinder, the cutting assembly can slide along the slide rail of the slide block guide cylinder, the slide block guide cylinder is connected with a transmission screw rod through threads, the transmission screw rod is fixedly connected with an output shaft of a screw rod driving motor, the screw rod driving motor is fixedly installed on a large cutting group frame, and the large cutting group frame is provided with an upper rotating pin shaft seat and a lower rotating pin shaft seat which are coaxially and rotatably connected with a driving rod of a steel wire cutting stripping mechanism and a second pin shaft pair. The cutting wheel mainly comprises four groups of shaping driving steel wire wheels and a sliding transformation rack, and four cutting wheel sliding platforms are arranged on four directions of a guide shaft of the I-shaped rack in a sliding mode. Two steel wire wheel cutting driving motors are vertically installed on the cutting wheel sliding platform, and a small steel wire wheel and a large steel wire wheel are respectively and fixedly installed on output shafts of the motors. The four groups of steel wire wheels are provided with steel wires for cutting. The I-shaped frame guide shaft is slidably mounted on the cutting assembly frame, a lifting driven driving rod is rotatably connected to the I-shaped frame guide shaft, the other end of the lifting driven driving rod is rotatably connected with the lifting driving rod, the other end of the lifting driving rod is fixedly connected with a driven bevel gear, the driven bevel gear is meshed with a double-end bevel gear, the double-end bevel gear is meshed with a small gear on the other side through a gear carrier, the small gear is meshed with a large gear, a lifting main driving rod is fixedly connected to the large gear, and the other end of an expansion main driving rod is rotatably connected with an. The other end of the expansion middle driving rod is coaxially and rotatably connected with a trunnion on the expansion fixing sleeve. The expansion fixing sleeve is internally coaxially provided with a middle expansion connecting rod, a second expansion fixing sleeve is coaxially and slidably arranged on the middle expansion connecting rod, and the second expansion fixing sleeve is rotatably connected with a first driven driving rod and a second driven driving rod; the other ends of the first driven driving rod and the second driven driving rod are respectively connected with the two cutting wheel sliding platforms in a rotating mode.

The welding machine frame part comprises a push handle grip, a first lifting claw hinge seat, a pin shaft pair, a frame supporting upright rod, a lower end pin shaft pair, a bottom moving wheel, a guide supporting plate, a semi-arc guide groove, a second pin shaft pair, a second lifting claw hinge seat, a driving motor and a third lifting claw hinge seat. The driving motor is fixed on a cross bar on the rack and used for providing power for the action of the tile sucker mechanism, and the bottom moving wheel is installed on a frame at the bottom of the rack and used for providing motion for the movement of the tile cutting and grabbing machine. The guide support plate is welded on the rack and is provided with a semi-arc notch, and a cylindrical pin at one end of a driven rod of the steel wire cutting and stripping mechanism is coaxially arranged in the notch to provide guide.

The invention has the beneficial effects that: the whole machine is transported to the position where the worn floor tile needs to be removed through the frame walking part. The cutting and stripping machine is used for profiling and moving the line along the edge of the floor tile to be stripped, cement between the floor tile and the rest of the good floor tiles is cut, the cement sewing surface at the bottom of the floor tile is stripped from the original blank floor by the steel wire cutting and stripping mechanism, and finally the completely cut worn-out floor tile is sucked out and lifted by the tile sucking disc mechanism, so that the cutting and stripping work of the whole worn-out floor tile is completed. The cleaning efficiency of the worn-out floor tiles is improved, and the manual operation intensity is greatly reduced.

Drawings

Fig. 1 and 2 are schematic overall structural diagrams of the present invention.

Fig. 3 and 4 are schematic structural views of the rack of the present invention.

Figure 5 is a schematic view of the 2-tile suction cup mechanism portion of the present invention.

Fig. 6 and 7 are schematic structural views of the cutting seam working machine part of the invention.

Fig. 8 and 9 are schematic structural views of the wire cutting and stripping mechanism of the present invention.

FIG. 10 is a schematic structural diagram of the drive of the cutting seam working machine and the wire cutting stripper of the present invention.

Reference numerals: 1-frame, 2-tile sucker mechanism, 3-cutting seam working machine, 4-steel wire cutting and stripping mechanism, 101-first upper U groove sleeve, 102-first middle telescopic rod, 103-first lower U groove sleeve, 104-sucker locking worktable, 105-sucker extension driving motor, 106-second lower U groove sleeve, 107-second middle telescopic rod, 108 second upper U groove sleeve, 109-sucker extension slider, 110-circular sucker, 111-first sucker extension driving connecting rod, 112-short stroke threaded rod plate, 113-third upper U groove sleeve, 114-third middle telescopic rod, 115-second sucker extension driving connecting rod, 116-third lower U groove sleeve, 117-stroke driving nut, 118-sucker frame, 201-pushing handle grip, 202-first lifting claw hinge base, 203-pin shaft pair, 204-frame supporting upright rod, 205-lower end pin shaft pair, 206-bottom moving wheel, 207-guide supporting plate, 208-semi-arc guide groove, 209-second pin shaft pair, 210-second lifting claw hinge base, 211-driving motor, 212-third lifting claw hinge base, 301-modeling slide block driving motor, 302-cutting guide rotating driving motor, 303-motor supporting shell, 304-house type supporting frame, 305-synchronous pulley, 306-synchronous belt, 307-screw rod, 308-first moving guide block, 309-internal driving rotating rod, 310-second moving guide block, 311-first bevel gear set, 312-cutting milling cutter, 313-double-head bevel gear motor, 314-driving belt, 315-driven wheel, 316-second-number bevel gear, 317-second-number bevel gear group, 318-moving guide limiting rod, 319-moving slider, 320-moving slider guide rod bearing seat, 321-lifting rotating pin shaft seat, 322-main driving synchronous wheel, 323-compression positioning spring, 324-driven gear, 325-rotating main driving gear, 326-pin shaft bearing seat, 401-first driven driving rod, 402-cutting wheel sliding platform, 403-first cutting motor, 404-small steel wire wheel, 405-lifting driven driving rod, 406-lifting driving rod, 407-driven driving bevel gear, 408-cutting component rack, 409-double-head bevel gear, 410-screw driving motor, 411-slider guide cylinder, 317-second-number bevel gear group, 412-an upper rotating pin shaft seat, 413-a positioning screw rod, 414-a lower rotating pin shaft seat, 415-a cutting group big frame, 416-a lifting fixing sleeve, 417-a pinion, 418-a gearwheel, 419-a middle telescopic connecting rod, 420-a second lifting fixing sleeve, 421-a second driven driving rod, 422-a frame guide shaft, 423-a big wire wheel, 424-a lifting middle driving rod, 425-a lifting main driving rod, 501-a cutting seam working machine rotating driving main rod, 502-a cutting seam working machine rotating driving slave rod, 503-a wire cutting stripping mechanism driving rod, 504-a wire cutting stripping mechanism slave rod and 505-a chassis wheel.

Detailed Description

The present invention will be further described with reference to specific examples, which are illustrative of the invention and are not to be construed as limiting the invention.

Example (b): a one-piece worn tile cutting and picking machine as shown in fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10.

The circular suction cup 110 of the tile suction cup mechanism portion 2 is fixed to a suction cup extension block 109, which is slidably 109 connected to a suction cup fixing bracket 118. One end of the sucker extension sliding block 109 is rotatably connected with a first sucker extension driving connecting rod 111, the other end of the first sucker extension driving connecting rod 111 is rotatably connected to a stroke driving nut 117, the stroke driving nut 117 is connected to a short stroke threaded rod 112 through threads, one end of the short stroke threaded rod 112 is fixedly connected to the driving motor 105, and the sucker extension driving motor 105 is fixedly installed on a sucker rack 118. The suction cup frame 118 is fixedly mounted on the suction cup locking table 104. The sucker locking workbench 104 is provided with three notches, and the three notches are respectively and rotatably connected with a first upper end U groove sleeve 103, a second upper end U groove sleeve 106 and a third upper end U groove sleeve 116; the three upper U-shaped groove sleeves are respectively sleeved with a first middle telescopic rod 102, a second middle telescopic rod 107 and a third middle telescopic rod 114. The other ends of the three middle telescopic connecting rods are provided with a first lower end U-groove sleeve 101, a second lower end U-groove sleeve 108 and a third lower end U-groove sleeve 113, and the three lower end U-groove sleeves are respectively and rotatably hinged on a first lifting claw hinge seat 212, a second lifting claw hinge seat 202 and a third lifting claw hinge seat 210. The hinged position of the tail end of the third upper U-groove sleeve 116 is fixedly connected with the shaft of the driving motor 211.

The moving block 319 of the cutting and sewing machine 3 is a block with an i-shaped notch, the cutting and milling cutter 312 is mounted together with the moving block 319 through the i-shaped notch, the moving block 319 is coaxially mounted on the moving guide limiting rod 318, and the moving guide limiting rod 318 is coaxially mounted on the guide rail of the frame through holes at both ends. Under the drive of the screw 307, the first moving guide block 208 and the second moving guide block 310 which are in threaded connection with the screw 307 move towards two sides, and limit positions of the moving guide limiting rods 318 are limited. The modeling slider driving motor 301 is fixedly connected with a main driving synchronous wheel 322, one end of the synchronous belt 314 is connected with the main driving synchronous wheel 322, the other end of the synchronous belt is connected with a driven wheel 315 through synchronous teeth on the synchronous belt, the driven wheel 315 is fixedly connected with a second bevel gear 316 through a shaft rod, and the second bevel gear 316 is meshed with double-end bevel gears 313 at two ends. The other end of the double-ended bevel gear 313 is meshed with the bevel gear group 311 at the corner of the frame to transmit power for driving the screw 307. An inner driving rotating rod 309 is coaxially installed at the upper end of the movable sliding block 319, a compression positioning spring 323 is concentrically installed on the inner driving rod 309, and the inner driving rotating rod 309 ascends at the corner of the center of the rack and is fixedly connected with a driven gear 324. The driven gear 324 meshes with a rotary main drive gear 325, and the rotary main drive gear 325 is fixedly connected to the shaft of the cutting guide rotary drive motor 302.

The steel wire cutting and stripping mechanism 4 part mainly comprises a cutting component and a positioning component, wherein the cutting component is fixedly installed on a slide rail cross bar of a slide block guide cylinder 411, the cutting component can slide along the slide rail of the slide block guide cylinder 411, the slide block guide cylinder 411 is connected with a transmission screw 413 through threads, the transmission screw 413 is fixedly connected with an output shaft of a screw driving motor 410, the screw driving motor 410 is fixedly installed on a cutting group big machine frame 415, and the cutting group big machine frame 415 is provided with an upper rotating pin shaft seat 412 and a lower rotating pin shaft seat 414 which are coaxially and rotatably connected with a driving rod 403 of the steel wire cutting and stripping mechanism and a second pin shaft pair. The cutting wheel mainly comprises four groups of shaping driving steel wire wheels and a sliding transformation frame, and the four cutting wheel sliding platforms 402 are arranged on four directions of the I-shaped frame guide shaft 422 in a sliding mode. Two steel wire wheel cutting driving motors 403 are vertically installed on the cutting wheel sliding platform 402, and a small steel wire wheel 404 and a large steel wire wheel 423 are respectively and fixedly installed on output shafts of the motors. The four groups of steel wire wheels are provided with steel wires for cutting. An I-shaped frame guide shaft 422 is slidably mounted on the cutting assembly frame 408, a lifting driven driving rod 405 is rotatably connected to the I-shaped frame guide shaft 422, the other end of the lifting driven driving rod 405 is rotatably connected with the lifting driving rod 406, the other end of the lifting driving rod 404 is fixedly connected with a driven bevel gear 407, the driven bevel gear 407 is meshed with a double-end bevel gear 409, the double-end bevel gear 409 is meshed with a small gear 417 on the other side through a gear frame, the small gear 417 is meshed with a large gear 418, an expansion main driving rod 425 is fixedly connected to the large gear 418, and the other end of the expansion main driving rod 425 is rotatably connected with. The other end of the expansion intermediate driving rod 424 is coaxially and rotatably connected with the trunnion on the expansion fixing sleeve 416. An intermediate expansion connecting rod 419 is coaxially installed in the expansion fixing sleeve 416, a second expansion fixing sleeve 420 is coaxially and slidably installed on the expansion fixing sleeve 416, and the second expansion fixing sleeve 420 is rotatably connected with a first driven driving rod 421 and a second driven driving rod 401; the other ends of the first driven driving rod 521 and the second driven driving rod 501 are respectively connected with the two-end cutting wheel sliding platform 402 in a rotating manner; when the driving device is operated, the lifting driven driving rod 405 pushes the i-shaped frame guide shaft 422 to move upwards along the cutting assembly frame 408, and at the same time, the pinion 417 drives the bull gear 418 to rotate through the bevel gear transmission mechanism, and the expansion main driving rod 425 fixed on the bull gear 418 drives the expansion mechanism to contract inwards. The shape of the cutting wire rope is changed, so that the length of the cutting line is changed to adapt to the cutting of different widths.

The drive motor 211 of the welding frame part is fixed on the cross bar of the frame and used for providing power for the action of the tile sucker mechanism, and the bottom moving wheel 206 is installed on the frame at the bottom of the frame and used for providing movement for the movement of the tile cutting and grabbing machine. The guide support plate 207 is welded to the frame and has a semi-arc notch 208 in which a cylindrical pin at one end of the driven rod 504 of the wire cutting and stripping mechanism is coaxially fitted to provide guidance.

The whole machine is transported to the position where the worn floor tile needs to be removed through the frame walking part 1. Under the drive of a rotary driving main rod 501 of a cutting seam working machine and a rotary driving slave rod 502 of the cutting seam working machine, the cutting seam working machine 3 rotates to a horizontal position to perform profiling motion and route wires along the edge of a floor tile to be removed, cement between the cutting seam working machine and the rest of the floor tiles is cut off, a steel wire cutting and stripping mechanism 4 is placed to be horizontal from a vertical state through a guide groove by a driving rod 503 of the steel wire cutting and stripping mechanism and a driven rod 504 of the steel wire cutting and stripping mechanism, a cement sewing surface at the bottom of the floor tile is stripped from an original blank floor, and finally, the completely cut waste tile is sucked and lifted through a tile sucking disc mechanism 3, so that the cutting and stripping work of the whole waste floor tile is completed.

Claims (4)

1. The utility model provides a machine is got to worn-out ceramic tile monoblock cutting clamp, includes frame (1), ceramic tile sucking disc mechanism (2), cutting seam work machine (3), steel wire cutting peeling means (4), its characterized in that:

the circular sucker (110) of the tile sucker mechanism part (2) is fixed on a sucker extension sliding block (109), and the sucker extension sliding block (109) is connected to a sucker fixing support (118) in a sliding manner; one end of the sucker extension sliding block (109) is rotatably connected with a first sucker extension driving connecting rod (111), the other end of the first sucker extension driving connecting rod (111) is rotatably connected to a stroke driving nut (117), the stroke driving nut (117) is connected to a short stroke threaded rod (112) through threads, one end of the short stroke threaded rod (112) is fixedly connected to a driving motor (105), and the sucker extension driving motor (105) is fixedly installed on a sucker rack (118); the sucker frame (118) is fixedly arranged on the sucker locking workbench (104); the sucker locking workbench (104) is provided with three notches, and the three notches are respectively and rotatably connected with a first upper end U groove sleeve (103), a second upper end U groove sleeve (106) and a third upper end U groove sleeve (116); the three upper U-shaped groove sleeves are respectively sleeved with a first middle telescopic rod (102), a second middle telescopic rod (107) and a third middle telescopic rod (114); the other ends of the three middle telescopic connecting rods are provided with a first lower end U-groove sleeve (101), a second lower end U-groove sleeve (108) and a third lower end U-groove sleeve (113), and the three lower end U-groove sleeves are respectively and rotatably hinged on a first lifting claw hinge seat (212), a second lifting claw hinge seat (202) and a third lifting claw hinge seat (210); the hinged position of the tail end of the third upper U-groove sleeve (116) is fixedly connected with a shaft of a driving motor (211);

the cutting seam working machine (3) comprises a modeling and modeling sliding block driving motor (301), a cutting guide rotary driving motor (302), a motor supporting shell (303), a house-shaped supporting rack (304), a synchronous pulley (305), a synchronous belt (306), a screw rod (307), a first movable guide block (308), an internal drive rotary rod (309), a second movable guide block (310), a first bevel gear set (311), a cutting milling cutter (312), a double-end bevel gear (313), a driving belt (314), a driven wheel (315), a second bevel gear (316), a second bevel gear set (317), a movable guide limiting rod (318), a movable sliding block (319), a movable sliding block guide rod bearing seat (320), a lifting rotary pin shaft seat (321), a main drive synchronous wheel (322), a compression positioning spring (323), a driven gear (324), a rotary main drive gear (325), The pin shaft bearing seat (326) is driven by the screw rod (307), and the first movable guide block (208) and the second movable guide block (310) which are in threaded connection on the screw rod (307) move towards two sides to limit the limit position of the movable guide limiting rod (318); a modeling slide block driving motor (301) is fixedly connected with a main driving synchronous wheel (322), one end of a synchronous belt (314) is connected with the main driving synchronous wheel (322), the other end of the synchronous belt is connected with a driven wheel (315) through synchronous teeth on the synchronous belt, the driven wheel (315) is fixedly connected with a second bevel gear (316) through a shaft rod, and the second bevel gear (316) is meshed with double-end bevel gears (313) at two ends; the other end of the double-ended bevel gear (313) is meshed with a first bevel gear group (311) at the corner of the rack and is used for driving the screw (307) to transmit power; an inner driving rotating rod (309) is coaxially installed at the upper end of the movable sliding block (319), a compression positioning spring (323) is concentrically installed on the inner driving rod (309), and the inner driving rotating rod (309) ascends at the corner of the center of the rack and is fixedly connected with a driven gear (324); the driven gear (324) is meshed with a rotary main driving gear (325), and the rotary main driving gear (325) is fixedly connected with a shaft of a cutting guide rotary driving motor (302);

the steel wire cutting and stripping mechanism (4) comprises a first driven driving rod (401), a cutting wheel sliding platform (402), a first cutting motor (403), a small steel wire wheel (404), a lifting driven driving rod (405), a lifting driving rod (406), a driven driving bevel gear (407), a cutting assembly rack (408), a double-ended bevel gear (409), a screw driving motor (410), a slider guide cylinder (411), an upper rotating pin shaft seat (412), a positioning screw (413), a lower rotating pin shaft seat (414), a cutting group big rack (415), an expansion fixing sleeve (416), a pinion (417), a gearwheel (418), a middle expansion connecting rod (419), a second expansion fixing sleeve (420), a second driven driving rod (421), an I-shaped rack guide shaft (422), a large steel wire wheel (423), an expansion middle driving rod (424) and an expansion main driving rod (425), the cutting assembly is fixedly arranged on a sliding rail cross bar of a sliding block guide cylinder (411), the cutting assembly can slide along the sliding rail of the sliding block guide cylinder (411), the sliding block guide cylinder (411) is connected with a transmission screw (413) through threads, the transmission screw (413) is fixedly connected with an output shaft of a screw driving motor (410), the screw driving motor (410) is fixedly arranged on a cutting group big rack (415), and the cutting group big rack (415) is provided with an upper rotating pin shaft seat (412) and a lower rotating pin shaft seat (414) which are coaxially and rotatably connected with a driving rod (403) of a steel wire cutting and stripping mechanism and a second pin shaft pair; the cutting wheel mainly comprises four groups of shaping driving steel wire wheels and a sliding transformation rack, and four cutting wheel sliding platforms (402) are arranged on four directions of a guide shaft (422) of the I-shaped rack in a sliding manner; two wire wheel cutting driving motors (403) are vertically arranged on the cutting wheel sliding platform (402), an I-shaped frame guide shaft (422) is slidably arranged on the cutting component frame (408), a lifting driven driving rod (405) is rotatably connected on an I-shaped frame guide shaft (422), the other end of the lifting driven driving rod (405) is rotatably connected with a lifting driving rod (406), the other end of the lifting driving rod (404) is fixedly connected with a driven bevel gear (407), the driven bevel gear (407) is meshed with a double-head bevel gear (409), the double-head bevel gear (409) is meshed with a pinion (417) on the other side through a gear rack, the pinion (417) is meshed with a bull gear (418), an expansion main driving rod (425) is fixedly connected to the large gear (418), and the other end of the expansion main driving rod (425) is rotatably connected with an expansion middle driving rod (424); the other end of the expansion middle driving rod (424) is coaxially and rotatably connected with a trunnion on the expansion fixing sleeve (416); a middle expansion connecting rod (419) is coaxially installed in the expansion fixing sleeve (416), a second expansion fixing sleeve (420) is coaxially and slidably installed on the expansion fixing sleeve, and the second expansion fixing sleeve (420) is rotatably connected with a first driven driving rod (421) and a second driven driving rod (401); the other ends of the first driven driving rod (521) and the second driven driving rod (501) are respectively connected with the two-end cutting wheel sliding platform (402) in a rotating mode.

2. The one-piece cutting and clamping machine for worn-out floor tiles as claimed in claim 1, wherein: a small steel wire wheel (404) and a large steel wire wheel (423) are respectively and fixedly arranged on the output shaft of the motor; the four groups of steel wire wheels are provided with steel wires for cutting.

3. The one-piece cutting and clamping machine for worn-out floor tiles as claimed in claim 1, wherein: the welding machine frame part comprises a push handle grip (201), a first lifting claw hinge seat (202), a pin shaft pair (203), a frame supporting upright rod (204), a lower end pin shaft pair (205), a bottom moving wheel (206), a guide support plate (207), a semi-arc guide groove (208), a second pin shaft pair (209), a second lifting claw hinge seat (210), a driving motor (211) and a third lifting claw hinge seat (212); the driving motor (211) is fixed on a cross bar on the frame, and the bottom moving wheel (206) is arranged on a frame at the bottom of the frame; the guide support plate (207) is welded on the frame and is provided with a semi-arc notch (208), and a cylindrical pin at one end of a driven rod (504) of the steel wire cutting and stripping mechanism is coaxially arranged in the notch to provide guide.

4. The one-piece cutting and clamping machine for worn-out floor tiles as claimed in claim 1, wherein: the movable sliding block (319) is a sliding block with an I-shaped notch, the cutting milling cutter (312) is installed together with the movable sliding block (319) through the I-shaped notch, the movable sliding block (319) is coaxially installed on the movable guide limiting rod (318), and the movable guide limiting rod (318) is coaxially installed on a guide rail of the rack through holes at two ends.

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