CN116046064A

CN116046064A - Decorative board detection device for architectural decoration

Info

Publication number: CN116046064A
Application number: CN202310013506.5A
Authority: CN
Inventors: 文利明
Original assignee: Jiujiang Ruijiu Decoration Engineering Co ltd
Current assignee: Shandong Hongqiang Decoration Engineering Co ltd
Priority date: 2023-01-05
Filing date: 2023-01-05
Publication date: 2023-05-02
Anticipated expiration: 2043-01-05
Also published as: CN116046064B

Abstract

The invention discloses a decorative board detection device for building decoration and fitment, which relates to the field of buildings and comprises a shell, a switching part, a pressure detection part and a vertical detection part, wherein the switching part, the pressure detection part and the vertical detection part are arranged on the shell, the switching part comprises a switching unit, the switching unit comprises a conversion assembly, the control of the pressure detection part and the vertical detection part is realized through the switching part, the pressure detection of a decorative board is realized through the pressure detection part, the qualification rate is ensured, the operation is simple, the perpendicularity detection and the flatness detection of the decorative board are realized through the vertical detection part, and the auxiliary lamination can be realized in the lamination process of the decorative board through the switching part.

Description

Decorative board detection device for architectural decoration

Technical Field

The invention relates to the field of buildings, in particular to a decorative plate detection device for building decoration.

Background

The decorative board is made of several special paper, and through chemical treatment, and is made of thermosetting laminated plastic with high-temp. and high-pressure adhesive, and has various wood grains and patterns, and features bright and smooth surface, bright colour, high wear resistance, high heat and cold resistance and high fire resistance. The new decorative boards are used for the production of walls and roofs of many high-grade houses, cabinets, cupboards, tables, beds, tables for precision instruments, laboratories, televisions, radios and other housings for broadcasting telecommunication equipment.

The Chinese patent with publication number CN110220769A discloses a building decorative plate quality detection device, which comprises a machine body, a first sliding cavity right in an opening arranged in the end wall on the right side of the machine body and a first transmission cavity arranged in the bottom wall of the first sliding cavity, wherein a first sliding frame capable of sliding up and down is arranged in the first sliding cavity, a first threaded hole which is penetrated up and down is arranged in the first sliding key, a first threaded rod which extends up and down is connected in a threaded fit manner in the first threaded hole, and the upper side and the lower side of the first threaded rod are rotatably arranged in the upper end wall and the lower end wall of the first sliding cavity.

Although the patent can impact the decorative plate, the equipment can collect scraps generated during impact detection by the dust collecting device, but the flatness and the verticality of the decorative plate are not detected, so the invention provides a decorative plate detection device for building decoration.

Disclosure of Invention

The invention discloses a decorative board detection device for building decoration, which comprises a shell, a switching part, a pressure detection part and a vertical detection part, wherein the switching part, the pressure detection part and the vertical detection part are arranged on the shell, the switching part comprises a switching unit, the switching unit comprises a switching assembly, the switching assembly comprises a deflector rod, the deflector rod is rotatably arranged on the shell, an incomplete gear I is fixedly arranged on the deflector rod, the incomplete gear I is connected with the shell, the switching assembly further comprises an incomplete gear II, the incomplete gear II is rotatably arranged on the shell, the incomplete gear II is meshed with the incomplete gear I, a sliding rod II is arranged on the incomplete gear I, a connecting piece I is slidably arranged on the sliding rod II, a gear II is rotatably arranged on the second end of the connecting piece, a gear III is fixedly arranged on the gear II, spline grooves are formed in the gear III and the gear II, an incomplete gear I is fixedly arranged on the sliding rod II, the connecting piece I is rotatably arranged on the sliding rod I, a connecting piece II is adjacent to the first end of the connecting piece I, a spline groove is formed in the connecting piece II, and the connecting piece I is rotatably arranged on the connecting piece I.

Further, the vertical and horizontal detecting component comprises a supporting plate, the supporting plate is connected with the switching component, a first limiting groove is fixedly installed at the position close to the first end of the supporting plate, a second limiting groove is fixedly installed at the position close to the second end of the supporting plate, a first hole is formed in the first end of the supporting plate, a second hole is formed in the position of the second end of the supporting plate, and the vertical and horizontal detecting component further comprises a vertical and horizontal detecting unit.

Further, the pressure detection component comprises a first support, a first end of the first support is rotatably arranged on the shell, a first end of a hydraulic cylinder is fixedly arranged on the first support, a pressure head is fixedly arranged at a second end of the hydraulic cylinder, and an end face gear is fixedly arranged at a second end of the first support.

Further, the switching component further comprises a power unit, the power unit comprises a first motor, the first motor is fixedly arranged on the shell, a first connecting shaft is fixedly arranged at the output end of the first motor, two ends of the first connecting shaft are rotatably arranged on the shell, a first gear is fixedly arranged on the first connecting shaft, and a fifth gear is fixedly arranged on the first gear.

Further, the change unit still includes drive assembly, the rotation subassembly includes the connecting axle three, the connecting axle is three both ends are all rotated and are installed on the casing, be provided with the spline on the connecting axle three, connecting axle three and incomplete gear triple bond connection are close to connecting axle three first end department fixed mounting has worm one, drive assembly still includes worm wheel one, worm wheel one and worm one meshing, worm wheel one is rotated and is installed on the casing, fixedly mounting has bevel gear three on the worm wheel one, drive assembly still includes the connecting axle two, connecting axle two both ends are all rotated and are installed on the casing, be provided with the spline on the connecting axle two, connecting axle two and gear two, gear triple bond connection are close to connecting axle two first end department fixed mounting have worm two, drive assembly still includes worm wheel two, worm two and worm wheel two meshing, two are rotated and are installed on the casing.

Further, the vertical leveling detection unit comprises a support II, a sliding part I is slidably mounted on the support II, a sliding part II is slidably mounted on the support II, a connecting part five first end is slidably mounted on the sliding part II, a first spring is arranged between the connecting part five first end and the sliding part II, a first spring second end is fixedly mounted on the connecting part five first end, a connecting part four first end is slidably mounted on the connecting part five second end, a second spring is arranged between the connecting part four first end and the connecting part five second end, a second spring first end is fixedly mounted on the connecting part five second end, a second spring second end is fixedly mounted on the connecting part four first end, the connecting part four second end is in contact with the sliding part I, a plurality of groups of detection components are uniformly distributed on the vertical leveling detection unit, and the vertical leveling detection unit is provided with a plurality of groups of detection components.

Further, the detection assembly comprises a movable piece, the movable piece is slidably mounted on the second support, the movable piece is slidably mounted on the fourth support, the movable piece is slidably mounted on the second support, the movable piece is slidably mounted on the first support, the movable piece is provided with a first spring, a first end of the first spring is fixedly mounted on the second support, a first end of the first spring is fixedly mounted on the fourth support, a first end of the first spring is fixedly mounted on the fifth support, a first end of the first spring is fixedly mounted on the second support, a first end of the first spring is fixedly mounted on the first support, a second end of the first spring is fixedly mounted on the movable piece, and a first detector is fixedly mounted on the movable piece.

Further, the power unit still includes the subassembly that rises, the subassembly that rises includes the connecting rod two, connecting rod two first ends fixed mounting is on worm wheel two, fixed mounting has the universal joint on connecting rod two second ends, connecting rod two is connected with the casing, fixed mounting has three first ends of connecting rod on the universal joint, fixed mounting has bevel gear two on the three second ends of connecting rod, the subassembly that rises includes screw one, screw one is rotated and is installed on the casing, fixed mounting has bevel gear one on the first end of screw, bevel gear one and screw one mesh, the subassembly that rises still includes fixed slide bar, fixed slide bar fixed mounting is on the casing.

Further, the vertical leveling detection unit further comprises a second detector, the second detector is fixedly arranged on the second sliding part, the vertical leveling detection unit further comprises a third detector, the third detector is fixedly arranged on the fourth connecting part, the vertical leveling detection part further comprises two fourth connecting rods, the two fourth connecting rods are respectively and fixedly arranged on two sides of the second support, and the sixth bevel gear is fixedly arranged on one side, far away from the fifth connecting part, of the second support.

Compared with the prior art, the invention has the beneficial effects that: (1) The invention is provided with a switching part, a pressure detecting part and a vertical detecting part, and the pressure detecting part and the vertical detecting part are controlled by the switching part; (2) The pressure detection component provided by the invention realizes the pressure detection of the decorative plate, ensures the qualification rate and is simple to operate; (3) The vertical detection component provided by the invention realizes the detection of the verticality and the flatness of the decorative plate; (4) The switching part provided by the invention can assist in attaching the decorative plate in the attaching process.

Drawings

Fig. 1 is a schematic diagram of the overall structure of the present invention.

Fig. 2 is a schematic diagram of the overall structure of the present invention.

Fig. 3 is a schematic diagram of a switching component structure of the present invention.

Fig. 4 is an enlarged schematic view of the structure a in fig. 3.

Fig. 5 is a schematic view of a part of the switching unit according to the first embodiment of the present invention.

Fig. 6 is a schematic diagram of a part of the switching component according to the second embodiment of the present invention.

Fig. 7 is a schematic diagram of a part of the switching unit according to the third embodiment of the present invention.

Fig. 8 is an enlarged schematic view of the structure at B in fig. 7.

Fig. 9 is a schematic diagram of a part of the switching unit according to the present invention.

Fig. 10 is an enlarged schematic view of the structure at C in fig. 9.

FIG. 11 is a schematic view of a vertical plane detecting unit according to the present invention.

Fig. 12 is a schematic diagram of a vertical plane detecting member according to the second embodiment of the present invention.

Fig. 13 is an enlarged schematic view of the structure at E in fig. 12.

FIG. 14 is a schematic view of a portion of a vertical plane detecting unit according to the present invention.

Fig. 15 is an enlarged schematic view of the structure at F in fig. 14.

FIG. 16 is a schematic view showing a part of the structure of the vertical plane detecting member according to the present invention.

FIG. 17 is a schematic view of the structure of the pressure detecting unit of the present invention.

FIG. 18 is a schematic view showing a part of the structure of the pressure detecting unit of the present invention.

Fig. 19 is an enlarged schematic view of the structure at D in fig. 18.

Reference numerals: 1-a housing; 2-switching means; 3-a pressure detecting part; 4-a sag detection member; 201-a deflector rod; 202-a stop; 203-fixing the slide bar; 204-lead screw I; 205-bevel gear one; 206-a bevel gear II; 207-motor one; 208-connecting shaft one; 209-incomplete gear one; 210-incomplete gear two; 211-first connector; 212-second connector; 213-gear one; 214-gear two; 215-connecting a second shaft; 216-gear three; 217-gear four; 218-incomplete gear three; 219-connecting shaft three; 220-connecting rod one; 221-first worm; 222-first worm gear; 223-bevel gear three; 224-gear five; 225-a second worm; 226-a second worm gear; 227-slide bar one; 228-sliding rod two; 229-connecting rod two; 230-universal joint; 231-connecting rod three; 301-first bracket; 302-a hydraulic cylinder; 303-indenter; 304-face gear; 401-supporting plates; 402-limit slot one; 403-limiting groove two; 404-motor two; 405-bevel gear four; 406-bevel gear five; 407-screw rod II; 408-screw three; 409-connector three; 410-first slider; 411-detector one; 412-a movable member; 413-spring one; 414-second bracket; 415—connector four; 416-connector five; 417-second slider; 418-detector two; 419-detector three; 420-a bevel gear six; 421-connecting rod IV; 422-bevel gear seven.

Detailed Description

The technical scheme of the invention is further described below by the specific embodiments with reference to the accompanying drawings.

Wherein the drawings are for illustrative purposes only and are shown in schematic, non-physical, and not intended to be limiting of the present patent; for the purpose of better illustrating embodiments of the invention, certain elements of the drawings may be omitted, enlarged or reduced and do not represent the size of the actual product; it will be appreciated by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

Examples: as shown in fig. 1-19, a decorative board detection device for building decoration and fitment comprises a shell 1, a switching part 2, a pressure detection part 3 and a vertical detection part 4, wherein the switching part 2, the pressure detection part 3 and the vertical detection part 4 are installed on the shell 1, the switching part 2 comprises a switching unit, the switching unit comprises a switching assembly, the switching assembly comprises a deflector rod 201, the deflector rod 201 is rotatably installed on the shell 1, an incomplete gear 209 is fixedly installed on the deflector rod 201, the incomplete gear 209 is connected with the shell 1, the switching assembly further comprises an incomplete gear 210, the incomplete gear 210 is rotatably installed on the shell 1, the incomplete gear 210 is meshed with the incomplete gear 209, a sliding rod 228 is installed on the incomplete gear 209, a first end 211 of a connecting piece is slidably installed on the sliding rod 228, a gear 214 is rotatably installed on the second end of the connecting piece 211, a gear 216 is fixedly installed on the gear 214, spline grooves are formed in the gear 216 and the gear 214, a first 227 is fixedly installed on the deflector rod 210, a second end 212 is rotatably installed on the sliding rod 227, a second end 212 is rotatably installed on the sliding rod 212 and a third end 212 is rotatably connected with a fourth end 218, and a second end 212 is rotatably connected with a fourth end 218 is rotatably installed on the connecting rod.

The switching part 2 further comprises a power unit, the power unit comprises a first motor 207, the first motor 207 is fixedly arranged on the shell 1, a first connecting shaft 208 is fixedly arranged at the output end of the first motor 207, two ends of the first connecting shaft 208 are rotatably arranged on the shell 1, a first gear 213 is fixedly arranged on the first connecting shaft 208, and a fifth gear 224 is fixedly arranged on the first gear 213.

The exchanging unit further comprises a transmission assembly, the rotation assembly comprises a third connecting shaft 219, two ends of the third connecting shaft 219 are rotatably arranged on the shell 1, a spline is arranged on the third connecting shaft 219, the third connecting shaft 219 is connected with a third incomplete gear 218 in a key mode, a first worm 221 is fixedly arranged at the position, close to the first end of the third connecting shaft 219, of the transmission assembly, the transmission assembly further comprises a first worm wheel 222, the first worm wheel 222 is meshed with the first worm 221, the first worm wheel 222 is rotatably arranged on the shell 1, a third bevel gear 223 is fixedly arranged on the first worm wheel 222, the transmission assembly further comprises a second connecting shaft 215, two ends of the second connecting shaft 215 are rotatably arranged on the shell 1, a spline is arranged on the second connecting shaft 215, the second connecting shaft 215 is connected with the second gear 214 and the third gear 216 in a key mode, a second worm 225 is fixedly arranged at the position, close to the first end of the second connecting shaft 215, the transmission assembly further comprises a second worm 226, the second worm 225 is meshed with the second worm wheel 226, and the second worm 226 are rotatably arranged on the shell 1.

The power unit still includes the subassembly that rises, the subassembly that rises includes connecting rod two 229, connecting rod two 229 first end fixed mounting is on worm wheel two 226, fixed mounting has universal joint 230 on the connecting rod two 229 second end, connecting rod two 229 is connected with casing 1, fixed mounting has connecting rod three 231 first end on the universal joint 230, fixed mounting has bevel gear two 206 on the connecting rod three 231 second end, the subassembly that rises includes lead screw one 204, lead screw one 204 rotates and installs on casing 1, fixed mounting has bevel gear one 205 on the first end of lead screw one 204, bevel gear one 205 and lead screw one 204 meshing, the subassembly that rises still includes fixed slide bar 203, fixed slide bar 203 fixed mounting is on casing 1, switching element 2 still includes dog 202, be provided with two dogs 202 on the switching element 2, two dog 202 symmetric distribution.

The driving lever 201 is driven by the driving lever 201, the incomplete gear one 209 moves, the incomplete gear one 209 drives the incomplete gear two 210 to move, the incomplete gear one 209 drives the connecting piece one 211 to move through the sliding lever two 228, the incomplete gear two 210 drives the connecting piece two 212 to move through the sliding lever one 227, the connecting piece two 212 drives the gear four 217 to move through the connecting rod one 220, the gear four 217 is meshed with the gear one 213, the motor one 207 is started, the output end of the motor one 207 drives the gear one 213 to move through the connecting shaft one 208, the gear one 213 drives the gear four 217 to move, the driving lever 201 is driven by the driving lever 201, the connecting piece one 211 drives the gear three 216 and the gear two 214 to move, the gear two 214 is meshed with the gear one 213, the connecting piece two 212 drives the gear four 217 to move, the gear four 217 is separated from the meshed state, the connecting piece II 212 drives the incomplete gear III 218 to move, the incomplete gear III 218 is meshed with the gear I213, the output end of the motor I207 drives the gear I213 to move through the connecting shaft I208, the gear I213 drives the incomplete gear III 218 to move, the gear I213 drives the gear II 214 to move, the incomplete gear III 218 drives the worm I221 to move through the connecting shaft III 219, the worm I221 drives the bevel gear III 223 to move through the worm wheel I222, the gear II 214 drives the worm II 225 to move through the connecting shaft II 215, the worm II 225 drives the worm wheel II 226 to move, the worm wheel II 226 drives the universal joint 230 to move through the connecting rod II 229, the universal joint 230 drives the bevel gear II 206 to move through the connecting rod III 231, and the bevel gear II 206 drives the lead screw I204 to move through the bevel gear I205.

As shown in fig. 11 to 16, the vertical and horizontal detecting member 4 includes a support plate 401, the support plate 401 is connected with the switching member 2, a first limiting groove 402 is fixedly installed near a first end of the support plate 401, a second limiting groove 403 is fixedly installed near a second end of the support plate 401, a first hole is provided at the first end of the support plate 401, a second hole is provided at the second end of the support plate 401, the first hole is in threaded fit with the first screw rod 204, and the second hole is connected with the fixed slide rod 203.

The vertical flatness detecting part 4 further comprises a vertical flatness detecting unit, the vertical flatness detecting unit comprises a bracket two 414, a sliding piece one 410 is slidably arranged on the bracket two 414, a sliding piece two 417 is also slidably arranged on the bracket two 414, a first end of a connecting piece five 416 is slidably arranged on the sliding piece two 417, a first spring is arranged between the first end of the connecting piece five 416 and the sliding piece two 417, the first end of the first spring is fixedly arranged on the sliding piece two 417, the second end of the first spring is fixedly arranged on the first end of the connecting piece five 416, the first end of a connecting piece four 415 is slidably arranged on the second end of the connecting piece five 416, A second spring is arranged between the first end of the fourth connecting piece 415 and the second end of the fifth connecting piece 416, the first end of the second spring is fixedly arranged on the second end of the fifth connecting piece 416, the second end of the second spring is fixedly arranged on the first end of the fourth connecting piece 415, the second end of the fourth connecting piece 415 is in contact with the first sliding piece 410, the third connecting piece 409 is slidably arranged on the second end of the fourth connecting piece 415, the second bracket 414, the fourth connecting piece 415, the fifth connecting piece 416, the second sliding piece 417 and the first sliding piece 410 are all provided with detection assemblies, a plurality of groups of detection assemblies are arranged on the vertical leveling detection unit, and the plurality of groups of detection assemblies are evenly distributed.

The detection assembly comprises a movable piece 412, the movable piece 412 is slidably mounted on a second bracket 414, the movable piece 412 is slidably mounted on a fourth connecting piece 415, the movable piece 412 is slidably mounted on a second sliding piece 417, the movable piece 412 is slidably mounted on a first sliding piece 410, a first spring 413 is arranged on the movable piece 412, a first end of the first spring 413 is fixedly mounted on the second bracket 414, a first end of the first spring 413 is fixedly mounted on the fourth connecting piece 415, a first end of the first spring 413 is fixedly mounted on a fifth connecting piece 416, a first end of the first spring 413 is fixedly mounted on a second sliding piece 417, a first end of the first spring 413 is fixedly mounted on the first sliding piece 410, a second end of the first spring 413 is fixedly mounted on the movable piece 412, and a first detector 411 is fixedly mounted on the movable piece 412.

The vertical leveling detection unit further comprises a second detector 418, the second detector 418 is fixedly arranged on the second sliding piece 417, the vertical leveling detection unit further comprises a third detector 419, the third detector 419 is fixedly arranged on the fourth connecting piece 415, the vertical leveling detection component 4 further comprises a fourth connecting rod 421, the fourth connecting rods 421 are respectively and fixedly arranged on two sides of the second support 414, and a sixth bevel gear 420 is fixedly arranged on one side, away from the fifth connecting piece 416, of the second support 414.

The vertical leveling detection unit further comprises a second motor 404, the second motor 404 is fixedly arranged on a second support 414, a fourth bevel gear 405 is fixedly arranged at the output end of the second motor 404, the vertical leveling detection unit further comprises a third screw rod 408, a first end of the third screw rod 408 is rotatably arranged on the second support 414, a seventh bevel gear 422 is fixedly arranged at the second end of the third screw rod 408, the third screw rod 408 is in threaded fit with the first sliding piece 410, the vertical leveling detection unit further comprises a second screw rod 407, a first end of the second screw rod 407 is rotatably arranged on the second support 414, a fifth bevel gear 406 is fixedly arranged at the second end of the second screw rod 407, and the second screw rod 407 is in threaded fit with the third connecting piece 409.

Placing the decorative plate on the sliding part two 417 and the connecting part four 415, starting the motor two 404, enabling the output end of the motor two 404 to drive the bevel gear four 405 to move, enabling the bevel gear four 405 to drive the bevel gear seven 422 and the bevel gear five 406 to move, enabling the bevel gear seven 422 to drive the sliding part one 410 to move through the lead screw three 408, enabling the sliding part one 410 to drive the connecting part four 415 to move, enabling the bevel gear five 406 to drive the connecting part three 409 to move through the lead screw two 407, enabling the connecting part three 409 to drive the connecting part five 416 to move through the connecting part four 415, enabling the connecting part five 416 to drive the sliding part two 417 to move, enabling the decorative plate to drive the movable parts 412 to move, enabling the movable parts 412 to compress the springs one 413, enabling the motor two 404 to stop when the decorative plate is clamped, observing the concave-convex conditions of the movable parts 412, enabling the decorative plate verticality to be qualified if the decorative plate is in a flat state, enabling the detector one 411 to detect the flatness of the first face of the decorative plate, enabling the detector two 418 and the detector three 419 to detect the flatness of the second face of the decorative plate, enabling the bevel gear three 223 to drive the bevel gear six 420 to move through the connecting part four 416 to move after the detection is qualified, enabling the bevel gear three 223 to drive the connecting part four to move, enabling the movable part four 414 to move through the connecting part four support frame 414 to move, and enabling the movable support frame two 414 to move through the support frame two to move 401, and limiting the sliding groove 401.

As shown in fig. 17 to 19, the pressure detecting unit 3 includes a first bracket 301, a first end of the first bracket 301 is rotatably mounted on the housing 1, a first end of a hydraulic cylinder 302 is fixedly mounted on the first bracket 301, a ram 303 is fixedly mounted on a second end of the hydraulic cylinder 302, and a face gear 304 is fixedly mounted on the second end of the first bracket 301.

Working principle: firstly, a decorative plate is placed on a sliding part two 417 and a connecting part four 415, a motor two 404 is started, the output end of the motor two 404 drives a bevel gear four 405 to move, the bevel gear four 405 drives a bevel gear seven 422 and a bevel gear five 406 to move, the bevel gear seven 422 drives a sliding part one 410 to move through a screw rod three 408, the sliding part one 410 drives the connecting part four 415 to move, the connecting part four 415 drives a connecting part five 416 to move, the bevel gear five 406 drives a connecting part three 409 to move through a screw rod two 407, the connecting part three 409 drives the connecting part five 416 to move through the connecting part four 415, the connecting part five 416 drives a sliding part two 417 to move, the decorative plate drives a plurality of movable parts 412 to move, the plurality of movable parts 412 compress a plurality of springs one 413, when the decorative plate is clamped, the motor two 404 stops, the concave-convex conditions of the plurality of movable parts 412 are observed, if the decorative plate is in a flat state, the perpendicularity is qualified, the flatness of the first surface of the decorative plate is detected by a plurality of detectors one 411, the flatness of the second surface of the decorative plate is detected by a detector two 418 and a detector three 419, when the detection is qualified, the deflector rod 201 is stirred, the deflector rod 201 drives the incomplete gear one 209 to move, the incomplete gear one 209 drives the incomplete gear two 210 to move, the incomplete gear one 209 drives the connecting piece one 211 to move through a sliding rod two 228, the incomplete gear two 210 drives the connecting piece two 212 to move through a sliding rod one 227, the connecting piece two 212 drives the gear four 217 to move through a connecting rod one 220, the gear four 217 is meshed with the gear one 213, the gear four 217 is meshed with the end face gear 304, the motor one 207 is started, the output end of the motor one 207 drives the gear one 213 to move through a connecting shaft one 208, the gear one 213 drives the gear four 217 to move, the gear four 217 drives the end face gear 304 to move, the hydraulic cylinder 302 is started, the cylinder arm of the hydraulic cylinder 302 drives the pressure head 303 to move, the pressure head 303 carries out pressure detection on the decorative plate, after the pressure head 303 detects the decorative plate is qualified, the driving rod 201 is continuously stirred, the first connecting piece 211 drives the third gear 216 and the second gear 214 to move, the second gear 214 is meshed with the first gear 213, the second connecting piece 212 drives the fourth gear 217 to move, the fourth gear 217 is separated from the meshing state, the second connecting piece 212 drives the third incomplete gear 218 to move, the third incomplete gear 218 is meshed with the first gear 213, the output end of the first motor 207 drives the first gear 213 and the fifth gear 224 to move through the first connecting shaft 208, the first gear 213 drives the second gear 214 to move, the third incomplete gear 218 drives the first worm 221 to move through the third connecting shaft 219, the first worm 221 drives the third bevel gear 223 to move through the first worm gear 222, the third bevel gear 223 drives the sixth bevel gear 420 to move, the sixth bevel gear 420 drives the second bracket 414 to move, the second bracket 414 slides in the first limiting groove 402 and the second limiting groove 403 through the fourth connecting rod 421, the second gear 214 drives the second worm 225 to move through the second connecting shaft 215, the second worm 225 drives the second worm gear 226 to move, the second worm gear 226 drives the universal joint 230 to move through the second connecting rod 229, the universal joint 230 drives the second bevel gear 206 to move through the third connecting rod 231, the second bevel gear 206 drives the first lead screw 204 through the first bevel gear 205, the first lead screw 204 drives the support plate 401 to move, the support plate 401 drives the decorative plate to ascend through the second bracket 414, when the decorative plate is about to arrive at the joint, the stirring rod 201 is continuously stirred, the second gear 214 is separated from the meshing state, the third gear 216 is meshed with the fifth gear 224, the fifth gear 224 drives the third gear 216 to move, the third gear 216 drives the second worm 225 to slowly move through the second connecting shaft 215, the first motor 207 stops when the support plate 401 reaches the joint, and resetting after the bonding is completed.

Claims

1. The utility model provides a decorative board detection device for architectural decoration, includes casing (1), switching element (2), pressure detection part (3), hangs down flat detection part (4), switching element (2), pressure detection part (3), hang down flat detection part (4) and install on casing (1), its characterized in that: the switching component (2) comprises a switching unit, the switching unit comprises a switching component, the switching component comprises a deflector rod (201), the deflector rod (201) is rotatably mounted on a shell (1), an incomplete gear I (209) is fixedly mounted on the deflector rod (201), the incomplete gear I (209) is connected with the shell (1), the switching component further comprises an incomplete gear II (210), the incomplete gear II (210) is rotatably mounted on the shell (1), the incomplete gear II (210) is meshed with the incomplete gear I (209), a sliding rod II (228) is mounted on the incomplete gear I (209), a first end of a connecting piece (211) is slidably mounted on the sliding rod II (228), a gear II (214) is rotatably mounted on a second end of the connecting piece (211), a third gear (216) is fixedly mounted on the gear II (214), spline grooves are formed in the third gear (216) and the second gear II (214), the incomplete gear II (210) is rotatably mounted on the shell (1), a first end of the sliding rod (227) is mounted on the sliding rod II (211), a second end of the connecting piece (220) is mounted on the connecting rod II (220) in a sliding mode, a second end of the connecting rod II (212) is mounted on the connecting rod II (220), an incomplete gear III (218) is rotatably mounted on the second end of the second connecting piece (212), and a spline groove is formed in the incomplete gear III (218).

2. A decorative panel inspection device for architectural decoration as claimed in claim 1, wherein: the vertical and horizontal detection component (4) comprises a support plate (401), the support plate (401) is connected with the switching component (2), a first limiting groove (402) is fixedly installed at the first end of the support plate (401) and a second limiting groove (403) is fixedly installed at the second end of the support plate (401), a first hole is formed in the first end of the support plate (401), a second hole is formed in the second end of the support plate (401), and the vertical and horizontal detection component (4) further comprises a vertical and horizontal detection unit.

3. A decorative panel inspection device for architectural decoration as claimed in claim 1, wherein: the pressure detection component (3) comprises a first support (301), a first end of the first support (301) is rotatably arranged on the shell (1), a first end of a hydraulic cylinder (302) is fixedly arranged on the first support (301), a pressure head (303) is fixedly arranged on a second end of the hydraulic cylinder (302), and a face gear (304) is fixedly arranged on a second end of the first support (301).

4. A decorative panel inspection device for architectural decoration as claimed in claim 1, wherein: the switching component (2) further comprises a power unit, the power unit comprises a first motor (207), the first motor (207) is fixedly installed on the shell (1), a first connecting shaft (208) is fixedly installed at the output end of the first motor (207), two ends of the first connecting shaft (208) are rotatably installed on the shell (1), a first gear (213) is fixedly installed on the first connecting shaft (208), and a fifth gear (224) is fixedly installed on the first gear (213).

5. A decorative panel inspection device for architectural decoration as defined in claim 4, wherein: the change unit still includes drive assembly, rotate the subassembly and include connecting axle three (219), connecting axle three (219) both ends are all rotated and are installed on casing (1), be provided with the spline on connecting axle three (219), connecting axle three (219) and incomplete gear three (218) key connection, be close to connecting axle three (219) first end department fixed mounting has worm one (221), drive assembly still includes worm wheel one (222), worm wheel one (222) and worm one (221) meshing, worm wheel one (222) rotate and install on casing (1), fixed mounting has bevel gear three (223) on worm wheel one (222), drive assembly still includes connecting axle two (215), connecting axle two (215) both ends are all rotated and are installed on casing (1), be provided with the spline on connecting axle two (215), connecting axle two (215) and gear two (214), gear three (216) key connection, be close to connecting axle two (215) first end department fixed mounting has worm wheel one (221) meshing, worm wheel one (226) and worm wheel two (226) are installed to rotate on casing (226), drive assembly two (226).

6. A decorative panel inspection device for architectural decoration as claimed in claim 2, wherein: the vertical leveling detection unit comprises a support two (414), a first sliding part (410) is slidably mounted on the support two (414), a second sliding part (417) is slidably mounted on the support two (414), a first end of a fifth connecting part (416) is slidably mounted on the sliding part two (417), a first spring is arranged between the first end of the fifth connecting part (416) and the second sliding part (417), the first end of the first spring is fixedly mounted on the second sliding part (417), the second end of the first spring is fixedly mounted on the first end of the fifth connecting part (416), a first end of a fourth connecting part (415) is slidably mounted on the second end of the fifth connecting part (416), a second spring is arranged between the first end of the fourth connecting part (415) and the second end of the fifth connecting part (416), the second end of the second spring is fixedly mounted on the first end of the fourth connecting part (415), the second end of the fourth connecting part (415) and the first sliding part (416), the first sliding part (416) and the second sliding part (416) are uniformly distributed, and the first sliding part (410) and the second sliding part (410) are uniformly distributed.

7. A decorative panel inspection device for architectural decoration as defined in claim 6, wherein: the detection assembly comprises a movable piece (412), the movable piece (412) is slidably mounted on a second bracket (414), the movable piece (412) is slidably mounted on a fourth connecting piece (415), the movable piece (412) is slidably mounted on a second sliding piece (417), the movable piece (412) is slidably mounted on a first sliding piece (410), a first spring (413) is arranged on the movable piece (412), a first end of the first spring (413) is fixedly mounted on a second bracket (414), a first end of the first spring (413) is fixedly mounted on a fourth connecting piece (415), a first end of the first spring (413) is fixedly mounted on a fifth connecting piece (416), a first end of the first spring (413) is fixedly mounted on a second sliding piece (417), a second end of the first spring (413) is fixedly mounted on the movable piece (412), and a first detector (411) is fixedly mounted on the movable piece (412).

8. A decorative panel inspection device for architectural decoration according to claim 5, wherein: the power unit further comprises a lifting assembly, the lifting assembly comprises a second connecting rod (229), the first end of the second connecting rod (229) is fixedly arranged on the second worm gear (226), a universal joint (230) is fixedly arranged at the second end of the second connecting rod (229), the second connecting rod (229) is connected with the shell (1), the first end of the third connecting rod (231) is fixedly arranged on the universal joint (230), a bevel gear (206) is fixedly arranged at the second end of the third connecting rod (231), the lifting assembly comprises a first screw rod (204), the first screw rod (204) is rotatably arranged on the shell (1), the first bevel gear (205) is fixedly arranged at the first end of the first screw rod (204), the first bevel gear (205) is meshed with the first screw rod (204), and the lifting assembly further comprises a fixed slide rod (203), and the fixed slide rod (203) is fixedly arranged on the shell (1).

9. A decorative panel inspection device for architectural decoration as defined in claim 7, wherein: the vertical leveling detection unit further comprises a second detector (418), the second detector (418) is fixedly arranged on the second sliding piece (417), the vertical leveling detection unit further comprises a third detector (419), the third detector (419) is fixedly arranged on the fourth connecting piece (415), the vertical leveling detection component (4) further comprises two fourth connecting rods (421), the two fourth connecting rods (421) are respectively and fixedly arranged on two sides of the second bracket (414), and a sixth bevel gear (420) is fixedly arranged on one side, far away from the fifth connecting piece (416), of the second bracket (414).