CN116625824A - Automatic quality detection method for building materials - Google Patents

Abstract

The invention discloses an automatic quality detection method of building materials, which is used for detecting the quality of the building materials, and the automatic quality detection device of the building materials comprises a shell and a base, wherein a moving assembly used for providing power for the device is arranged in the shell, a repairing assembly used for brushing the surface of the metal materials is arranged in front of the shell, a marking assembly used for marking the building materials is also arranged in front of the shell, a pushing assembly used for pushing the building materials is arranged below the base, a rotating shaft rotates to drive a driving part to rotate, the driving part is meshed and connected with a driven part, a brush rod can brush high-temperature glue in a glue storage box on the surface of the metal materials through a brush by virtue of movement of a third piston part, and a friction plate at one end of a connecting rod is pushed by a wedge block to rub the metal materials to drive the metal materials to rotate, so that pits on the surface of the metal materials are repaired, and meanwhile, the quality detection efficiency of the building materials can be improved.

Description

Automatic quality detection method for building materials

Technical Field

The invention relates to the technical field related to building material detection, in particular to an automatic quality detection method for building materials.

Background

Building materials are a generic term for materials used in civil engineering and construction. Can be divided into structural materials, decorative materials and certain specialty materials. Structural materials include wood, bamboo, stone, cement, concrete, metal, bricks and tiles, ceramics, glass, engineering plastics, composite materials and the like, and when materials are purchased, a constructor needs to carry out strict detection to test whether the building materials are qualified or not before purchasing.

The existing device can detect the quality of the building material although the existing device can detect the quality of the building material when the existing device is used, the existing device cannot mark the building material when the existing device is used, the existing device can affect the screening of subsequent workers, the existing device cannot repair and fill the surface of the metal material in the detection process, and the existing device needs manual repair subsequently, so that the working efficiency is low, and the automatic quality detection method for the building material is provided.

Disclosure of Invention

The invention aims to provide an automatic quality detection method for building materials, which aims to solve the problems set forth in the background.

In order to achieve the above purpose, the present invention provides the following technical solutions: an automatic quality detection method of building materials is used for detecting the quality of the building materials, the automatic quality detection method of the building materials is realized by an automatic quality detection device of the building materials, the automatic quality detection device of the building materials comprises a shell and a base, a moving component for providing power for the device is arranged inside the shell, a repairing component for brushing the surface of the metal materials is arranged in front of the shell, a marking component for marking the building materials is also arranged in front of the shell, a pushing component for pushing the building materials is arranged below the base, and the automatic quality detection method of the building materials comprises the following steps:

step one: the motion assembly is used for detecting the strength of the building material;

step two: the repairing component is used for brushing and repairing the building material;

step three: the marking component is used for marking the detected building materials;

step four: the pushing component can push building materials to carry out sectional detection.

Preferably, the motion subassembly includes the motor, motor output fixedly connected with pivot, pivot fixed surface is connected with initiative spare, initiative spare meshing is connected with the follower, pivot lower extreme fixedly connected with carousel, carousel lower extreme is through articulated ball swing joint has the diagonal bar, the diagonal bar other end is through articulated ball swing joint has the slide, slide lower extreme fixedly connected with upper extrusion piece, slide both sides fixedly connected with covers, the slide below is provided with first piston spare, the inside check valve that is provided with of first piston spare, the inside sliding connection of slide has the traveller.

Preferably, the repairing assembly comprises a first belt, the driven piece drives the first belt to rotate through a belt wheel, an eccentric wheel is arranged at the rear of the first belt, a second belt is arranged on the surface of the eccentric wheel, a rotating wheel is arranged below the eccentric wheel, a moving rod is fixedly connected to the rear end of the rotating wheel, a brush rod is rotationally connected to the surface of the moving rod, a third piston piece is arranged above the brush rod, a glue storage tank is fixedly communicated with the rear end of the third piston piece, a second piston piece is arranged below the brush rod, an air ejector tube is fixedly connected to the air outlet end of the second piston piece, a screen plate is fixedly communicated with the upper portion of the air ejector tube, and a one-way valve is arranged inside the second piston piece and the third piston piece.

Preferably, the wedge is fixedly connected with to the lower end of the motion rod, the connecting rod is arranged on the left side of the wedge, the friction plate is fixedly connected to the left side of the connecting rod, the reset element is arranged on the surface of the connecting rod, the friction pad is arranged on the upper surface of the friction plate, the baffle is fixedly connected to the lower portion of the glue storage box, the baffle is fixedly connected with the base, the supporting block is fixedly connected to the lower portion of the base, the discharging plate is fixedly connected to the upper portion of the base, the upper portion of the discharging plate is arranged into an arc shape, and the protective shell is detachably connected to the upper portion of the shell.

Preferably, the marking assembly comprises a conveyor belt, the conveyor belt is connected with a transmission shaft through a belt wheel, the surface of the transmission shaft is rotationally connected with a supporting plate, the supporting plate is fixedly connected with a shell, the surface of the transmission shaft is fixedly connected with a cam, the transmission shaft is rotationally connected with a base, a moving plate is arranged at the rear of the cam, the moving plate is in sliding connection with a baffle, a marking ball is arranged above a small plate on the side face of the moving plate, the other end of the marking ball is fixedly connected with a rotating block, a first gear is fixedly connected with the rear of the rotating block, a first gear is connected with a first rack in a meshed manner, the first rack is in sliding connection with the base, and the first rack is fixedly connected with the sliding plate.

Preferably, the pushing component comprises a second rack, the second rack is fixedly connected with the cover, a second gear is connected to the side face of the second rack in a meshed mode, a transmission rod is fixedly connected to the second gear, a short swing rod is connected to the other end of the transmission rod in a rotating mode through a pin shaft, a long swing rod is connected to the short swing rod in a rotating mode through a pin shaft, a sliding block is connected to the long swing rod in a rotating mode through a pin shaft, a limiting block is connected to the lower portion of the sliding block in a sliding mode, the limiting block is fixedly connected with the bottom face of the base, a connecting block is fixedly connected to the upper portion of the sliding block, a push rod is fixedly connected to the front portion of the connecting block, and a pushing plate is fixedly connected to the rear portion of the push rod.

Preferably, the push rod slides in the baiting plate, the motion rod moves in the arc-shaped groove formed in the baffle, the sliding column, the sliding plate and the first piston are symmetrically arranged in two groups along the axis of the rotating shaft, the side surface of the first piston is provided with a flat plate, the transmission rod rotates in the base, the shape of the screen plate is set into an arc shape, the brush rod swings around a pin shaft on the side surface of the baffle, a lower extrusion block is fixedly connected with the upper side of the base, and the lower extrusion block is identical to the upper extrusion block in size.

Preferably, the eccentric wheel is rotationally connected with the shell, the connecting rod slides on the side surface of the wedge block, the friction plate is in sliding connection with the base, the screen plate is in fixed connection with the baffle, the air ejector tube is in fixed connection with the base, the bottom of the second piston part is in fixed connection with the base, the rotating block is communicated with the inside of the marking ball, the marking ball is provided with two groups on the side surface of the rotating block, the protection shell is detachably connected with the motor, a reset element is arranged behind the motion plate, and a brush is arranged at the left end of the brush rod.

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

1. according to the invention, the motor in the motion assembly drives the rotating shaft to rotate, the rotating shaft drives the rotating disc to rotate, the rotating disc drives the inclined rod to move, the inclined rod moves to push the sliding plate to slide on the surface of the sliding column, the sliding plate moves to drive the upper extrusion block to extrude the metal material, and meanwhile, the sliding plate moves to drive the first piston to move.

2. According to the invention, the driving part is driven to rotate through rotation of the rotating shaft, the driving part is meshed and connected to drive the driven part to rotate, the driven part drives the first belt to rotate through the belt pulley, the first belt drives the eccentric wheel to rotate through the belt pulley, the eccentric wheel drives the rotating wheel to swing through the second belt, the rotating wheel swings to drive the brush rod to swing, the brush rod can brush high-temperature glue in the glue storage box on the surface of a metal material through the brush through movement of the third piston part, external air can be sprayed on the surface of the painted metal material through the screen plate above the air spraying pipe through movement of the second piston part, the rotating wheel drives the moving rod to move, the moving rod drives the friction plate at one end of the connecting rod to rub the metal material through the wedge block, and the metal material is driven to rotate.

3. According to the invention, the conveyor belt is driven to rotate through the rotating shaft, the conveyor belt drives the transmission shaft to rotate through the belt wheel, the transmission shaft drives the cam to rotate so as to push the motion plate to slide in the discharging plate, the first rack is driven to move through the up-and-down motion of the shielding cover, the first rack is meshed and driven to drive the first gear to rotate, the first gear drives the rotating block to rotate through the pin shaft, and the rotating block rotates to drive the marking ball.

4. According to the invention, the second rack is driven to move through covering movement, the second rack is meshed and driven to drive the second gear to rotate, the second gear drives the transmission rod to rotate, the transmission rod rotates to drive the short swing rod to rotate, the short swing rod drives the long swing rod to swing, the long swing rod swings to push the sliding block to slide in the limiting block, the sliding block moves through the push rod at one end of the connecting block, and the push rod pushes the metal material to move through the push plate.

Drawings

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

FIG. 2 is a front elevational view of the overall structure of the present invention;

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

FIG. 4 is a cross-sectional view of the present invention;

FIG. 5 is a schematic diagram of a repair assembly according to the present invention;

FIG. 6 is a rear view of the prosthetic component of the present invention;

FIG. 7 is a schematic view of a marking assembly of the present invention;

FIG. 8 is a schematic diagram of a motion assembly according to the present invention;

FIG. 9 is a schematic diagram of a pushing assembly according to the present invention;

FIG. 10 is a schematic view of the marking assembly and the moving assembly of the present invention;

FIG. 11 is a flow chart of steps of a method for automated quality inspection of building materials in accordance with the present invention;

in the figure: 1. a housing; 2. a protective shell; 3. a base; 4. a support block; 5. a baffle; 6. a discharging plate; 7. extruding a block downwards; 100. a motion assembly; 101. a motor; 102. a rotating shaft; 103. a driving member; 104. a follower; 105. a spool; 106. a slide plate; 107. a turntable; 108. a diagonal rod; 109. covering; 110. a pressing block is arranged; 111. a first piston member; 200. repairing the component; 201. a first belt; 202. an eccentric wheel; 203. a second belt; 204. a rotating wheel; 205. a brush bar; 206. a second piston member; 207. a third piston member; 208. a glue storage box; 209. a brush; 210. a gas lance; 211. a screen plate; 212. a motion bar; 213. wedge blocks; 214. a connecting rod; 215. a friction plate; 300. a marking assembly; 301. a conveyor belt; 302. a transmission shaft; 303. a support plate; 304. a cam; 305. a rotating block; 306. marking a ball; 307. a motion plate; 308. a first gear; 309. a first rack; 400. a pushing component; 401. a second rack; 402. a second gear; 403. a transmission rod; 404. a limiting block; 405. a short swing rod; 406. a long swing rod; 407. a slide block; 408. a connecting block; 409. a push rod; 410. a push plate.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention. The components of the embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the invention, as presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be made by a person skilled in the art without making any inventive effort, are intended to be within the scope of the present invention.

Referring to fig. 1 to 11, the present invention provides a technical solution: an automatic quality detection method of building materials is used for detecting the quality of the building materials, the automatic quality detection method of the building materials is realized by an automatic quality detection device of the building materials, the automatic quality detection device of the building materials comprises a shell 1 and a base 3, a moving component 100 for providing power for the device is arranged in the shell 1, a repairing component 200 for brushing the surface of the metal materials is arranged in front of the shell 1, a marking component 300 for marking the building materials is also arranged in front of the shell 1, a pushing component 400 for pushing the building materials is arranged below the base 3, and the automatic quality detection method of the building materials comprises the following steps:

step one: the motion assembly 100 is used for strength detection of building materials;

step two: the repairing assembly 200 is used for performing brushing repairing on building materials;

step three: the marking assembly 300 is used for marking the detected building material;

step four: the pushing assembly 400 can push building materials for segment detection.

For convenience to carry out intensity detection to building material, motion assembly 100 includes motor 101, motor 101 output fixedly connected with pivot 102, pivot 102 fixed surface is connected with driving piece 103, driving piece 103 meshing is connected with follower 104, pivot 102 lower extreme fixedly connected with carousel 107, carousel 107 lower extreme is through articulated ball swing joint has diagonal bar 108, the diagonal bar 108 other end is through articulated ball swing joint has slide 106, slide 106 lower extreme fixedly connected with upper extrusion piece 110, slide 106 both sides fixedly connected with covers 109, slide 106 below is provided with first piston 111, the inside check valve that is provided with of first piston 111, slide 106 inside sliding connection has slide 105.

In order to repair the surface of the building material by brushing the glue, the repairing assembly 200 comprises a first belt 201, the driven part 104 drives the first belt 201 to rotate through a belt wheel, an eccentric wheel 202 is arranged at the rear of the first belt 201, a second belt 203 is arranged on the surface of the eccentric wheel 202, a rotating wheel 204 is arranged below the eccentric wheel 202, the rear end of the rotating wheel 204 is fixedly connected with a moving rod 212, the surface of the moving rod 212 is rotationally connected with a brush rod 205, a third piston member 207 is arranged above the brush rod 205, the rear end of the third piston member 207 is fixedly communicated with a glue storage tank 208, a second piston member 206 is arranged below the brush rod 205, the air outlet end of the second piston member 206 is fixedly connected with an air injection pipe 210, a screen 211 is fixedly communicated above the air injection pipe 210, and a one-way valve is arranged inside the second piston member 206 and the third piston member 207.

In order to uniformly coat high-temperature glue on the surface of a building material, the lower end of the motion rod 212 is fixedly connected with a wedge block 213, the left side of the wedge block 213 is provided with a connecting rod 214, the left side of the connecting rod 214 is fixedly connected with a friction plate 215, the surface of the connecting rod 214 is provided with a reset element, the upper surface of the friction plate 215 is provided with a friction pad, the lower part of the glue storage box 208 is fixedly connected with a baffle 5, the baffle 5 is fixedly connected with a base 3, the lower part of the base 3 is fixedly connected with a supporting block 4, the upper part of the base 3 is fixedly connected with a discharging plate 6, the upper part of the discharging plate 6 is in an arc shape, and the upper part of the shell 1 is detachably connected with a protective shell 2.

In order to facilitate discrimination of the detected building materials by workers, the marking assembly 300 comprises a conveying belt 301, the conveying belt 301 is connected with a transmission shaft 302 through a belt wheel, the surface of the transmission shaft 302 is rotationally connected with a supporting plate 303, the supporting plate 303 is fixedly connected with a shell 1, the surface of the transmission shaft 302 is fixedly connected with a cam 304, the transmission shaft 302 is rotationally connected with a base 3, a moving plate 307 is arranged behind the cam 304, the moving plate 307 is in sliding connection with a baffle 5, a marking ball 306 is arranged above a small plate on the side face of the moving plate 307, the other end of the marking ball 306 is fixedly connected with a rotating block 305, a first gear 308 is fixedly connected behind the rotating block 305, a first rack 309 is meshed and connected with the first gear 308, the first rack 309 is in sliding connection with the base 3, and the first rack 309 is fixedly connected with a sliding plate 106.

In order to facilitate the sectional detection of building materials, the pushing assembly 400 comprises a second rack 401, the second rack 401 is fixedly connected with the cover 109, a second gear 402 is connected to the side face of the second rack 401 in a meshed mode, a transmission rod 403 is fixedly connected to the second gear 402, a short swing rod 405 is connected to the other end of the transmission rod 403 in a rotating mode through a pin shaft, a long swing rod 406 is connected to the short swing rod 405 in a rotating mode through a pin shaft, a sliding block 407 is connected to the long swing rod 406 in a rotating mode through a pin shaft, a limiting block 404 is connected to the lower portion of the sliding block 407 in a sliding mode, the limiting block 404 is fixedly connected with the bottom face of the base 3, a connecting block 408 is fixedly connected to the upper portion of the sliding block 407, a push rod 409 is fixedly connected to the front portion of the connecting block 408, and a push plate 410 is fixedly connected to the rear portion of the push rod 409.

For smooth operation of the device, the push rod 409 slides in the discharging plate 6, the motion rod 212 moves in the arc-shaped groove formed in the baffle 5, the sliding column 105, the sliding plate 106 and the first piston 111 are symmetrically arranged along the axis of the rotating shaft 102, the side face of the first piston 111 is provided with a flat plate, the transmission rod 403 rotates in the base 3, the shape of the screen 211 is set to be arc-shaped, the brush rod 205 swings around a pin shaft on the side face of the baffle 5, the lower extrusion block 7 is fixedly connected with the upper side of the base 3, and the size of the lower extrusion block 7 is identical with that of the upper extrusion block 110.

For the stability of the device, the eccentric wheel 202 is rotationally connected with the shell 1, the connecting rod 214 slides on the side surface of the wedge block 213, the friction plate 215 is in sliding connection with the base 3, the screen plate 211 is fixedly connected with the baffle plate 5, the air ejector tube 210 is fixedly connected with the base 3, the bottom of the second piston member 206 is fixedly connected with the base 3, the rotating block 305 is internally communicated with the marking ball 306, the marking ball 306 is provided with two groups on the side surface of the rotating block 305, the protecting shell 2 is detachably connected with the motor 101, a reset element is arranged behind the moving plate 307, and the left end of the brush rod 205 is provided with the brush 209.

Working principle: after the invention is installed, a worker pushes the metal material to the position of the lower extrusion block 7 through the discharging plate 6, the motor 101 is started to rotate to drive the rotating shaft 102 to rotate, the rotating shaft 102 drives the rotating disc 107 to rotate, the rotating disc 107 pushes the sliding plate 106 to slide on the surface of the sliding column 105 through the inclined rod 108, the sliding plate 106 slides to drive the upper extrusion block 110 to extrude the metal material, and the compressive strength of the building material is detected;

when the upper extrusion block 110 and the lower extrusion block 7 are matched for extrusion, the driving piece 103 is driven to rotate through the rotating shaft 102, the driving piece 103 is meshed for transmission to drive the driven piece 104 to rotate, the driven piece 104 drives the first belt 201 to rotate through the belt pulley, the first belt 201 drives the eccentric wheel 202 to rotate through the belt pulley, the eccentric wheel 202 drives the rotating wheel 204 to reciprocate through the second belt 203, the rotating wheel 204 swings to drive the brush rod 205 to swing around the pin shaft, the brush rod 205 swings to drive the third piston piece 207 to spray high-temperature glue in the glue storage tank 208 in the brush rod 205, the brush 209 can brush the high-temperature glue in the brush rod 205 on the surface of a metal material, pits on the surface of the metal material can be repaired, the second piston piece 206 is driven to swing through the brush rod 205 to drive the second piston piece 206 to move, the outside fresh air can be sprayed on the surface of the metal material with the high-temperature glue through the screen 211 above the air spraying pipe 210, the rotating wheel 204 swings to drive the moving rod 212 to move around the pin shaft, the connecting rod 214 is pushed by the wedge block 213 to move, the connecting rod 214 pushes the plate 215 to slide on the surface of the base 3, and the metal material can be uniformly coated on the surface of the metal material;

when the motor 101 rotates to drive the rotating shaft 102 to move, the rotating shaft 102 drives the conveying belt 301 to move through the belt pulley, the conveying belt 301 drives the transmission shaft 302 to move through the belt pulley, the transmission shaft 302 rotates to drive the cam 304 to rotate, the cam 304 moves to push the moving plate 307 to slide in the discharging plate 6, the first rack 309 is driven to move through the cover 109, the first rack 309 is meshed and connected to drive the first gear 308 to rotate, the first gear 308 drives the marking ball 306 on the side face of the rotating block 305 to mark metal materials through the rotation of the pin shaft, and the detection efficiency can be improved;

the second rack 401 is driven to move up and down through the movement of the cover 109, the second rack 401 is meshed and driven to drive the second gear 402 to rotate, the second gear 402 drives the short swing rod 405 to rotate through the transmission rod 403, the short swing rod 405 drives the long swing rod 406 to swing through the pin shaft, the long swing rod 406 pushes the sliding block 407 to slide above the limiting block 404, the sliding block 407 slides to drive the push rod 409 in front of the connecting block 408 to push forwards, the push rod 409 pushes the push plate 410 to push metal materials, the high-temperature glue can be uniformly attached to the metal materials, the sectional strength detection can be completed on the metal materials, and the detection quality is improved.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: many changes, modifications, substitutions and variations may be made to the embodiments without departing from the spirit and scope of the invention as defined by the claims and their equivalents.

Claims (8)

1. An automatic quality detection method for building materials is used for detecting the quality of the building materials and is characterized in that: the automatic quality detection method of the building material is realized by an automatic quality detection device of the building material, the automatic quality detection device of the building material comprises a shell (1) and a base (3), a moving component (100) for providing power for the device and detecting the strength of the building material is arranged in the shell (1), a repairing component (200) for brushing the surface of the metal material is arranged in front of the shell (1), a marking component (300) for marking the building material is also arranged in front of the shell (1), a pushing component (400) for pushing the building material is arranged below the base (3), and the automatic quality detection method of the building material comprises the following steps:

step one: the motion assembly (100) is used for detecting the strength of the building material;

step two: the repairing component (200) is used for brushing and repairing the building material;

step three: a marking assembly (300) for marking the detected building material;

step four: the pushing component (400) can push building materials to perform sectional detection.

2. The method for automated quality inspection of building materials according to claim 1, wherein: the motion assembly (100) comprises a motor (101), motor (101) output fixedly connected with pivot (102), pivot (102) fixedly connected with driving piece (103) surface, driving piece (103) meshing is connected with driven piece (104), pivot (102) lower extreme fixedly connected with carousel (107), carousel (107) lower extreme is through articulated ball swing joint have down tube (108), down tube (108) other end is through articulated ball swing joint have slide (106), slide (106) lower extreme fixedly connected with upper extrusion piece (110), slide (106) both sides fixedly connected with cover (109), slide (106) below is provided with first piston (111), the inside check valve that is provided with of first piston (111), slide (106) inside sliding connection has slide (105).

3. The method for automated quality inspection of building materials according to claim 2, wherein: the repairing assembly (200) comprises a first belt (201), the driven piece (104) drives the first belt (201) to rotate through a belt wheel, an eccentric wheel (202) is arranged at the rear of the first belt (201), a second belt (203) is arranged on the surface of the eccentric wheel (202), a rotating wheel (204) is arranged below the eccentric wheel (202), a moving rod (212) is fixedly connected to the rear end of the rotating wheel (204), a brush rod (205) is rotationally connected to the surface of the moving rod (212), a third piston piece (207) is arranged above the brush rod (205), a glue storage tank (208) is fixedly communicated with the rear end of the third piston piece (207), a second piston piece (206) is arranged below the brush rod (205), a pipe (210) is fixedly connected to the air outlet end of the second piston piece (206), a screen plate (211) is fixedly communicated with the upper portion of the air injection pipe (210), and a one-way valve is arranged inside the second piston piece (206) and the third piston piece (207).

4. A method for automated quality inspection of building materials according to claim 3, wherein: the utility model discloses a movable rod, including movable rod (212), base (3), connecting rod (214), connecting rod (213) lower extreme fixedly connected with wedge (213), connecting rod (214) left side fixedly connected with friction plate (215), connecting rod (214) surface is provided with reset element, friction plate (215) upper surface is provided with the friction pad, glue storage case (208) below fixedly connected with baffle (5), baffle (5) be fixed connection with base (3), the below fixedly connected with supporting shoe (4) of base (3), the top fixedly connected with blowing board (6) of base (3), blowing board (6) top square shape sets up to arcuation, the top of casing (1) can be dismantled and be connected with protective housing (2).

5. The method for automated quality inspection of building materials according to claim 4, wherein: the utility model provides a mark subassembly (300) is including conveyer belt (301), conveyer belt (301) are connected with transmission shaft (302) through the band pulley, transmission shaft (302) surface rotation is connected with backup pad (303), backup pad (303) are fixed connection with casing (1), transmission shaft (302) surface fixedly connected with cam (304), transmission shaft (302) are rotation connection with base (3), the rear of cam (304) is provided with movable plate (307), movable plate (307) are sliding connection with baffle (5), the top of movable plate (307) side platelet is provided with mark ball (306), mark ball (306) other end fixedly connected with rotary block (305), rotary block (305) rear fixedly connected with first gear (308), first gear (308) meshing is connected with first rack (309), first rack (309) are sliding connection with base (3), first rack (309) are fixed connection with slide (106).

6. The method for automated quality inspection of building materials according to claim 5, wherein: the pushing assembly (400) comprises a second rack (401), the second rack (401) is fixedly connected with a cover (109), a second gear (402) is connected to the side face of the second rack (401) in a meshed mode, a transmission rod (403) is fixedly connected to the second gear (402), a short swinging rod (405) is connected to the other end of the transmission rod (403) through a pin shaft in a rotating mode, a long swinging rod (406) is connected to the short swinging rod (405) through a pin shaft in a rotating mode, a sliding block (407) is connected to the long swinging rod (406) through a pin shaft in a rotating mode, a limiting block (404) is connected to the lower portion of the sliding block (407) in a sliding mode, a connecting block (408) is fixedly connected to the bottom face of the limiting block (404) and the base (3), a pushing rod (409) is fixedly connected to the front of the connecting block (408), and a pushing plate (410) is fixedly connected to the rear of the pushing rod (409).

7. The method for automated quality inspection of building materials according to claim 6, wherein: push rod (409) are in blowing board (6) inside slip, arc inslot motion that dead lever (212) were seted up in baffle (5) inside, slide post (105), slide (106), first piston spare (111) are provided with two sets of along pivot (102) axis symmetry, first piston spare (111) side is provided with the flat board, transfer line (403) are at the inside rotation of base (3), the shape of otter board (211) sets up to arcuation, brush-holder stud (205) swing around the round pin axle of baffle (5) side, extrusion piece (7) under the top fixedly connected with of base (3), extrusion piece (7) are the same with last extrusion piece (110) size down.

8. The method for automated quality inspection of building materials of claim 7, wherein: eccentric wheel (202) are rotationally connected with casing (1), connecting rod (214) slide in wedge (213) side, friction plate (215) are sliding connection with base (3), otter board (211) are fixed connection with baffle (5), jet pipe (210) are fixed connection with base (3), second piston spare (206) bottom and base (3) are fixed connection, change piece (305) and mark ball (306) inside link up, mark ball (306) are provided with two sets of in change piece (305) side, protective housing (2) are detachable connection with motor (101), kinematic plate (307) rear is provided with reset element, the left end of brush pole (205) is provided with brush (209).