CN116659425B

CN116659425B - Building board material flatness detection device

Info

Publication number: CN116659425B
Application number: CN202310623199.2A
Authority: CN
Inventors: 魏明; 闵德秀; 褚夫娟; 徐晓敏; 董荣丹
Original assignee: Shandong Xingang Group Co ltd
Current assignee: Shandong Xingang Group Co ltd
Priority date: 2023-05-30
Filing date: 2023-05-30
Publication date: 2024-01-05
Anticipated expiration: 2043-05-30
Also published as: CN116659425A

Abstract

The invention provides a flatness detection device for building board materials, and relates to the field of building board detection. The flatness detection device for the building board material comprises a detection table, wherein a top frame is fixedly connected to the detection table, a controller is installed and connected to the side wall of the detection table, and two first cross bars are symmetrically and fixedly connected to the top frame. According to the flatness detection device for the building board material, the electric cylinder is controlled to work, so that the marking liquid in the storage tank flows into the suction pipe and then is discharged into the spray pipe to be sprayed out, and when the uneven position is detected, the spray pipe can automatically spray the marking liquid at the uneven position of the board surface to mark; the dust collection box is characterized in that the dust collection box is driven to move through rotation of the driving shaft, the strip-shaped hairbrush on the dust collection box can automatically clean the surface of the plate, and the fan works to form air flow to suck dust on the surface of the plate into the dust collection box, so that the surface of the plate can be automatically cleaned before detection.

Description

Building board material flatness detection device

Technical Field

The invention relates to the field of building board detection, in particular to a device for detecting flatness of building board materials.

Background

The plate is a flat rectangular building material plate made into standard size, and is applied to the building industry and used as a member of a wall, a ceiling or a floor. And also to a metal plate that is forged, rolled or cast. The flatness of the surface of the plate is one of the factors for determining the quality of the building plate so as to avoid influencing the engineering quality, and the flatness of the surface of the traditional plate is generally detected by the flatness detection device of the building plate material.

The prior building board material flatness detection device can place a board on a detection table board when detecting the flatness of the building board material, and then detects the plane of the board by using an infrared laser matched receiver, but the surface of the board is unavoidably attached with dust, so that the detection of the flatness of the building board is easily affected, and when the unevenness of the surface of the board is detected, a worker is required to pay attention to the detection condition and carry out manual marking at all times, and the whole detection process is more troublesome.

Accordingly, there is a need to provide a new flatness detection device for building board materials that solves the above-mentioned technical problems.

Disclosure of Invention

In order to solve the technical problems, the invention provides a flatness detection device for building board materials.

The invention provides a flatness detection device for building board materials, which comprises: the device comprises a detection table, wherein a top frame is fixedly connected to the detection table, a controller is arranged on the side wall of the detection table, two first cross bars are symmetrically and fixedly connected to the top frame, a dust collection shell is slidably connected between the two first cross bars, a strip-shaped hairbrush is arranged on the shell wall of the lower end of the dust collection shell, second cross bars are fixedly connected to the side walls of the two sides of the detection table, a frame is slidably connected between the two second cross bars, a detection assembly is arranged on the frame, a spray pipe is fixedly connected to the frame, and a storage tank is fixedly connected to the lower end of the detection table; the marking mechanism comprises a drawing pipe, the drawing pipe is fixedly arranged on the outer wall of the storage tank, a piston rod is connected to the pipe wall of the drawing pipe in a sliding manner, a suction assembly is arranged at the lower end of the drawing pipe, an electric cylinder is arranged on the outer wall of the storage tank, a connecting plate is fixedly connected to the telescopic end of the electric cylinder, and one end of the piston rod is fixedly connected with the connecting plate.

Preferably, the detection assembly comprises an infrared laser, the infrared laser is fixedly arranged at one end of the frame, and the other end of the frame is fixedly connected with an infrared receiver.

Preferably, the suction assembly comprises a three-way pipe, a middle pipe orifice and two auxiliary pipe orifice are arranged on the three-way pipe, the middle pipe orifice is fixedly connected with the lower pipe wall of the suction pipe, one end of the suction pipe orifice is fixedly connected with the tank wall of the storage tank, the other end of the suction pipe orifice is connected with the spray pipe through a connecting pipe, one end of the suction pipe orifice is provided with a liquid inlet valve, and the other end of the suction pipe orifice is provided with a liquid outlet valve.

Preferably, the two ends of the top frame are respectively provided with a convex block, a driving shaft is rotationally connected between the two convex blocks, a threaded sleeve is arranged on the driving shaft, one end of the driving shaft is provided with a motor which is fixedly connected with the convex block, the output end of the motor is fixedly connected with one end of the driving shaft, an I-shaped sliding block is fixedly connected with the threaded sleeve, a limiting groove is formed in the top frame, the I-shaped sliding block is in sliding connection with the limiting groove, and the lower end of the I-shaped sliding block is fixedly connected with a cylinder shell.

Preferably, the driving shaft is a threaded shaft, and the threaded sleeve is in threaded connection with the driving shaft.

Preferably, the dust collection shell is provided with a first inserting block, the frame is provided with a second inserting block, grooves are formed in the first inserting block and the second inserting block, a switching assembly is arranged in the shell and comprises built-in inserting pestles, sliding ports are formed in the walls of the two ends of the shell, the two ends of the built-in inserting pestles are respectively connected with the two sliding ports in a sliding mode, the middle of the built-in inserting pestles is fixedly connected with a middle magnetic block, the two ends of the built-in inserting pestles are respectively sleeved with a small spring, electromagnetic blocks are fixedly connected to the inner walls of the two ends of the shell, one ends of the two small springs are connected with the middle magnetic block, and the other ends of the two small springs are respectively connected with the two electromagnetic blocks.

Preferably, the lower extreme fixedly connected with collecting box of test bench, the externally mounted of collecting box has the fan, the air inlet end department of fan is equipped with the tuber pipe, the one end of tuber pipe extends to the inside of collecting box, be equipped with the joint on one side tank wall of collecting box, the joint is connected with the dust absorption shell through the long tube, the one end mouth of pipe department of tuber pipe is equipped with filter equipment, filter equipment includes the filter core, be equipped with the collar on the filter core, collar fixed mounting is on the one end pipe wall of tuber pipe.

Preferably, a box door is installed and connected on the wall of the collecting box, and a drawing box is arranged in the collecting box.

Compared with the related art, the flatness detection device for the building board material has the following beneficial effects:

the invention provides a flatness detection device for building board materials, which is characterized in that an output end of an electric cylinder is controlled to reciprocate to drive a connecting plate to move by controlling the electric cylinder to work, and the connecting plate drives a piston rod to slide relative to a pipe wall of a pumping pipe, so that marking liquid in a storage tank flows into the pumping pipe through a three-way pipe and then is discharged into a spray pipe to be sprayed out, and when an uneven position is detected, the marking liquid can be sprayed and coated on the uneven position of a board automatically to mark, so that the uneven position of the board can be conveniently identified later;

the invention provides a flatness detection device for building board materials, which is characterized in that a driving shaft drives a threaded sleeve to drive an I-shaped sliding block to slide relative to a top frame, so that a cylinder shell drives a dust collection shell to move along with the sliding block, a strip-shaped brush on the dust collection shell can automatically clean the surface of a board, and a fan works to suck dust on the surface of the board into the interior of a collection box by utilizing air flow, so that the surface of the board can be automatically cleaned before detection, and the influence of dust accumulated on the surface of the board on the flatness detection of the building board is avoided;

3. the invention provides a flatness detection device for building board materials, which is characterized in that electromagnetic blocks at two ends are electrified by controlling respectively to generate magnetic repulsion to enable the electromagnetic blocks to be arranged in middle, two ends of an adjustable built-in plug-in pestle are respectively inserted into a first plug-in block or a second plug-in block in a sliding mode, so that automatic switching is realized, a dust collection shell and a frame are driven to alternately move, and cleaning and detection of boards can be automatically completed.

Drawings

FIG. 1 is a schematic view of a flatness detecting device for building board materials according to one preferred embodiment of the present invention;

FIG. 2 is a schematic diagram showing a second embodiment of a flatness detecting apparatus for building board materials according to the present invention;

FIG. 3 is a schematic view of the structure at A shown in FIG. 1;

FIG. 4 is a schematic view of the structure at B shown in FIG. 1;

FIG. 5 is a schematic view of the structure at C shown in FIG. 2;

fig. 6 is a schematic structural diagram at D shown in fig. 1.

Reference numerals in the drawings: 1. a detection table; 11. a top frame; 2. a controller; 3. a first cross bar; 31. a dust collection shell; 311. a strip-shaped brush; 4. a second cross bar; 41. a frame; 411. an infrared laser; 412. an infrared receiver; 42. a spray pipe; 5. a storage tank; 51. drawing out a pipe; 52. a piston rod; 53. a three-way pipe; 54. a liquid inlet valve; 55. a liquid outlet valve; 56. an electric cylinder; 57. a connecting plate; 6. a drive shaft; 61. a thread sleeve; 62. a motor; 63. an I-shaped slider; 64. a cartridge housing; 7. a pestle is inserted in the inner part; 71. a magnetic block is arranged in the middle; 72. a small spring; 73. an electromagnetic block; 8. a collection box; 81. a blower; 82. an air duct; 83. a filter element; 831. a mounting ring; 84. a door; 85. the box is pulled out.

Detailed Description

The invention will be further described with reference to the drawings and embodiments.

Referring to fig. 1 to 6 in combination, a flatness detecting apparatus for building board materials includes: the detection platform 1, the detection platform 1 is fixedly connected with a top frame 11, the side wall of the detection platform 1 is provided with a controller 2, the top frame 11 is symmetrically and fixedly connected with two first cross bars 3, a dust collection shell 31 is slidably connected between the two first cross bars 3, a strip-shaped hairbrush 311 is arranged on the shell wall of the lower end of the dust collection shell 31, the side walls of the two sides of the detection platform 1 are fixedly connected with second cross bars 4, a frame 41 is slidably connected between the two second cross bars 4, a detection component is arranged on the frame 41, a spray pipe 42 is fixedly connected on the frame 41, and the lower end of the detection platform 1 is fixedly connected with a storage tank 5; the marking mechanism comprises a drawing pipe 51, the drawing pipe 51 is fixedly arranged on the outer wall of the storage tank 5, a piston rod 52 is connected to the pipe wall of the drawing pipe 51 in a sliding manner, a suction assembly is arranged at the lower end of the drawing pipe 51, an electric cylinder 56 is arranged on the outer wall of the storage tank 5, a connecting plate 57 is fixedly connected to the telescopic end of the electric cylinder 56, and one end of the piston rod 52 is fixedly connected with the connecting plate 57.

In the specific implementation process, as shown in fig. 1 and 2, the detection assembly includes an infrared laser 411, where the infrared laser 411 is fixedly installed at one end of the frame 41, and the other end of the frame 41 is fixedly connected with an infrared receiver 412.

It should be noted that: the electric cylinder 56 works, so that the output end of the electric cylinder reciprocates and stretches to drive the connecting plate 57 to move along with the electric cylinder, the connecting plate 57 drives the piston rod 52 to slide relative to the pipe wall of the drawing pipe 51, negative pressure is formed in the drawing pipe 51, and marking liquid in the storage tank 5 is automatically drawn out into the spray pipe 42 to be sprayed out for marking.

Referring to fig. 1 and 3, the suction assembly includes a three-way pipe 53, a middle pipe orifice and two auxiliary pipe orifices are arranged on the three-way pipe 53, the middle pipe orifice is fixedly connected with the lower pipe wall of the suction pipe 51, one end auxiliary pipe orifice is fixedly connected with the tank wall of the storage tank 5, the other end auxiliary pipe orifice is connected with the spray pipe 42 through a connecting pipe, a liquid inlet valve 54 is installed in one end auxiliary pipe orifice, and a liquid outlet valve 55 is installed in the other end auxiliary pipe orifice.

It should be noted that: the marking liquid in the storage tank 5 flows into the pumping pipe 51 through the liquid inlet valve 54 on the three-way pipe 53, and is discharged into the spray pipe 42 in one way through the liquid outlet valve 55 on the three-way pipe 53;

the liquid inlet valve 54 is arranged to only allow the marking liquid to flow in one direction, and the liquid outlet valve 55 is arranged to only allow the marking liquid to flow out one direction, so that the marking liquid can only flow into the pumping pipe 51 from the nozzle of one auxiliary pipe at one end and then flow out into the spray pipe 42 from the nozzle of the other auxiliary pipe at the other end, and is sprayed out.

Referring to fig. 2 and 4, two ends of the top frame 11 are provided with protruding blocks, a driving shaft 6 is rotatably connected between the two protruding blocks, a threaded sleeve 61 is arranged on the driving shaft 6, a motor 62 is installed and connected on one protruding block, an output end of the motor 62 is fixedly connected with one end of the driving shaft 6, an i-shaped sliding block 63 is fixedly connected on the threaded sleeve 61, a limit groove is formed in the top frame 11, the i-shaped sliding block 63 is slidably connected with the limit groove, and a cylinder shell 64 is fixedly connected with the lower end of the i-shaped sliding block 63.

It should be noted that: the output end of the motor 62 drives the driving shaft 6 to rotate, the driving shaft 6 drives the threaded sleeve 61 to drive the I-shaped sliding block 63 to slide relative to the top frame 11, and the I-shaped sliding block 63 drives the cylinder shell 64 to move along with the sliding block, so that the cylinder shell 31 and the frame 41 can be driven to move.

Referring to fig. 4, the driving shaft 6 is a screw shaft, and the screw sleeve 61 is screw-coupled with the driving shaft 6.

Referring to fig. 2 and 5, a first insert block is arranged on the dust collection shell 31, a second insert block is arranged on the frame 41, grooves are formed in the first insert block and the second insert block, a switching component is arranged in the cylinder shell 64, the switching component comprises a built-in insert pestle 7, sliding ports are formed in the shell walls at two ends of the cylinder shell 64, two ends of the built-in insert pestle 7 are respectively connected with the two sliding ports in a sliding manner, a middle magnetic block 71 is fixedly connected with the middle part of the built-in insert pestle 7, two ends of the built-in insert pestle 7 are respectively sleeved with a small spring 72, electromagnetic blocks 73 are fixedly connected to the inner walls at two ends of the cylinder shell 64, one ends of the two small springs 72 are connected with the middle magnetic block 71, the other ends of the two small springs 72 are respectively connected with the two electromagnetic blocks 73, and the magnetic poles of the two electromagnetic blocks 73 are identical to those of the middle magnetic block 71.

It should be noted that: the electromagnetic block 73 at one end is controlled by the controller 2 to generate magnetic repulsion to enable the electromagnetic block 73 at one end to generate elastic deformation to enable the two small springs 72 to generate elastic deformation, the middle magnetic block 71 drives the built-in plug-in pestle 7 to slide relative to one end wall of the cylinder shell 64, and one end of the built-in plug-in pestle 7 slides into a first plug-in block on the dust collection shell 31, so that the dust collection shell 31 can be driven to move;

the electromagnetic block 73 at the other end is controlled to be electrified, so that the other end of the built-in plug-in pestle 7 reversely slides into the second plug-in block on the frame 41, the frame 41 can be driven to reversely move, and the automatic switching drives the dust collection shell 31 and the frame 41 to alternately move;

it can be seen that the dust collection shell 31 is provided with a first insert block, the frame 41 is provided with a second insert block, grooves are formed in the first insert block and the second insert block, and the specifications of two ends of the built-in insert pestle 7 are the same as those of the two grooves, so that when the built-in insert pestle 7 slides into the grooves on the first insert block, the dust collection shell 31 can be driven to move;

similarly, how the other end of the built-in insert pestle 7 slides into the groove on the second insert block can automatically drive the frame 41 to move.

The movement mode of the dust collection shell 31 is that the I-shaped sliding block 63 drives the cylinder shell 64 to move along with the cylinder shell so as to drive the dust collection shell 31 and the frame 41 to move, wherein the first point, the movement of the I-shaped sliding block 63, is that the output end of the motor 62 drives the driving shaft 6 to rotate, the driving shaft 6 drives the threaded sleeve 61 to drive the I-shaped sliding block 63 to slide relative to the top frame 11, the I-shaped sliding block 63 drives the cylinder shell 64 to move, the second point, the controller 2 controls the electrifying of the electromagnetic block 73 at one end, the middle magnetic block 71 is magnetically repelled, the two small springs 72 are elastically deformed, the middle magnetic block 71 drives the built-in plug-in pestle 7 to slide relative to one end wall of the cylinder shell 64, one end of the built-in plug-in pestle 7 slides into the first plug-in block on the dust collection shell 31, and the built-in plug-in pestle 7 on the cylinder shell 64 is utilized to drive the dust collection shell 31 to move, so that the movement mode of the dust collection shell 31 is quite clear.

Referring to fig. 1 and 6, the lower end of the detection table 1 is fixedly connected with a collection box 8, the exterior of the collection box 8 is connected with a fan 81, the air inlet end of the fan 81 is provided with an air pipe 82, one end of the air pipe 82 extends to the interior of the collection box 8, a joint is arranged on one side wall of the collection box 8, the joint is connected with a dust collection shell 31 through a long pipe, a pipe orifice of one end of the air pipe 82 is provided with a filter assembly, the filter assembly comprises a filter element 83, a mounting ring 831 is arranged on the filter element 83, and the mounting ring 831 is fixedly arranged on one pipe wall of the air pipe 82.

It should be noted that: the I-shaped sliding block 63 drives the cylinder shell 64 to move along with the cylinder shell, so that the dust collection shell 31 is driven to move along with the cylinder shell, the strip-shaped hairbrush 311 on the dust collection shell 31 automatically cleans the surface of a plate, the fan 81 works to suck dust on the surface of the plate into the collecting box 8 by utilizing air flow, and the filter element 83 can filter and separate the dust in the air flow;

the joint position on the side wall of the collecting box 8 is matched with the connection position of the dust collection shell 31 and the long tube, the collecting box 8 is connected with the dust collection shell 31 through the long tube, and the connection mode is a simple hose pipeline connection mode.

The joint position arranged on the side wall of the collecting box 8 is matched with the connection position of the dust collection shell 31 and the long tube for installation, namely one end of the long tube is connected with the side wall of the collecting box 8, and the other end of the long tube is connected with the dust collection shell 31 in a simple hose pipeline connection mode;

and the fan 81 is operated to form an air flow in the connection space between the collecting box 8, the long tube and the dust collecting housing, and suck the dust through the suction inlet of the dust collecting housing.

Referring to fig. 6, a box door 84 is mounted on the wall of the collecting box 8, and a drawer box 85 is provided inside the collecting box 8.

It should be noted that: after the box door 84 is opened, the drawing box 85 can be pulled out in a sliding manner, and cleaning of dust in the collecting box 8 can be completed conveniently.

The invention provides a flatness detection device for building board materials, which has the following working principle: the electromagnetic block 73 at one end is electrified by the controller 2 (prior art) to generate magnetic repulsion to the middle magnetic block 71, so that the two small springs 72 are elastically deformed, the middle magnetic block 71 drives the built-in plug-in pestle 7 to slide relative to one end wall of the cylinder shell 64, one end of the built-in plug-pestle 7 slides into a first plug-in block on the dust collection box 31, meanwhile, the motor 62 and the fan 81 are controlled to work simultaneously, the output end of the motor 62 drives the driving shaft 6 to rotate, the driving shaft 6 drives the threaded sleeve 61 to drive the I-shaped sliding block 63 to slide relative to the top frame 11, the I-shaped sliding block 63 drives the cylinder shell 64 to move along with the I-shaped sliding block, the dust collection box 31 is driven to move along with the cylinder shell 31, the strip-shaped hairbrush 311 on the dust collection box 31 automatically cleans the surface of a plate, and the fan 81 sucks dust on the surface of the plate into the dust collection box 8 by using air current.

When the dust collection shell 31 moves to the other end of the top frame 11, the electromagnetic block 73 at the other end is controlled to be electrified, so that the other end of the built-in plug-in pestle 7 reversely slides into the second plug-in block on the frame 41, at the moment, the output end of the motor 62 reversely rotates, so that the frame 41 drives the infrared laser 411 and the infrared receiver 412 to synchronously reversely move, flatness detection is carried out on the cleaned plate surface, when the infrared receiver 412 does not receive infrared laser, the controller 2 automatically controls the electric cylinder 56 to work, the output end of the electric cylinder is enabled to reciprocate to drive the connecting plate 57 to move along with the electric cylinder, the connecting plate 57 drives the piston rod 52 to slide relative to the pipe wall of the suction pipe 51, negative pressure is formed inside the suction pipe 51, marking liquid inside the storage tank 5 flows into the suction pipe 51 through the liquid inlet valve 54 on the three-way pipe 53, and then is discharged into the spray pipe 42 through the liquid outlet valve 55 on the three-way pipe 53, and when the uneven position is detected, the marking liquid can be sprayed at the uneven position of the plate surface to mark the plate surface, so that the subsequent plate surface flatness position can be conveniently identified.

The foregoing description is only illustrative of the present invention and is not intended to limit the scope of the invention, and all equivalent structures or equivalent processes or direct or indirect application in other related technical fields are included in the scope of the present invention.

Claims

1. A building board material flatness detection device, characterized by comprising:

the detecting bench (1), fixedly connected with roof-rack (11) on detecting bench (1), be connected with controller (2) on the lateral wall of detecting bench (1), symmetrical fixedly connected with two first horizontal poles (3) on roof-rack (11), two sliding connection has dust absorption shell (31) between first horizontal pole (3), be equipped with bar brush (311) on the lower extreme shell wall of dust absorption shell (31), all fixedly connected with second horizontal pole (4) on the both sides lateral wall of detecting bench (1), two sliding connection has frame (41) between second horizontal pole (4), be equipped with detection component on frame (41), fixedly connected with spray tube (42) on frame (41), the lower extreme fixedly connected with jar (5) of detecting bench (1);

the marking mechanism comprises a drawing pipe (51), the drawing pipe (51) is fixedly arranged on the outer wall of the storage tank (5), a piston rod (52) is connected to the pipe wall of the drawing pipe (51) in a sliding mode, a suction component is arranged at the lower end of the drawing pipe (51), an electric cylinder (56) is arranged on the outer wall of the storage tank (5), a connecting plate (57) is fixedly connected to the telescopic end of the electric cylinder (56), and one end of the piston rod (52) is fixedly connected with the connecting plate (57);

the detection assembly comprises an infrared laser (411), wherein the infrared laser (411) is fixedly arranged at one end of a frame (41), and the other end of the frame (41) is fixedly connected with an infrared receiver (412);

the suction assembly comprises a three-way pipe (53), a middle pipe orifice and two auxiliary pipe orifice are arranged on the three-way pipe (53), the middle pipe orifice is fixedly connected with the lower pipe wall of a suction pipe (51), one end of the three-way pipe is fixedly connected with the tank wall of a storage tank (5), the other end of the three-way pipe is connected with a spray pipe (42) through a connecting pipe, one end of the three-way pipe is provided with a liquid inlet valve (54) in the auxiliary pipe orifice, and the other end of the three-way pipe is provided with a liquid outlet valve (55) in the auxiliary pipe orifice.

2. The building board material flatness detection device according to claim 1, wherein two ends of the top frame (11) are respectively provided with a protruding block, a driving shaft (6) is rotatably connected between the two protruding blocks, a threaded sleeve (61) is arranged on the driving shaft (6), one end of the driving shaft is fixedly connected with a motor (62) in a mounted manner, an output end of the motor (62) is fixedly connected with one end of the driving shaft (6), an I-shaped sliding block (63) is fixedly connected to the threaded sleeve (61), a limiting groove is formed in the top frame (11), the I-shaped sliding block (63) is slidably connected with the limiting groove, and a cylinder shell (64) is fixedly connected to the lower end of the I-shaped sliding block (63).

3. A flatness detection device for building board material according to claim 2, characterized in that the driving shaft (6) is a threaded shaft, and the threaded sleeve (61) is screwed with the driving shaft (6).

4. The building board material flatness detection device according to claim 2, characterized in that a first insert block is arranged on the dust collection shell (31), a second insert block is arranged on the frame (41), grooves are formed in the first insert block and the second insert block, a switching component is arranged in the cylinder shell (64), the switching component comprises a built-in insert pestle (7), sliding ports are formed in two end shell walls of the cylinder shell (64), two ends of the built-in insert pestle (7) are respectively connected with two sliding ports in a sliding mode, a middle magnetic block (71) is fixedly connected with the middle of the built-in insert pestle (7), small springs (72) are sleeved at two ends of the built-in insert pestle (7), electromagnetic blocks (73) are fixedly connected on inner walls of two ends of the cylinder shell (64), one ends of the small springs (72) are connected with the middle magnetic block (71), the other ends of the small springs (72) are respectively connected with the two electromagnetic blocks (73), and the two electromagnetic blocks (73) are identical to the middle magnetic block (71).

5. The building board material flatness detection device according to claim 1, characterized in that the lower end fixedly connected with collection box (8) of test bench (1), the externally mounted of collection box (8) is connected with fan (81), the air inlet end department of fan (81) is equipped with tuber pipe (82), the one end of tuber pipe (82) extends to the inside of collection box (8), be equipped with the joint on the one side wall of collection box (8), the joint is connected with dust collecting shell (31) through the long tube, the one end mouth of pipe department of tuber pipe (82) is equipped with filter unit, filter unit includes filter core (83), be equipped with collar (831) on filter core (83), collar (831) fixed mounting is on the one end pipe wall of tuber pipe (82).

6. The flatness detection device for building board materials according to claim 5, characterized in that a box door (84) is mounted on the wall of the collecting box (8), and a drawing box (85) is arranged inside the collecting box (8).