CN116608760A - Green building decoration wall roughness detects instrument - Google Patents

Abstract

The invention is applicable to the technical field of building detection, and provides a green building decoration wall flatness detection tool, which comprises a base, wherein an installation vertical plate is installed on the base, and the tool further comprises: the guide mechanism comprises a mounting seat, a guide plate is mounted on the mounting seat, and a lifting block is mounted in the guide plate; the limiting assembly comprises a connecting seat, a column gear is rotatably arranged on the connecting seat, an adjusting assembly for driving the column gear to rotate is further arranged on the mounting seat, two mounting shafts are symmetrically arranged on the connecting seat, a limiting rod is rotatably arranged on each of the two mounting shafts, and the upper ends of the two limiting rods are connected with each other through a second spring; and the detection module comprises two connecting plates, wherein a plurality of detection assemblies are arranged on one connecting plate. The device can detect the roughness of wall in a flexible way, and detection range is wide, and detection efficiency is high, excellent in use effect.

Description

Green building decoration wall roughness detects instrument

Technical Field

The invention belongs to the technical field of building detection, and particularly relates to a tool for detecting flatness of a wall surface of green building decoration.

Background

After building, the flatness of the wall surface is detected, the purpose of flatness detection is to detect whether the flatness of the wall surface is qualified or not, and the flatness of the wall surface is mainly detected whether the wall surface is concave or convex.

Traditional wall flatness detects and measures through manual hand-held measuring ruler, because the height and the length of wall are all different, the limitation of this kind of mode is great, and the precision is lower.

Disclosure of Invention

The embodiment of the invention aims to provide a tool for detecting the flatness of a wall surface of a green building decoration, and aims to solve the problems in the background technology.

The embodiment of the invention is realized in such a way that the tool for detecting the flatness of the wall surface of the green building decoration comprises a base, wherein two mounting vertical plates are symmetrically arranged on the base, and the tool further comprises:

the guide mechanism comprises a mounting seat which is slidably mounted on the base, a guide plate is mounted on the mounting seat, a lifting block is slidably mounted in the guide plate along the vertical direction, a guide chute matched with the lifting block is formed in the guide plate, and a moving mechanism for driving the lifting block to perform linear movement in the horizontal direction and the vertical direction is further arranged on the base;

the limiting assembly comprises a connecting seat arranged on the lifting block, a column gear is rotatably arranged on the connecting seat, an adjusting assembly used for driving the column gear to rotate is further arranged on the mounting seat, two mounting shafts are symmetrically arranged on the connecting seat, a limiting rod is rotatably arranged on the two mounting shafts respectively, the two limiting rods are oppositely arranged, limiting teeth clamped with the column gear are arranged on the limiting rods, and the upper ends of the two limiting rods are connected with each other through a second spring; and

the detection module comprises two connecting plates, two connecting plates are connected with each other through connecting rods, one connecting plate is connected with a column gear, a plurality of detection components are installed on the connecting plates far away from the column gear, each detection component comprises a detection rod which is installed on the connecting plate in a sliding mode, and a detection plate which is installed between the two connecting plates, one end of each detection rod is connected with the detection plate, one end of each detection rod far away from the detection plate is provided with a detection head, a first spring is connected between the detection head and the connecting plate, two sides of each detection plate are provided with pressure rods, and flat plate type pressure sensors which are in contact with the pressure rods are all installed on opposite side surfaces of the connecting plates.

According to a further technical scheme, the detection head is a ball or a roller.

Further technical scheme, moving mechanism includes horizontal migration subassembly and vertical removal subassembly, vertical removal subassembly is including installing the drive shaft between two installation risers, just install on the installation riser and be used for driving the drive shaft and carry out rotatory first motor, slidable mounting has the drive block in the drive shaft, just one side and the mount pad of drive block are connected, horizontal migration subassembly drives guiding mechanism through the mode that drives the drive block and carry out gliding along the axial of drive shaft and carries out horizontal migration, the drive block is rotated and is installed the rotation sleeve, just the rotation sleeve passes through the feather key with the drive shaft and is connected, rotate on the drive block and install the lifter that is vertical state, just drive between lifter and the rotation sleeve is connected, set up two spiral grooves opposite in spiral direction on the lateral wall of lifter, and two the upper and lower both ends of spiral groove all interconnect, one side that the lifter is close to the lifter is connected with the lifter, just the lifter is pegged graft in the spiral groove.

According to a further technical scheme, the rotating sleeve is in transmission connection with the lifting rod through a pair of meshed bevel gears.

Further technical scheme, horizontal migration subassembly is including installing the threaded rod between two installation risers, still install the second motor that is used for driving the threaded rod to carry out pivoted on the installation riser, just the one end of drive piece is installed on the threaded rod.

Further technical scheme, adjusting part is including installing the regulation seat on the mount pad, just still install the extensible member that is arranged in driving the regulation seat and carries out up-and-down motion in the mount pad, rotate on the regulation seat and install adjusting gear, just still be provided with on the regulation seat and be used for driving the rotatory third motor of adjusting gear, the bilateral symmetry of regulation seat is provided with the push rod, just the bottom of gag lever post is provided with the inclined plane with push rod complex.

According to a further technical scheme, the mounting shaft penetrates through the limiting rod and is inserted into the guide plate, and a sliding groove matched with the mounting shaft is formed in the guide plate.

When the tool for detecting the flatness of the wall surface of the green building decoration provided by the embodiment of the invention is used, in an initial state, the base is firstly moved to the appointed wall surface, each detection head is abutted against the wall surface, and the detection rod can drive the compression rod at one side close to the detection head and the corresponding flat plate type pressure sensor to not generate extrusion under the action of the reaction force of the wall surface. Then start moving mechanism, moving mechanism can drive the mount pad and carry out horizontal migration, and when driving the mount pad and carry out horizontal movement, moving mechanism still can drive the elevating block and carry out vertical movement along the direction spout to realize detecting module's horizontal migration and vertical movement, along with detecting module's removal, detect the head in the module and can contact with the wall all the time, if the wall keeps level, then the flat pressure sensor of each detection component both sides all does not receive pressure, if the flat pressure sensor in the detection component produces pressure, then indicate that the wall is uneven. If the flat plate type pressure sensor close to one side of the detection head generates pressure, the wall surface is indicated to be concave; if the flat plate type pressure sensor at one side far away from the detection head generates pressure, the wall surface is indicated to be convex. Through the simultaneous action of multiunit detection component, can realize the wall detection of large tracts of land, promote detection efficiency. When the detection module horizontally moves, the connecting plate is in a vertical state, so that all detection assemblies are vertically arranged, and the detection area is enlarged; when the detection module performs vertical movement, the connecting plate is in a horizontal state, so that each detection module is horizontally arranged. Specifically, in the operation process of the device, the latch on the limiting rod can limit the column gear, so that the column gear is kept stable. When the placing state of the connecting plate is to be switched, the lifting block is only required to slide to the bottom of the guide chute, the adjusting component can drive the limiting rod to rotate around the outer side of the mounting shaft, the limiting of the column gear can be removed, and the column gear is synchronously driven to rotate, so that the placing state of the connecting plate is switched, namely the switching between the horizontal state and the vertical state of the connecting plate is realized. After the adjustment is completed, the adjusting component restores the initial position, and the limiting rod can restore the initial state under the action of the elastic restoring force of the second spring, so that the post gear can be limited. The device can detect the roughness of wall in a flexible way, and detection range is wide, and detection efficiency is high, excellent in use effect.

Drawings

Fig. 1 is a schematic structural diagram of a tool for detecting flatness of a wall surface of a green building decoration according to an embodiment of the present invention;

fig. 2 is a schematic diagram of a rear side structure of fig. 1 in a tool for detecting flatness of a wall surface of a green building decoration according to an embodiment of the present invention;

fig. 3 is a schematic diagram of an internal structure of a driving shaft in a tool for detecting flatness of a wall surface of a green building decoration according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a detection module in a tool for detecting flatness of a wall surface of a green building decoration according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a limiting component and an adjusting component in a tool for detecting flatness of a wall surface of a green building decoration according to an embodiment of the present invention.

In the accompanying drawings: a base 1; mounting a vertical plate 11; a moving mechanism 2; a drive shaft 21; a threaded rod 22; a first motor 23; a second motor 24; a drive block 25; a lifting rod 26; a spiral groove 27; a lifting lever 28; rotating the sleeve 29; a guide mechanism 3; a mounting base 31; a guide plate 32; a guide chute 33; a lifting block 34; a detection module 4; a connection plate 41; a connecting rod 42; a detection plate 43; a detection lever 44; a detection head 45; a first spring 46; a flat plate type pressure sensor 47; a pressure lever 48; a limit component 5; a post gear 51; a connection base 52; a stopper rod 53; a mounting shaft 54; an inclined surface 55; a second spring 56; an adjustment assembly 6; an adjustment seat 61; a telescoping member 62; an adjusting gear 63; a push rod 64.

Description of the embodiments

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Specific implementations of the invention are described in detail below in connection with specific embodiments.

As shown in fig. 1 to 4, the tool for detecting flatness of a wall surface of a green building decoration according to an embodiment of the present invention includes a base 1, two mounting risers 11 are symmetrically mounted on the base 1, and further includes:

the guide mechanism 3 comprises a mounting seat 31 which is slidably mounted on the base 1, a guide plate 32 is mounted on the mounting seat 31, a lifting block 34 is slidably mounted in the guide plate 32 along the vertical direction, a guide chute 33 matched with the lifting block 34 is formed in the guide plate 32, and the base 1 is also provided with a moving mechanism 2 for driving the lifting block 34 to perform linear movement in the horizontal direction and the vertical direction;

the limiting assembly 5 comprises a connecting seat 52 arranged on the lifting block 34, a column gear 51 is rotatably arranged on the connecting seat 52, an adjusting assembly 6 for driving the column gear 51 to rotate is further arranged on the mounting seat 31, two mounting shafts 54 are symmetrically arranged on the connecting seat 52, a limiting rod 53 is rotatably arranged on the two mounting shafts 54 respectively, the two limiting rods 53 are oppositely arranged, limiting teeth which are clamped with the column gear 51 are arranged on the limiting rods 53, and the upper ends of the two limiting rods 53 are mutually connected through a second spring 56; and

the detection module 4, the detection module 4 includes two connecting plates 41, and two connect through connecting rod 42 interconnect between the connecting plates 41, one of them connecting plate 41 is connected with the pillar gear 51, keeps away from pillar gear 51 install a plurality of detection components on the connecting plate 41, detection component includes slidable mounting detection pole 44 on connecting plate 41 to and install the pick-up plate 43 between two connecting plates 41, just the one end and the pick-up plate 43 of detection pole 44 are connected, detection head 45 is installed to the one end that detection pole 44 kept away from pick-up plate 43, just be connected with first spring 46 between detection head 45 and the connecting plate 41, the both sides of pick-up plate 43 all are provided with depression bar 48, and two flat pressure sensor 47 with depression bar 48 contact are all installed on the opposite side of connecting plate 41.

In the embodiment of the present invention, the detecting head 45 may be a ball or a roller. When the detecting rod 44 is in a free state, under the action of the elastic force of the first spring 46, the detecting rod 44 drives the pressing rod 48 near one side of the detecting head 45 to continuously press the corresponding flat plate type pressure sensor 47. When in use, in an initial state, the base 1 is moved to a designated wall surface, each detection head 45 is abutted against the wall surface, and the detection rod 44 can drive the pressing rod 48 close to one side of the detection head 45 to be not pressed with the corresponding flat plate type pressure sensor 47 under the action of the reaction force of the wall surface. Then, the moving mechanism 2 is started, the moving mechanism 2 can drive the mounting seat 31 to horizontally move, and when the mounting seat 31 is driven to horizontally move, the moving mechanism 2 can also drive the lifting block 34 to vertically move along the guide chute 33, so that the horizontal movement and the vertical movement of the detection module 4 are realized, the detection head 45 in the detection module 4 can always contact with the wall surface along with the movement of the detection module 4, if the wall surface is kept flat, the flat plate type pressure sensors 47 on two sides of each detection module are not stressed, and if the flat plate type pressure sensors 47 in the detection modules generate pressure, the uneven wall surface is indicated. And if the flat plate type pressure sensor 47 near one side of the detection head 45 generates pressure, the wall surface is indicated to be concave; if the flat plate type pressure sensor 47 on the side far from the detection head 45 generates pressure, it indicates that the wall surface is raised. Through the simultaneous action of multiunit detection component, can realize the wall detection of large tracts of land, promote detection efficiency.

When the detection module 4 moves horizontally, the connecting plate 41 is in a vertical state, so that all detection components are vertically arranged, and the detection area is enlarged; when the detecting module 4 performs vertical movement, the connecting plate 41 is in a horizontal state, so that each detecting assembly is horizontally arranged. Specifically, during operation of the device, the latch on the limiting rod 53 limits the post gear 51, so that the post gear 51 is kept stable. When the placing state of the connecting plate 41 is to be switched, the adjusting component 6 can drive the limiting rod 53 to rotate outwards around the mounting shaft 54 only by sliding the lifting block 34 to the bottom of the guide chute 33, so that the limit of the post gear 51 can be removed, and the post gear 51 is synchronously driven to rotate, so that the placing state of the connecting plate 41 is switched, namely the horizontal state and the vertical state of the connecting plate 41 are switched. After the adjustment is completed, the adjusting component 6 returns to the initial position, and the limiting rod 53 returns to the initial state under the elastic restoring force of the second spring 56, so that the post gear 51 can be limited.

As shown in fig. 1-3, as a preferred embodiment of the present invention, the moving mechanism 2 includes a horizontal moving assembly and a vertical moving assembly, the vertical moving assembly includes a driving shaft 21 installed between two installation risers 11, a first motor 23 for driving the driving shaft 21 to rotate is installed on the installation risers 11, a driving block 25 is slidably installed on the driving shaft 21, one side of the driving block 25 is connected with an installation seat 31, the horizontal moving assembly drives the guiding mechanism 3 to horizontally move by driving the driving block 25 to slide along the axial direction of the driving shaft 21, a rotating sleeve 29 is rotatably installed on the driving block 25, the rotating sleeve 29 is connected with the driving shaft 21 through a sliding key, a lifting rod 26 in a vertical state is rotatably installed on the driving block 25, the lifting rod 26 is in transmission connection with the rotating sleeve 29, two spiral grooves 27 with opposite spiral directions are formed on the side wall of the lifting rod 26, the upper and lower ends of the spiral grooves 27 are mutually connected, one side of the lifting block 34, which is close to the lifting rod 26, is connected with the lifting rod 28, and the lifting rod 28 is inserted into the spiral groove 28.

In the present embodiment, the rotating sleeve 29 is in driving connection with the lifting rod 26 through a pair of engaged bevel gears. When in use, the first motor 23 is started, the first motor 23 drives the driving shaft 21 to rotate, the driving shaft 21 drives the rotating sleeve 29 to synchronously rotate, the rotating sleeve 29 drives the lifting rod 26 to rotate through the pair of engaged bevel gears, and in the process of rotating the lifting rod 26, the lifting rod 28 firstly slides from bottom to top along one spiral groove 27 and then slides from top to bottom along the other spiral groove 27, so as to drive the lifting block 34 to slide back and forth in the guide chute 33. Meanwhile, in the use process, the driving block 25 can drive the lifting rod 26 and the rotating sleeve 29 to synchronously perform linear movement in the horizontal direction, so that the lifting can be performed at any position of the driving shaft 21, and the use is flexible.

As shown in fig. 1 and 2, as a preferred embodiment of the present invention, the horizontal moving assembly includes a threaded rod 22 installed between two installation risers 11, a second motor 24 for driving the threaded rod 22 to rotate is further installed on the installation riser 11, and one end of the driving block 25 is installed on the threaded rod 22.

In the embodiment of the present invention, when in use, the second motor 24 drives the threaded rod 22 to rotate, and the threaded rod 22 drives the driving block 25 to slide along the axial direction of the driving shaft 21, so as to drive the mounting seat 31 to slide linearly on the base 1 in the horizontal direction.

As shown in fig. 1 and 5, as a preferred embodiment of the present invention, the adjusting assembly 6 includes an adjusting seat 61 mounted on the mounting seat 31, a telescopic member 62 for driving the adjusting seat 61 to move up and down is further mounted in the mounting seat 31, an adjusting gear 63 is rotatably mounted on the adjusting seat 61, a third motor for driving the adjusting gear 63 to rotate is further disposed on the adjusting seat 61, push rods 64 are symmetrically disposed on two sides of the adjusting seat 61, and inclined surfaces 55 matched with the push rods 64 are disposed at the bottom of the limiting rod 53.

In the embodiment of the present invention, the telescopic member 62 is an electric telescopic rod. When the lifting block 34 slides to the bottom of the guide chute 33, the telescopic member 62 is extended at this time, and the telescopic member 62 drives the adjustment seat 61 to move upward, so that the adjustment gear 63 is engaged with the column gear 51. And in this process, the push rod 64 is engaged with the inclined surface 55 at the bottom of the limit rod 53, and the limit rod 53 is rotated outward about the mounting shaft 54 by pushing the push rod 64, thereby releasing the limit of the spur gear 51. Then the third motor drives the adjusting gear 63 to rotate, and the adjusting gear 63 drives the post gear 51 to synchronously rotate, so that the placing state of the connecting plate 41 can be switched, and the switching between the horizontal state and the vertical state of the connecting plate 41 can be realized. After the adjustment is completed, the adjustment seat 61 is restored to the initial position, at this time, the push rod 64 does not squeeze the limiting rod 53 any more, and under the elastic restoring force of the second spring 56, the limiting rod 53 can restore to the initial state, so that the post gear 51 can be limited.

As shown in fig. 1 and 5, as a preferred embodiment of the present invention, the mounting shaft 54 penetrates the limit lever 53 and is inserted into the guide plate 32, and the guide plate 32 is provided with a slide groove matching the mounting shaft 54. In the process of up-and-down movement of the lifting block 34, the two mounting shafts 54 also slide up and down in the guide plate 32, and the lifting block 34 can be prevented from swinging left and right by the limiting function of the two mounting shafts 54, so that the device detection effect is prevented from being influenced by swinging of the lifting block 34.

As shown in fig. 1, as a preferred embodiment of the present invention, a transverse plate is further disposed on top of the mounting seat 31, and the top of the lifting rod 26 is rotatably mounted on the transverse plate, so as to increase stability of the lifting rod 26 and ensure stable operation of the device.

Working principle: when in use, in an initial state, the base 1 is moved to a designated wall surface, each detection head 45 is abutted against the wall surface, and the detection rod 44 can drive the pressing rod 48 close to one side of the detection head 45 to be not pressed with the corresponding flat plate type pressure sensor 47 under the action of the reaction force of the wall surface. Then, the moving mechanism 2 is started, the moving mechanism 2 can drive the mounting seat 31 to horizontally move, and when the mounting seat 31 is driven to horizontally move, the moving mechanism 2 can also drive the lifting block 34 to vertically move along the guide chute 33, so that the horizontal movement and the vertical movement of the detection module 4 are realized, the detection head 45 in the detection module 4 can always contact with the wall surface along with the movement of the detection module 4, if the wall surface is kept flat, the flat plate type pressure sensors 47 on two sides of each detection module are not stressed, and if the flat plate type pressure sensors 47 in the detection modules generate pressure, the uneven wall surface is indicated. And if the flat plate type pressure sensor 47 near one side of the detection head 45 generates pressure, the wall surface is indicated to be concave; if the flat plate type pressure sensor 47 on the side far from the detection head 45 generates pressure, it indicates that the wall surface is raised. Through the simultaneous action of multiunit detection component, can realize the wall detection of large tracts of land, promote detection efficiency.

When the detection module 4 moves horizontally, the connecting plate 41 is in a vertical state, so that all detection components are vertically arranged; when the detecting module 4 performs vertical movement, the connecting plate 41 is in a horizontal state, so that each detecting component is horizontally arranged, and the detecting area is effectively enlarged. Specifically, during operation of the device, the latch on the limiting rod 53 limits the post gear 51, so that the post gear 51 is kept stable. When the placing state of the connecting plate 41 is to be switched, the adjusting component 6 can drive the limiting rod 53 to rotate outwards around the mounting shaft 54 only by sliding the lifting block 34 to the bottom of the guide chute 33, so that the limit of the post gear 51 can be removed, and the post gear 51 is synchronously driven to rotate, so that the placing state of the connecting plate 41 can be switched, namely the switching between the horizontal state and the vertical state of the connecting plate 41 is realized. After the adjustment is completed, the adjusting component 6 returns to the initial position, and the limiting rod 53 returns to the initial state under the elastic restoring force of the second spring 56, so that the post gear 51 can be limited.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Claims (7)

1. The utility model provides a green building decoration wall roughness detects instrument, includes the base, two installation risers are installed to the symmetry on the base, its characterized in that still includes:

the guide mechanism comprises a mounting seat which is slidably mounted on the base, a guide plate is mounted on the mounting seat, a lifting block is slidably mounted in the guide plate along the vertical direction, a guide chute matched with the lifting block is formed in the guide plate, and a moving mechanism for driving the lifting block to perform linear movement in the horizontal direction and the vertical direction is further arranged on the base;

the limiting assembly comprises a connecting seat arranged on the lifting block, a column gear is rotatably arranged on the connecting seat, an adjusting assembly used for driving the column gear to rotate is further arranged on the mounting seat, two mounting shafts are symmetrically arranged on the connecting seat, a limiting rod is rotatably arranged on the two mounting shafts respectively, the two limiting rods are oppositely arranged, limiting teeth clamped with the column gear are arranged on the limiting rods, and the upper ends of the two limiting rods are connected with each other through a second spring; and

the detection module comprises two connecting plates, two connecting plates are connected with each other through connecting rods, one connecting plate is connected with a column gear, a plurality of detection components are installed on the connecting plates far away from the column gear, each detection component comprises a detection rod which is installed on the connecting plate in a sliding mode, and a detection plate which is installed between the two connecting plates, one end of each detection rod is connected with the detection plate, one end of each detection rod far away from the detection plate is provided with a detection head, a first spring is connected between the detection head and the connecting plate, two sides of each detection plate are provided with pressure rods, and flat plate type pressure sensors which are in contact with the pressure rods are all installed on opposite side surfaces of the connecting plates.

2. The tool for detecting the flatness of a wall surface of a green building decoration according to claim 1, wherein the detecting head is a ball or a roller.

3. The tool for detecting the flatness of the wall surface of the green building decoration according to claim 1, wherein the moving mechanism comprises a horizontal moving assembly and a vertical moving assembly, the vertical moving assembly comprises a driving shaft arranged between two mounting vertical plates, a first motor used for driving the driving shaft to rotate is arranged on each mounting vertical plate, a driving block is slidably arranged on each driving shaft, one side of each driving block is connected with a mounting seat, the horizontal moving assembly drives the guiding mechanism to horizontally move in a sliding mode by driving the driving block along the axial direction of the driving shaft, a rotating sleeve is rotationally arranged in each driving block, the rotating sleeve is connected with the driving shaft through a sliding key, a lifting rod in a vertical state is rotationally arranged on each driving block, the lifting rod is in transmission connection with the rotating sleeve, two spiral grooves with opposite spiral directions are formed in the side wall of each lifting rod, the upper ends and the lower ends of the spiral grooves are all connected with each other, one side, close to the lifting rod, of the lifting rod is connected with the lifting rod, and the lifting rod is inserted into the spiral grooves.

4. A green building finishing wall flatness detecting tool according to claim 3, wherein the rotating sleeve is drivingly connected to the lifter by a pair of meshed bevel gears.

5. The tool for detecting flatness of a wall surface of a green building decoration according to claim 3, wherein the horizontal moving assembly comprises a threaded rod installed between two installation vertical plates, a second motor for driving the threaded rod to rotate is further installed on the installation vertical plates, and one end of the driving block is installed on the threaded rod.

6. The tool for detecting the flatness of the wall surface of the green building decoration according to claim 1, wherein the adjusting assembly comprises an adjusting seat arranged on a mounting seat, a telescopic piece for driving the adjusting seat to move up and down is further arranged in the mounting seat, an adjusting gear is rotatably arranged on the adjusting seat, a third motor for driving the adjusting gear to rotate is further arranged on the adjusting seat, push rods are symmetrically arranged on two sides of the adjusting seat, and inclined surfaces matched with the push rods are arranged at the bottom of the limiting rod.

7. The tool for detecting the flatness of a wall surface of a green building decoration according to claim 1, wherein the installation shaft penetrates through the limit rod and is inserted into the guide plate, and a chute matched with the installation shaft is arranged on the guide plate.