阅读说明：本技术 一种建筑吊顶判平检测方法 (Building ceiling leveling detection method ) 是由 不公告发明人 于 2021-09-26 设计创作，主要内容包括：本发明涉及一种建筑吊顶判平检测方法,一种建筑吊顶判平检测方法,其特征在于包括如下步骤：步骤a、设计一款吊顶判平检测装置；步骤b、检测之前,安装好支撑杆(2),正常情况下支撑杆(2)沿着竖直方向,并使顶架(5)贴近吊顶表面以使万向滚轮(6)接触吊顶表面；步骤c、检测时,在顶架(5)转动的过程中第一激光发射装置(8)的光线发射的光线沿着环形槽(9)移动；如果吊顶的平整度合格,那么在顶架(5)转动过程中第一激光发射装置(8)的光线始终打在环形槽(9)内；如果吊顶的平整度不合格,那么第一激光发射装置(8)的光线会打在环形槽(9)外。(The invention relates to a building ceiling judgment and leveling detection method, which is characterized by comprising the following steps of: a, designing a suspended ceiling leveling detection device; b, before detection, the supporting rod (2) is installed, the supporting rod (2) is in the vertical direction under normal conditions, and the top frame (5) is close to the surface of the suspended ceiling so that the universal idler wheel (6) contacts the surface of the suspended ceiling; c, during detection, light emitted by the light of the first laser emitting device (8) moves along the annular groove (9) in the rotating process of the top frame (5); if the flatness of the suspended ceiling is qualified, the light of the first laser emitting device (8) is always irradiated into the annular groove (9) in the rotating process of the top frame (5); if the ceiling is not smooth, the light of the first laser emitting device (8) will hit the outside of the annular groove (9).)

1. A building ceiling leveling detection method is characterized by comprising the following steps:

step a, designing a suspended ceiling leveling detection device, wherein the suspended ceiling leveling detection device comprises a base (1), a support rod (2) extending upwards is arranged on the base (1), a disc driving device (3) is arranged at the end part of the support rod (2), and a mounting seat (4) is arranged on the disc driving device (3); the disc driving device (3) is used for driving the mounting seat (4) to rotate in the circumferential direction, a top frame (5) is arranged on the mounting seat (4), the top frame (5) is H-shaped, upward universal idler wheels (6) are arranged at four ends of the top frame (5), and a mounting circular ring (7) is arranged at the center of the top frame (5); when the top frame (5) is in a horizontal state, the mounting circular ring (7) and the supporting rod (2) are coaxial, a first laser emitting device (8) is arranged on the mounting circular ring (7), and the first laser emitting device (8) emits light downwards; the base (1) is also provided with an upward open annular groove (9), and the annular groove (9) is opposite to the mounting ring (7) up and down; the top frame (5) is close to the surface of the suspended ceiling so that the universal rollers (6) contact the surface of the suspended ceiling, and the disc driving device (3) drives the top frame (5) to rotate circumferentially on the suspended ceiling so that the light emitted by the first laser emitting device (8) moves along the annular groove (9);

b, before detection, the supporting rod (2) is installed, the supporting rod (2) is in the vertical direction under normal conditions, and the top frame (5) is close to the surface of the suspended ceiling so that the universal idler wheel (6) contacts the surface of the suspended ceiling;

c, during detection, light emitted by the light of the first laser emitting device (8) moves along the annular groove (9) in the rotating process of the top frame (5); if the flatness of the suspended ceiling is qualified, the light of the first laser emitting device (8) is always irradiated into the annular groove (9) in the rotating process of the top frame (5); if the ceiling is not smooth, the light of the first laser emitting device (8) will hit the outside of the annular groove (9).

2. The building ceiling leveling detection method according to claim 1, wherein an upper adjusting seat (12) and a lower adjusting seat (13) hinged to each other are arranged on the mounting seat (4), the lower adjusting seat (13) is arranged on the mounting seat (4), the upper adjusting seat (12) provides connection with the top frame (5), the mounting ring (7) is located on the outer side of the upper adjusting seat (12), a screw (14) supporting the upper adjusting seat (12) when the upper adjusting seat (12) is opened relative to the lower adjusting seat (13) is arranged between the upper adjusting seat (12) and the lower adjusting seat (13), an upper nut (15) and a lower nut (16) are arranged on the screw (14) and located on the upper side and the lower side of the lower adjusting seat (13) respectively, and the upper nut (15) and the lower nut (16) are used for adjusting the opening angle of the upper adjusting seat (12) relative to the lower adjusting seat (13), the axis of the screw (14) and the axis of the support rod (2) are located on the same plane, a second laser emitting device (17) with an axis also located on the plane is further arranged on the installation circular ring (7), a first marking device (18) located on the axis of the support rod (2) is arranged at the bottom of the base (1), a tracking trolley (19) is arranged on the outer side of the support rod (2), and a second marking device (20) is arranged at the bottom of the tracking trolley (19); when the disc driving device (3) drives the top frame (5) to rotate circumferentially on the suspended ceiling so that the light emitted by the second laser emitting device (17) irradiates on the ground around the supporting rod (2), the tracking trolley (19) runs around the supporting rod (2) according to light guidance and the second marking device (20) marks a running track.

3. The building ceiling leveling detection method according to claim 2, characterized in that a first reinforcing part (10) for reinforcing connection is arranged between the bottom of the support rod (2) and the base (1).

4. The building ceiling leveling detection method according to claim 2, wherein a second reinforcing portion (11) for reinforcing connection is arranged between the top of the support rod (2) and the disc driving device (3).

Technical Field

The invention relates to a building engineering detection system, in particular to a building ceiling leveling detection method.

Background

The construction of the construction main body of the building engineering needs to be checked and accepted, for example, whether the wall is flat or not is judged, and for example, whether the ceiling is flat or not is judged. The judgment of whether the wall is flat is slightly better to operate, and at present, tools special for detection are also provided. But relatively speaking, suspended ceilings are located high, and there are also flat suspended ceilings on flat floors, and pitched suspended ceilings on attics. The detection is relatively troublesome, and no special detection tool exists at present.

Disclosure of Invention

In view of the above, the present invention provides a method for detecting the leveling of a suspended ceiling of a building, so as to solve the above problems.

In order to solve the technical problems, the technical scheme of the invention is as follows: a building ceiling leveling detection method is characterized by comprising the following steps:

step a, designing a suspended ceiling leveling detection device, wherein the suspended ceiling leveling detection device comprises a base (1), a support rod (2) extending upwards is arranged on the base (1), a disc driving device (3) is arranged at the end part of the support rod (2), and a mounting seat (4) is arranged on the disc driving device (3); the disc driving device (3) is used for driving the mounting seat (4) to rotate in the circumferential direction, a top frame (5) is arranged on the mounting seat (4), the top frame (5) is H-shaped, upward universal idler wheels (6) are arranged at four ends of the top frame (5), and a mounting circular ring (7) is arranged at the center of the top frame (5); when the top frame (5) is in a horizontal state, the mounting circular ring (7) and the supporting rod (2) are coaxial, a first laser emitting device (8) is arranged on the mounting circular ring (7), and the first laser emitting device (8) emits light downwards; the base (1) is also provided with an upward open annular groove (9), and the annular groove (9) is opposite to the mounting ring (7) up and down; the top frame (5) is close to the surface of the suspended ceiling so that the universal rollers (6) contact the surface of the suspended ceiling, and the disc driving device (3) drives the top frame (5) to rotate circumferentially on the suspended ceiling so that the light emitted by the first laser emitting device (8) moves along the annular groove (9);

b, before detection, the supporting rod (2) is installed, the supporting rod (2) is in the vertical direction under normal conditions, and the top frame (5) is close to the surface of the suspended ceiling so that the universal idler wheel (6) contacts the surface of the suspended ceiling;

c, during detection, light emitted by the light of the first laser emitting device (8) moves along the annular groove (9) in the rotating process of the top frame (5); if the flatness of the suspended ceiling is qualified, the light of the first laser emitting device (8) is always irradiated into the annular groove (9) in the rotating process of the top frame (5); if the ceiling is not smooth, the light of the first laser emitting device (8) will hit the outside of the annular groove (9).

In the scheme, an upper adjusting seat (12) and a lower adjusting seat (13) which are hinged to each other are arranged on the mounting seat (4), the lower adjusting seat (13) is arranged on the mounting seat (4), the upper adjusting seat (12) is connected with the upper frame (5), the mounting ring (7) is positioned on the outer side of the upper adjusting seat (12), a screw rod (14) which supports the upper adjusting seat (12) when the upper adjusting seat (12) is opened relative to the lower adjusting seat (13) is arranged between the upper adjusting seat (12) and the lower adjusting seat (13), an upper nut (15) and a lower nut (16) which are respectively positioned on the upper side and the lower side of the lower adjusting seat (13) are arranged on the screw rod (14), the upper nut (15) and the lower nut (16) are used for adjusting the opening angle of the upper adjusting seat (12) relative to the lower adjusting seat (13), the axis of the screw (14) and the axis of the support rod (2) are located on the same plane, a second laser emitting device (17) with an axis also located on the plane is further arranged on the installation circular ring (7), a first marking device (18) located on the axis of the support rod (2) is arranged at the bottom of the base (1), a tracking trolley (19) is arranged on the outer side of the support rod (2), and a second marking device (20) is arranged at the bottom of the tracking trolley (19); when the disc driving device (3) drives the top frame (5) to rotate circumferentially on the suspended ceiling so that the light emitted by the second laser emitting device (17) irradiates on the ground around the supporting rod (2), the tracking trolley (19) runs around the supporting rod (2) according to light guidance and the second marking device (20) marks a running track.

In the scheme, a first reinforcing part (10) for reinforcing connection is arranged between the bottom of the supporting rod (2) and the base (1).

In the scheme, a second reinforcing part (11) for reinforcing connection is arranged between the top of the supporting rod (2) and the disc driving device (3).

The technical effects of the invention are mainly reflected in the following aspects: the roof rack is pressed close to the ceiling surface so that the universal idler wheels contact the ceiling surface, then under the drive of the disc driving device, the roof rack rotates on the ceiling in the circumferential direction so that light rays emitted by the first laser emitting device move along the annular groove, and the annular groove has a certain width. If the flatness of the suspended ceiling is qualified, the light of the first laser emitting device is always emitted into the annular groove in the rotating process of the top frame. If the ceiling is not flat, the light of the first laser emitting device will hit the outside of the annular groove, which is of course for a flat ceiling of flat layers.

Drawings

FIG. 1: the invention adopts the integral view of the ceiling leveling detection device;

FIG. 2: the first partial view of the ceiling leveling detection device adopted by the invention;

FIG. 3: the invention adopts a second partial view of the ceiling leveling detection device.

In the figure: 1. 2, a base, a support rod; 3. a disc drive device; 4. a mounting seat; 5. a top frame; 6. a universal roller; 7. installing a circular ring; 8. a first laser emitting device; 9. an annular groove; 10. a first reinforcing portion; 11. a second reinforcement portion; 12. an upper adjusting seat; 13. a lower adjustment mount; 14. a screw; 15. screwing a nut; 16. a lower nut; 17. a second laser emitting device; 18. a first marking device; 19. a tracking trolley; 20. a second marking device; 21. and mounting a supporting leg.

Detailed Description

The following detailed description of the embodiments of the present invention is provided in order to make the technical solution of the present invention easier to understand and understand.

A building ceiling leveling detection method is characterized by comprising the following steps:

step a, designing a suspended ceiling leveling detection device.

In one embodiment, as shown in FIG. 1.

The utility model provides a building furred ceiling judges detection device that levels, it includes base 1, be equipped with the bracing piece 2 that upwards extends on the base 1, the tip of bracing piece 2 is equipped with disc drive device 3, be equipped with mount pad 4 on the disc drive device 3, disc drive device 3 is used for driving 4 circumferential direction of mount pad, be equipped with roof-rack 5 on the mount pad 4, roof-rack 5 is "H" shape, four ends of roof-rack 5 are equipped with ascending universal gyro wheel 6, the center of roof-rack 5 is equipped with installation ring 7, when roof-rack 5 is in the horizontality, installation ring 7 and bracing piece 2 are coaxial, be equipped with first laser emission device 8 on the installation ring 7, first laser emission device 8 is emitting light downwards, still be equipped with upwards open ring channel 9 on the base 1, ring channel 9 and installation ring 7 are relative from top to bottom. Wherein, the top frame 5 is close to the suspended ceiling surface so that the universal idler wheels 6 contact the suspended ceiling surface, and the disc driving device 3 drives the top frame 5 to rotate circumferentially on the suspended ceiling so that the light emitted by the first laser emitting device 8 moves along the annular groove 9.

In this embodiment, whether the flat furred ceiling that detects the flat bed levels, through installing bracing piece 2, under the normal condition, bracing piece 2 is along vertical direction. In a preferred embodiment, the support bar 2 is selected to be a motorized lift bar. After raising, the top frame 5 is brought into close proximity with the ceiling surface so that the universal rollers 6 contact the ceiling surface. The principle in this embodiment is mainly embodied in that the top frame 5 moves against the ceiling surface, similar to the movement of a flat car against the ground, as does the top frame 5 if the flat car is inclined due to uneven ground. If the ceiling surface is uneven, the upper frame 5 is deflected. In order to allow the top frame 5 to be in better proximity to the ceiling surface, it may be preferable that the top frame 5 and the mounting base 4 are resiliently connected. Then, when the top frame 5 is deflected, the mounting rings 7 are also simultaneously deflected. The light emitted by the first laser emitting device 8 does not hit the annular groove 9. Of course a certain degree of deflection is acceptable, so that the annular groove 9 also has a certain width. The light emitted by the first laser emitting device 8 moves along the annular groove 9 during the rotation of the upper frame 5. If the ceiling is qualified in flatness, the light of the first laser emitting device 8 is always irradiated into the annular groove 9 in the rotating process of the top frame 5. If the ceiling is not flat, the light of the first laser emitting device 8 will hit the outside of the annular groove 9, which of course is the case for flat ceilings with flat floors.

In one embodiment, as shown in FIG. 1.

The utility model provides a building furred ceiling judges detection device that levels, it includes base 1, be equipped with the bracing piece 2 that upwards extends on the base 1, the tip of bracing piece 2 is equipped with disc drive device 3, be equipped with mount pad 4 on the disc drive device 3, disc drive device 3 is used for driving 4 circumferential direction of mount pad, be equipped with roof-rack 5 on the mount pad 4, roof-rack 5 is "H" shape, four ends of roof-rack 5 are equipped with ascending universal gyro wheel 6, the center of roof-rack 5 is equipped with installation ring 7, when roof-rack 5 is in the horizontality, installation ring 7 and bracing piece 2 are coaxial, be equipped with first laser emission device 8 on the installation ring 7, first laser emission device 8 is emitting light downwards, still be equipped with upwards open ring channel 9 on the base 1, ring channel 9 and installation ring 7 are relative from top to bottom. Wherein, the top frame 5 is close to the suspended ceiling surface so that the universal idler wheels 6 contact the suspended ceiling surface, and the disc driving device 3 drives the top frame 5 to rotate circumferentially on the suspended ceiling so that the light emitted by the first laser emitting device 8 moves along the annular groove 9. Furthermore, a first reinforcing part 10 for reinforcing connection is arranged between the bottom of the supporting rod 2 and the base 1. And the first reinforcing part 10 has a truncated cone shape. A second reinforcing part 11 for reinforcing connection is arranged between the top of the supporting rod 2 and the disc driving device 3. And the second reinforcing part 11 has a truncated cone shape.

In the present embodiment, the connection strength of the support bar 2 can be enhanced by providing the first reinforcing part 10 and the second reinforcing part 11. Because the support rod 2, although having a supporting function, needs to be considered for portability. So that its width is smaller than that of the other members connected at both ends, the first reinforcing portion 10 and the second reinforcing portion 11 are provided, and the provision thereof in the shape of a truncated cone is also an adaptive provision according to its own structure. Of course, other shapes such as ribs may be provided.

In one embodiment, as shown in fig. 2-3.

The utility model provides a building furred ceiling judges detection device that levels, it includes base 1, be equipped with the bracing piece 2 that upwards extends on the base 1, the tip of bracing piece 2 is equipped with disc drive device 3, be equipped with mount pad 4 on the disc drive device 3, disc drive device 3 is used for driving 4 circumferential direction of mount pad, be equipped with roof-rack 5 on the mount pad 4, roof-rack 5 is "H" shape, four ends of roof-rack 5 are equipped with ascending universal gyro wheel 6, the center of roof-rack 5 is equipped with installation ring 7, when roof-rack 5 is in the horizontality, installation ring 7 and bracing piece 2 are coaxial, be equipped with first laser emission device 8 on the installation ring 7, first laser emission device 8 is emitting light downwards, still be equipped with upwards open ring channel 9 on the base 1, ring channel 9 and installation ring 7 are relative from top to bottom. Wherein, the top frame 5 is close to the suspended ceiling surface so that the universal idler wheels 6 contact the suspended ceiling surface, and the disc driving device 3 drives the top frame 5 to rotate circumferentially on the suspended ceiling so that the light emitted by the first laser emitting device 8 moves along the annular groove 9. In addition, an upper adjusting seat 12 and a lower adjusting seat 13 which are hinged to each other are arranged on the mounting seat 4, the lower adjusting seat 13 is arranged on the mounting seat 4, the upper adjusting seat 12 is connected with the top frame 5, the mounting ring 7 is positioned on the outer side of the upper adjusting seat 12, a screw 14 which supports the upper adjusting seat 12 when the upper adjusting seat 12 is opened relative to the lower adjusting seat 13 is arranged between the upper adjusting seat 12 and the lower adjusting seat 13, an upper nut 15 and a lower nut 16 which are respectively positioned on the upper side and the lower side of the lower adjusting seat 13 are arranged on the screw 14, the upper nut 15 and the lower nut 16 are used for adjusting the opening angle of the upper adjusting seat 12 relative to the lower adjusting seat 13, the axis of the screw 14 and the axis of the supporting rod 2 are positioned on the same plane, and a second laser which is also positioned on the plane is arranged on the mounting ring 7: a shooting device 17, wherein the bottom of the base 1 is provided with a first marking device 18 positioned on the axis of the supporting rod 2, the outer side of the supporting rod 2 is provided with a tracking trolley 19, and the bottom of the tracking trolley 19 is provided with a second marking device 20; when the disk driving device 3 drives the top frame 5 to rotate circumferentially on the suspended ceiling so that the light emitted by the second laser emitting device 17 shines on the ground around the support rod 2, the tracking trolley 19 runs around the support rod 2 according to the light guide and the second marking device 20 marks the running track.

In this embodiment, whether the suspended ceiling of the attic is flat or not is detected, the position of the base 1 is placed first, and after the base 1 is placed, the first marking device 18 at the bottom of the base marks the position of the axis of the support rod 2 on the ground. The upper and lower nuts 15, 16 are then adjusted according to the slope of the pitched ceiling. The top frame 5 is enabled to keep a state of being attached to the inclined suspended ceiling at an equal angle, and the universal idler wheels 6 are still in contact with the surface of the suspended ceiling. The first laser emitting device 8 is now no longer facing the annular groove 9 and is therefore discarded. When the second laser emitting device 17 is started, when the disk driving device 3 drives the top frame 5 to rotate circumferentially on the suspended ceiling, the light emitted by the second laser emitting device 17 irradiates on the ground around the support rod 2, at the moment, the tracking trolley 19 runs around the support rod 2 according to the light guide, and the second marking device 20 marks the running track. After the markings made by the first marking device 18 and the second marking device 20 have been obtained, the base 1 is removed. And determining the position of the central point of the arc according to the running track of the arc, comparing the position with the position of the marking point marked by the first marking device 18, and if the distance between the two is within an acceptable range, indicating that the flatness of the suspended ceiling is qualified. If the distance between the two is too large, the ceiling is unqualified in flatness. Of course, in a preferred embodiment, the first laser emitting device 8 may be disposed at the position of the second laser emitting device 17 instead of the second laser emitting device 17.

B, before detection, the supporting rod 2 is installed, the supporting rod 2 is in the vertical direction under normal conditions, and the top frame 5 is close to the surface of the suspended ceiling so that the universal idler wheels 6 contact the surface of the suspended ceiling;

and c, during detection, the light emitted by the first laser emitting device 8 moves along the annular groove 9 in the process of rotating the top frame 5. If the ceiling is qualified in flatness, the light of the first laser emitting device 8 is always irradiated into the annular groove 9 in the rotating process of the top frame 5. If the ceiling is not flat, the light from the first laser emitting device 8 will hit the outside of the annular groove 9.

The above are only typical examples of the present invention, and besides, the present invention may have other embodiments, and all the technical solutions formed by equivalent substitutions or equivalent changes are within the scope of the present invention as claimed.