阅读说明：本技术 一种超高层建筑工程测量的监理用水平测量装置 (Super high-rise building engineering survey's supervision is with level measurement device ) 是由 曹海明 蒋强 于 2020-12-29 设计创作，主要内容包括：本申请涉及一种超高层建筑工程测量的监理用水平测量装置,涉及测量地面水平度领域,包括底板；四个支撑杆,均匀分布在底板的底端,用于支撑底板；第一安装架,设在底板的上端；以及第一测量管,设在第一安装架；其中,四个所述支撑杆长度相同,且支撑杆垂直于底板,所述第一测量管平行于底板,所述第一测量管为透明管,所述第一测量管内充满水,且第一测量管内的水中设于气泡；所述第一测量管上设有第一凸起部,第一凸起部位于第一测量管的正中间位置且朝上设置；所述第一凸起部为曲面；还包括转动连接在底板上端的第一转盘,所述第一转盘平行于底板,所述第一安装架位于第一转盘的上端。本申请提高了对楼板水平度测量的精度。(The application relates to a level measuring device for supervision of super high-rise building engineering measurement, which relates to the field of measuring ground levelness and comprises a bottom plate; the four supporting rods are uniformly distributed at the bottom end of the bottom plate and are used for supporting the bottom plate; the first mounting frame is arranged at the upper end of the bottom plate; the first measuring pipe is arranged on the first mounting frame; the four support rods are the same in length and perpendicular to the bottom plate, the first measuring tube is parallel to the bottom plate and is a transparent tube, water is filled in the first measuring tube, and bubbles are arranged in the water in the first measuring tube; the first measuring pipe is provided with a first bulge, and the first bulge is positioned in the middle of the first measuring pipe and is arranged upwards; the first bulge is a curved surface; still including rotating the first carousel of connection in the bottom plate upper end, first carousel is on a parallel with the bottom plate, first mounting bracket is located the upper end of first carousel. This application has improved the precision to floor levelness measurement.)

1. The utility model provides a super high-rise building engineering survey's supervision is with horizontal measuring device which characterized in that: comprises that

A base plate (11);

the four supporting rods (12) are uniformly distributed at the bottom end of the bottom plate (11) and are used for supporting the bottom plate (11);

the first mounting frame (21) is arranged at the upper end of the bottom plate (11); and

a first measuring pipe (22) arranged on the first mounting frame (21);

wherein, four bracing piece (12) length is the same, and bracing piece (12) perpendicular to bottom plate (11), first survey buret (22) are on a parallel with bottom plate (11), first survey buret (22) are transparent pipe, be full of water in first survey buret (22), and the bubble is located to the aquatic in the first survey buret (22).

2. The leveling device for supervising super high-rise building engineering surveying of claim 1, wherein: be equipped with first bellying (221) on first survey buret (22), first bellying (221) are located the positive intermediate position of first survey buret (22) and set up.

3. The leveling device for supervising super high-rise building engineering surveying as claimed in claim 2, wherein: the first protruding portion (221) is a curved surface.

4. The leveling device for supervising super high-rise building engineering surveying of claim 1, wherein: still including rotating first carousel (23) of connection in bottom plate (11) upper end, first carousel (23) are on a parallel with bottom plate (11), first mounting bracket (21) are located the upper end of first carousel (23).

5. The supervision leveling device for super high-rise building engineering measurement according to claim 4, wherein: be equipped with second mounting bracket (31) on first carousel (23), be equipped with second survey buret (32) on second mounting bracket (31), second survey buret (32) are on a parallel with bottom plate (11), and the first buret (22) of surveying of second buret (32) perpendicular to, be full of water in second survey buret (32), and the bubble is located to the aquatic in the second survey buret (32).

6. The apparatus of claim 5, wherein the apparatus comprises: be equipped with second bellying (321) on second survey buret (32), second bellying (321) are located the positive intermediate position of second survey buret (32) and set up, second bellying (321) are located first bellying (221) under.

7. The leveling device for supervising super high-rise building engineering measurement according to claim 6, wherein: the second protruding part (321) is a curved surface.

8. The apparatus of claim 5, wherein the apparatus comprises: still including rotating second carousel (33) of connection in first carousel (23) upper end, second carousel (33) are on a parallel with first carousel (23), the upper end at second carousel (33) is fixed in second mounting bracket (31).

9. The supervision leveling device for super high-rise building engineering measurement according to claim 4, wherein: a plurality of first through holes (231) are formed in the first rotary table (23), the first through holes (231) are evenly distributed along the axis of the first rotary table (23), a first threaded hole (111) is formed in the bottom plate (11), a first locking rod (41) penetrates through the bottom plate (11), and the first locking rod (41) penetrates through the first through holes (231) and is in threaded connection with the first threaded hole (111) in the bottom plate (11).

10. The apparatus of claim 8, wherein the apparatus comprises: a plurality of second through holes (331) are formed in the second rotary table (33), the second through holes (331) are evenly distributed along the axis of the second rotary table (33), second threaded holes (232) are formed in the first rotary table (23), a second locking rod (42) penetrates through the first rotary table (23), and the second locking rod (42) penetrates through the second through holes (331) and is in threaded connection with the second threaded holes (232) in the first rotary table (23).

Technical Field

The application relates to the field of measuring ground levelness, in particular to a leveling device for supervision of super high-rise building engineering measurement.

Background

The super high-rise building refers to a building with more than 40 floors and more than 100 meters of height. In the process of super high-rise building construction, along with the increase of floors, staff need carry out the detection of levelness to the floor constantly, and the levelness of floor bottom plate is the detection to construction quality, is an important data in the engineering quality detection, and present level measurement device is great to the levelness error of floor measurement.

Disclosure of Invention

In order to improve the precision of measuring the levelness of the floor slab, the application provides a level measuring device for supervision of super high-rise building engineering measurement

The application provides a super high-rise building engineering survey's supervision is with level measurement device adopts following technical scheme:

a level measuring device for supervision of super high-rise building engineering measurement comprises

A base plate;

the four supporting rods are uniformly distributed at the bottom end of the bottom plate and are used for supporting the bottom plate;

the first mounting frame is arranged at the upper end of the bottom plate; and

the first measuring pipe is arranged on the first mounting frame;

wherein, four the bracing piece length is the same, and bracing piece perpendicular to bottom plate, first survey buret is on a parallel with the bottom plate, first survey buret is transparent pipe, be full of water in the first survey buret, and the bubble is located to the aquatic in the first survey buret.

Through adopting above-mentioned technical scheme, the staff places four bracing pieces on the floor face that needs detected the levelness, reduce first mounting bracket installation and fix to the bottom plate, and with first survey buret installation fixed to first mounting bracket, then observe the position of bubble in the first survey buret, if the bubble is at the both ends position of first survey buret, then explain the levelness of this department position of floor relatively poor, if the bubble is at the intermediate position on first survey buret, then explain the levelness conform to the requirement of this department position of floor, if the bubble is at the positive intermediate position of first survey buret, then explain the levelness of this department position of floor is higher.

Optionally, be equipped with first bellying on the first survey buret, first bellying is located the positive intermediate position of first survey buret and sets up.

Optionally, the first protrusion is a curved surface.

Through adopting above-mentioned technical scheme, through setting up first bellying on first survey buret, thereby when utilizing first survey buret to measure the levelness of floor, make the bubble gather the position of the first bellying on first survey buret easily, when the levelness of floor is in certain scope, the bubble in first survey buret can gather the position at first bellying, the levelness when the floor has surpassed this scope, the bubble in first survey buret can leave the position of first bellying, move the both ends position of first survey buret.

Optionally, the first rotating disc is rotatably connected to the upper end of the base plate, the first rotating disc is parallel to the base plate, and the first mounting frame is located at the upper end of the first rotating disc.

Through adopting above-mentioned technical scheme for when utilizing first survey buret to detect the levelness of floor, rotate on the bottom plate through making first carousel, thereby utilize first survey buret can be to the floor on the position not equidirectional go up detect, improved the work efficiency that detects, reduced staff's intensity of labour.

Optionally, be equipped with the second mounting bracket on the first carousel, be equipped with the second on the second mounting bracket and survey the pipe, the second is surveyed the pipe and is on a parallel with the bottom plate, and the first survey buret of second survey buret perpendicular to, the second is surveyed and is filled with water in the buret, and the bubble is located to the aquatic in the second survey buret.

Through adopting above-mentioned technical scheme, when utilizing first survey buret to detect the levelness of floor, the staff still can utilize the second to survey buret and detect in the direction of the first survey buret of perpendicular to, and then when rotating first carousel, the first survey buret and the second survey buret homoenergetic carry out the measuring of levelness to two directions of mutually perpendicular simultaneously, have improved work efficiency, have reduced staff's intensity of labour.

Optionally, be equipped with the second bellying on the second survey buret, the second bellying is located the positive intermediate position of second survey buret and sets up, the second bellying is located first bellying under.

Optionally, the second protrusion is a curved surface.

Through adopting above-mentioned technical scheme, through set up the second bellying on the second measures the pipe, thereby when utilizing the second to measure the levelness of buret to the floor, make the bubble gather the position of the second bellying on the second measures the pipe easily, when the levelness of floor is in certain scope, the bubble in the second measures the intraductal position that can gather at the second bellying, the levelness of floor has surpassed this scope, the bubble in the second measures the intraductal position that can leave the second bellying, move to the both ends position of second measure the pipe.

Optionally, the mounting structure further comprises a second rotary table rotatably connected to the upper end of the first rotary table, the second rotary table is parallel to the first rotary table, and the second mounting frame is fixed to the upper end of the second rotary table.

Through adopting above-mentioned technical scheme, the staff is when carrying out the measurement of levelness to the floor, and work can rotate the second carousel when rotating first carousel and carrying out the pivoted to make and to form arbitrary angle between first survey buret and the second survey buret, thereby recycle first survey buret and carry out synchronous detection with the levelness of second survey buret to the floor.

Optionally, a plurality of first through holes are formed in the first rotary table, the first through holes are evenly distributed along the axis of the first rotary table, a first threaded hole is formed in the bottom plate, a first locking rod penetrates through the bottom plate, and the first locking rod is in threaded connection with the first threaded hole in the bottom plate through the first through hole.

Through adopting above-mentioned technical scheme, when rotating first carousel and utilizing first survey buret to detect the levelness of floor, the staff accessible passes first locking lever after then revolves soon the bottom plate to fix first carousel and bottom plate, and then make the staff can switch first carousel at will and rotate or fix on the bottom plate, and then adjust the position of first survey buret, the staff of being convenient for detects the levelness of floor.

Optionally, a plurality of second through holes are formed in the second turntable, the second through holes are evenly distributed along the axis of the second turntable, a second threaded hole is formed in the first turntable, a second locking rod penetrates through the first turntable, and the second locking rod penetrates through the second through hole and is in threaded connection with the second threaded hole in the first turntable.

Through adopting above-mentioned technical scheme, when rotating the second carousel and utilizing the second to survey the levelness of buret to the floor and examine, the staff accessible passes behind the second carousel then revolves soon the first carousel on with the second check lock lever, thereby be connected the second carousel with first carousel and fix, and then make the staff can switch the second carousel at will and rotate or fix on first carousel, and then adjust the position of buret, the staff of being convenient for detects the levelness of floor.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the staff places the floor face that needs detected the levelness with four bracing pieces on, reduce first mounting bracket installation and fix to the bottom plate, and fix first survey buret installation to first mounting bracket, then observe the position of bubble in the first survey buret, if the bubble is at the both ends position of first survey buret, then explain the levelness of this department position of floor is relatively poor, if the bubble is at the intermediate position on first survey buret, then explain the levelness conform to the requirements of this department position of floor, if the bubble is in the middle position of the centre of first survey buret, then explain the levelness of this department position of floor is higher.

2. Through set up first bellying on first survey buret to when utilizing first survey buret to measure the levelness of floor, make the bubble gather the position of the first bellying on first survey buret easily, when the levelness of floor is in certain scope, the bubble in first survey buret can gather the position at first bellying, and the levelness of floor has surpassed this scope, and the bubble in first survey buret can leave the position of first bellying, moves the both ends position of first survey buret.

3. When utilizing first survey buret to detect the levelness of floor, the staff still can utilize the second to survey buret and detect in the direction of the first survey buret of perpendicular to, and then when rotating first carousel, the first survey buret and the second survey buret homoenergetic carry out the measuring of levelness to two directions of mutually perpendicular simultaneously, have improved work efficiency, have reduced staff's intensity of labour.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.

Fig. 2 is an exploded view of fig. 1.

Description of reference numerals: 11. a base plate; 111. a first threaded hole; 12. a support bar; 21. a first mounting bracket; 22. a first measurement pipe; 221. a first boss portion; 23. a first turntable; 231. a first through hole; 232. a second threaded hole; 31. a second mounting bracket; 32. a second measurement pipe; 321. a second boss portion; 33. a second turntable; 331. a second through hole; 41. a first locking lever; 42. a second locking lever.

Detailed Description

The present application is described in further detail below with reference to the attached drawings.

The embodiment of the application discloses level measurement device for supervision of super high-rise building engineering measurement.

Referring to fig. 1, the horizontal measuring device for supervision of a super high-rise building engineering survey includes a base plate 11, four support rods 12, a first mounting frame 21, and a first measuring pipe 22.

Four bracing pieces 12 evenly distributed are fixed in the bottom of bottom plate 11, and bracing piece 12 is perpendicular and bottom plate 11, and four bracing pieces 12 support bottom plate 11 jointly. The length of four bracing pieces 12 is the same, when carrying out the levelness to the ground of floor and examining, in order to make the data that detect more accurate, keeps away from the one end of bottom plate 11 on the bracing piece 12 and is the hemisphere to make four bracing pieces 12 place subaerial back, it is less to measuring result's accuracy influence.

Referring to fig. 1, first mounting bracket 21 is installed and is fixed on bottom plate 11, first survey buret 22's installation is fixed on first mounting bracket 21, first survey buret 22 is on a parallel with bottom plate 11, first survey buret 22's inside is full of water, and the aquatic in the first survey buret 22 is equipped with the bubble, thereby make first survey buret 22 form the level survey, when the bubble in first survey buret 22 is located the intermediate position, the levelness that explains the floor meets the requirements, when the bubble in first survey buret 22 is located the position in the middle of the centre, the levelness that explains the floor is higher, when the bubble in first survey buret 22 is located its both ends, the levelness that explains the floor is not conform to the designing requirement.

Further, referring to fig. 1, a first protruding portion 221 is disposed on the first measuring pipe 22, the first protruding portion 221 is located at a middle position of the first measuring pipe 22, the first protruding portion 221 is located at a top of the first measuring pipe 22, the first protruding portion 221 is a curved surface of the protruding portion, a space that the first protruding portion 221 can accommodate is smaller than a size of bubbles in the first measuring pipe 22, so that the bubbles can accumulate at the middle position of the first measuring pipe 22 under the same condition, the first protruding portion 221 is convenient for accommodating the bubbles, when the levelness of the floor slab is within a certain error, the bubbles can automatically move to the position of the first protruding portion 221, the better adjustment and correction of the position of the first measuring pipe 22 on the first mounting frame 21 are facilitated, and the better detection of the levelness of the floor slab by using the first measuring pipe 22 is achieved by the staff.

Further, referring to fig. 1, be equipped with first carousel 23 on the bottom plate 11, first carousel 23 rotates the upper end of connecting at bottom plate 11, and first carousel 23 is coaxial with bottom plate 11, first carousel 23 is on a parallel with bottom plate 11, the upper end of first carousel 23 is fixed in the installation of first mounting bracket 21, when utilizing first survey buret 22 to detect the levelness of floor like this, place bracing piece 12 the position department that needs the detection on the floor, through rotating first carousel 23, make first survey buret 22 can carry out the detection of levelness to the different directions of this position, staff's detection efficiency has been improved, and staff's intensity of labour has been reduced.

Further, referring to fig. 1, a second mounting rack 31 is further mounted and fixed on the first rotating disk 23, the second mounting rack 31 is located below the first mounting rack 21, a second measuring pipe 32 is mounted and fixed on the second mounting rack 31, the second measuring pipe 32 is parallel to the bottom plate 11, but the second measuring pipe 32 is perpendicular to the first measuring pipe 22, and the second measuring pipe 32 is located below the first measuring pipe 22. The inside of second survey buret 32 is filled with water, locates same bubble in the aquatic of second survey buret 32 to form second bubble level survey, when first survey buret 22 carried out the measurement of levelness to the floor, the synchronous detection that carries out the levelness to the direction of perpendicular to first survey buret 22 of second survey buret 32 has improved detection efficiency.

When the bubbles in the second measurement pipe 32 are located at the middle position, it is indicated that the levelness of the floor is satisfactory, when the bubbles in the second measurement pipe 32 are located at the middle position, it is indicated that the levelness of the floor is high, and when the bubbles in the second measurement pipe 32 are located at both ends thereof, it is indicated that the levelness of the floor is not satisfactory to the design.

Referring to fig. 1, a second convex portion 321 is provided on the second measurement pipe 32, the second convex portion 321 is located at the middle position of the second measurement pipe 32, and the second convex portion 321 is located at the top of the second measurement pipe 32, the second convex portion 321 is a curved surface, but the volume that the curved surface can accommodate is smaller than the size of the bubbles in the second measurement pipe 32. Like this under the same circumstances, the bubble can be gathered to the intermediate position of second survey buret 32, and second bellying 321 is convenient for hold the bubble, and when the levelness of floor was in certain error, the bubble can be automatic moves about to the position department of second bellying 321, and the better adjustment of the staff of being convenient for and the position of correction second survey buret 32 on second mounting bracket 31 for the better utilization second of staff surveys buret 32 and detects the levelness of floor.

Further, referring to fig. 1, a second rotary plate 33 is rotatably connected to an upper end of the first rotary plate 23, the second rotary plate 33 is parallel to the first rotary plate 23, and the second rotary plate 33 is coaxial with the first rotary plate 23. The second mounting bracket 31 is fixedly mounted on the second turntable 33. When utilizing the device to detect the levelness of floor like this, place bracing piece 12 the position department that needs detected on the floor, through rotating first carousel 23, make first survey buret 22 carry out the detection of levelness to this position, when rotating first carousel 23, the staff still can rotate second carousel 33, adjust the angle of second carousel 33 on first carousel 23, thereby adjust the angle between second survey buret 32 and the first survey buret 22, make second survey buret 32 and first survey buret 22 can detect the different directions on the floor simultaneously, the accessible is adjusted the arbitrary angle between second survey buret 32 and the first survey buret 22, carry out the detection of levelness to the floor, detection efficiency is improved.

Further, referring to fig. 1 and 2, a plurality of first through holes 231 are formed in the first rotating disk 23, and the plurality of first through holes 231 are uniformly distributed along the axis of the first rotating disk 23. The bottom plate 11 is provided with a first threaded hole 111, the bottom plate 11 is in threaded connection with a first locking rod 41, and the first locking rod 41 passes through the first through hole 231 and then is in threaded connection with the first threaded hole 111 on the bottom plate 11, so that the first locking rod 41 locks and fixes the first rotating disc 23 on the bottom plate 11.

Further, referring to fig. 1 and 2, a plurality of second through holes 331 are formed in the second turntable 33, and the plurality of second through holes 331 are uniformly distributed along the axis of the second turntable 33. A second threaded hole 232 is formed in the first rotary table 23, a second locking rod 42 is connected to the first rotary table 23 through a thread, and the second locking rod 42 penetrates through the second through hole 331 and then is in threaded connection with the second threaded hole 232 in the first rotary table 23, so that the second rotary table 33 is locked and fixed on the first rotary table 23 through the second locking rod 42.

When the levelness of the floor is measured with first survey buret 22 at second survey buret 32, the staff is adjusting the angle between second survey buret 32 and the first survey buret 22 after, and usable second check lock lever 42 locks second carousel 33 and first carousel 23 fixedly, then rotates first carousel 23, utilizes second survey buret 32 and first survey buret 22 to detect the levelness of floor. When the device is transferred, the worker can also lock and fix the first rotating disc 23 and the bottom plate 11 by using the first locking rod 41, so that the worker can transfer the device conveniently.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.