CN116499348A

CN116499348A - Building structure vertical plane flatness detection equipment

Info

Publication number: CN116499348A
Application number: CN202310786878.1A
Authority: CN
Inventors: 张崇芹; 徐全波; 牟伟; 杨丽丽
Original assignee: Qingdao E Link Information Technology Co ltd; Beijing Yilianxing Technology Co ltd
Current assignee: Qingdao E Link Information Technology Co ltd; Beijing Yilianxing Technology Co ltd
Priority date: 2023-06-30
Filing date: 2023-06-30
Publication date: 2023-07-28
Anticipated expiration: 2043-06-30
Also published as: CN116499348B

Abstract

The invention discloses a building structure vertical plane flatness detection device, and particularly relates to the technical field of building structure vertical plane flatness detection. According to the invention, through the corresponding matching use of each structure, the angle of each structure on the supporting vertical frame can be adjusted so as to facilitate the unfolding of the device, meanwhile, when the device is not used, the device can be stored together, the occupied space is reduced, the reinforced sliding support frame is driven to displace on the reinforced supporting frame when the traction belt wheel set rotates, the time detection is adjusted again, the diversity in detection is realized, the flatness of the wall surface is detected through the shaking floating of the first measuring wheel and the second measuring wheel, and the accuracy in detection can be effectively ensured.

Description

Building structure vertical plane flatness detection equipment

Technical Field

The invention relates to the technical field of flatness detection of a vertical plane of a building structure, in particular to flatness detection equipment for the vertical plane of the building structure.

Background

The building structure vertical plane flatness detection equipment is commonly used with laser total stations, electronic levels and the like. The laser total station is a high-precision measuring tool for rapidly measuring a target by scanning laser beams, can realize the precision of a sub-millimeter level, and is widely applied to the measurement of engineering structure vertical planes of large buildings, bridges, tunnels and the like; the electronic level is a measuring tool for judging the horizontal position of a test object by utilizing the acting force generated by gravity, and is mainly suitable for the accurate positioning and measuring tasks of indoor short distances due to the fact that the accuracy is inferior to that of a laser total station, however, building structures comprise ground engineering, plastering engineering, door and window engineering, ceiling engineering, light partition engineering, veneer engineering, glass curtain wall engineering, finishing engineering, pasting and soft package engineering, detail engineering and the like. In order to ensure the smooth promotion of each project of the decoration, each project needs to be checked and accepted after finishing; and the acceptance content mainly comprises dimension measurement, angle detection, flatness detection and the like.

The patent of the patent application number CN202123210963.9 discloses a flatness detection device, which belongs to the technical field of construction and comprises a rack body, a measuring ruler and a turnover unit; the turnover unit comprises an L-shaped turnover bracket, the turnover bracket is arranged on the fixed table in a turnover way, and the turnover bracket comprises a horizontal fixed arm, a vertical fixed arm and a fastener for fixing the horizontal fixed arm or the vertical fixed arm on the fixed table; the measuring ruler is connected with the horizontal fixed arm through a connecting rod; the top end of the connecting rod is perpendicular to the bottom surface of the horizontal fixing arm;

this structure is when using, through the upset unit setting dipperstick on the rack body, can realize through upset support upset that horizontal plane detects and perpendicular detects, avoided detecting the continuous change of position through the manpower, reach the technical effect that improves the roughness of fitment engineering and detect the efficiency of construction, but this structure is when using, can't carry out suitable extension or shorten, causes the detection range to receive the limitation, can't carry out suitable angular adjustment simultaneously, and self area is big, can't carry out.

Disclosure of Invention

The technical scheme of the invention aims at the technical problem that the prior art is too single, and provides a solution which is obviously different from the prior art. In order to overcome the defects in the prior art, the invention provides a building structure vertical plane flatness detection device, which aims to solve the problems in the prior art.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a building structure vertical plane roughness check out test set, includes the base, be provided with on the base and accomodate detection mechanism;

the storage detection mechanism includes;

the support slide bar is used for supporting, is arranged at the top of the base and is in sliding connection with the base;

the first motor is used for driving and is arranged on one side of the inner wall of the base;

the screw rod is arranged at the output end of the first motor;

one end of the screw rod penetrates through the support slide rod and extends to the base to be movably connected with the base, and the screw rod is in threaded connection with the support slide rod;

the support stand is used for supporting and is arranged at the top of the support slide bar, and the support stand is movably connected with the support slide bar through a shaft pin;

the reinforced support frame can move up and down, and is arranged in the middle of the support stand and is in sliding connection with the support stand;

the reinforced sliding support frame can move up and down, and is arranged in the reinforced support frame and is in sliding connection with the reinforced support frame;

the detection rod is arranged on the reinforced slide support frame;

the driving motor is used for driving the detection rod to rotate, is arranged on one side of the detection rod and is detachably connected with the reinforced slide support frame through bolts;

the arc-shaped rod is arranged on the detection rod and is movably connected with the detection rod through a shaft pin;

the first balance rod is used for supporting and is arranged at the top of the detection rod;

the second balance rod is used for supporting and is arranged at the top of the arc-shaped rod;

the first measuring wheels are arranged on the first balance rod and are movably connected with the first balance rod;

the first measuring wheels and the second measuring wheels are respectively provided with a displacement sensor;

the electric push rod is used for driving, is arranged on one side of the detection rod, and the bottom of the electric push rod is movably connected with the detection rod through a shaft pin;

the limiting shaft post is used for limiting, the limiting shaft post is arranged at the output end of the electric push rod, and two ends of the limiting shaft post are both arranged on the arc-shaped rod;

the vertical plate is used for supporting, is sleeved on the first balance rod and is detachably connected with the detection rod through a bolt;

the pulling rods are arranged on the base and are movably connected with the base through shaft pins;

two sliding grooves for guiding, wherein each sliding groove is respectively arranged on two sides of the supporting vertical frame;

the positioning shaft plates are used for guiding, are respectively arranged at one end of the corresponding pulling rod and are movably connected with the pulling rod through shaft pins, and are in sliding connection with the sliding grooves;

two rotatable belt pulley sets, wherein each belt pulley set is respectively arranged at two sides of the supporting vertical frame;

the two reinforcing connecting plates are used for limiting, are respectively arranged at the outer sides of the corresponding belt pulley groups, and one ends of the two reinforcing connecting plates extend to the reinforcing support frame and are detachably connected with the reinforcing support frame through bolts;

the second motor is used for driving and is arranged at the top of the supporting sliding rod, and the output end of the second motor extends to the belt pulley group;

the top of the inner cavity of the reinforced supporting frame is provided with a third motor, the output end of the third motor is provided with a traction belt pulley group, the reinforced sliding support frame is fixedly connected with one side of the traction belt pulley group, and the bottom of the traction belt pulley group extends to the bottom of the inner cavity of the reinforced supporting frame and is movably connected with the reinforced supporting frame;

the first positioning pulleys are used for limiting and guiding, are respectively arranged at four corners of the outer side of the reinforced sliding support frame, and respectively extend to the reinforced support frame and are in sliding connection with the reinforced support frame;

the staggered frame openings are used for staggered, and every two staggered frame openings are respectively arranged on two sides of the inner wall of the reinforced sliding support frame;

the clamping wheels are used for limiting, and are respectively arranged in the corresponding dislocation frame openings;

the outer sides of the clamping wheels respectively penetrate through the corresponding dislocation frame openings and extend to the reinforced support frame to be connected with the reinforced support frame in a sliding manner;

the limiting baffle plate is used for limiting, is arranged on one side of the top of the supporting vertical frame, and is detachably connected with the supporting vertical frame through bolts;

the second positioning pulleys are used for limiting, and the second positioning pulleys are respectively arranged at two ends of the limiting baffle plate;

the third positioning pulleys are used for limiting, and are respectively arranged at two ends of the bottom of the supporting vertical frame;

the second positioning pulleys and the limiting baffle plate as well as the third positioning pulleys and the supporting stand are respectively detachably connected through bolts, and the second positioning pulleys and the third positioning pulleys respectively extend to the upper part of the supporting stand and are in sliding connection with the supporting stand.

The invention has the technical effects and advantages that:

1. according to the invention, the supporting slide bar is displaced on the base due to the traction force when the screw rod rotates, so that the supporting vertical frame firstly rotates along the axis point of the connecting part of the supporting vertical frame and the supporting slide bar, and the angles of all structures on the supporting vertical frame are adjusted, so that the device can be unfolded conveniently, and meanwhile, the device can be stored together when not in use;

2. according to the invention, through the arrangement of the positioning shaft plate and the belt pulley group, the positioning shaft plate slides in the belt pulley group, and traction and limitation are carried out when the supporting stand is adjusted, so that the condition that the supporting stand shakes due to overlarge pressure when the supporting stand is adjusted is avoided, and meanwhile, the stability of the device during subsequent flatness detection can be ensured;

3. the driving motor is started, so that the first measuring wheel and the second measuring wheel can be attached to the detection surface, the electric push rod drives the arc rod to rotate along the axis point of the joint of the arc rod and the detection rod, and the angle of the second measuring wheel is regulated, so that the device can be attached to the detection surface better when detecting, and the detection precision is improved;

4. the belt pulley group of the invention drives the reinforcing connecting plate to displace when rotating, thus the reinforcing supporting frame displaces on the supporting vertical frame, the height of the device is firstly adjusted when detecting, meanwhile, the device is started by the third motor to drive the traction belt pulley group to rotate, and the traction belt pulley group drives the reinforcing sliding support frame to displace on the reinforcing supporting frame when rotating, and the device is adjusted again when detecting, thus realizing diversity when detecting;

5. according to the invention, the second measuring wheel and the first measuring wheel shake due to the traction force generated when the reinforced sliding supporting frame and the reinforced supporting frame move upwards and the friction force caused by the contact of the first measuring wheel and the second measuring wheel with the wall surface, and the flatness of the wall surface is detected through the shaking floating of the first measuring wheel and the second measuring wheel, so that the accuracy in detection can be effectively ensured;

to sum up, overall design is simple, and is rational in infrastructure, through the corresponding cooperation of each structure use, the angle of each structure on the support grudging post can be adjusted, so that the device expands, the device can be accomodate together when not using simultaneously, reduce occupation of land space, can avoid supporting the grudging post and take place the condition of rocking because the too big pressure that receives when adjusting, can drive when traction belt wheelset is rotatory and strengthen the slip frame and strengthen the carriage and shift on the carriage, detect and adjust once more, the diversity when detecting is realized, the roughness of the unsteady detection wall of shake through first measuring wheel and second measuring wheel, the accuracy when can effectually guarantee to detect.

Drawings

In order to more clearly illustrate the technical solutions of the present disclosure, the drawings that need to be used in some embodiments of the present disclosure will be briefly described below, and it is apparent that the drawings in the following description are only drawings of some embodiments of the present disclosure, and other drawings may be obtained according to these drawings to those of ordinary skill in the art. Furthermore, the drawings in the following description may be regarded as schematic diagrams, not limiting the actual size of the products, the actual flow of the methods, the actual timing of the signals, etc. according to the embodiments of the present disclosure.

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

Fig. 2 is a side view of the overall structure of the present invention.

Fig. 3 is a right side schematic view of fig. 2 according to the present invention.

FIG. 4 is a schematic view of the present invention with the reinforcing support frame and reinforcing slip brackets mounted on the support stand.

FIG. 5 is a schematic view of the present invention with a reinforced slip frame mounted on a reinforced support frame.

FIG. 6 is a front view of the various structures on the reinforced slip-sheet frame of the present invention.

FIG. 7 is a front view of each structure of the inspection bar of the present invention.

The reference numerals are: 1. a base; 101. supporting a slide bar; 102. a first motor; 103. a screw rod; 104. a supporting stand; 105. reinforcing the supporting frame; 106. reinforcing the sliding support frame;

2. a detection rod; 201. a drive motor; 202. an arc-shaped rod; 203. a first balance bar; 204. a second balance bar; 205. a first measuring wheel; 206. a second measuring wheel; 207. an electric push rod; 208. limiting the shaft column; 209. a vertical plate;

3. pulling the rod; 301. a chute; 302. positioning a shaft plate; 303. a belt pulley set; 304. reinforcing the connecting plate; 305. a second motor; 306. a third motor; 307. traction belt wheel sets;

4. a first positioning pulley; 401. a staggered frame opening; 402. a pinch roller; 403. a limit baffle; 404. a second positioning pulley; 405. and a third positioning pulley.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The terms "first," "second," "third," and the like in the embodiments of the present application are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "first," "second," and "third" may explicitly or implicitly include at least one such feature. In the description of the present application, the meaning of "plurality" means at least two, for example, two, three, etc., unless specifically defined otherwise. Furthermore, the terms "comprise" and "have," as well as any variations thereof, are intended to cover a non-exclusive inclusion. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those listed steps or elements but may include other steps or elements not listed or inherent to such process, method, article, or apparatus.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment may be included in at least one embodiment of the present application. The appearances of such phrases in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. Those of skill in the art will explicitly and implicitly appreciate that the embodiments described herein may be combined with other embodiments.

In the embodiment, as shown in fig. 1-7, the angle of the second measuring wheel 206 and the first measuring wheel 205 during detection can be adjusted according to the requirement by the storage detection mechanism arranged on the base 1, so that the second measuring wheel 206 and the first measuring wheel 205 are convenient to be attached to the wall surface, the flatness is detected by the shake amplitude of the second measuring wheel 206 and the first measuring wheel 205, meanwhile, storage and folding can be carried out, and the specific structure of the assembly is set as follows;

the storage detection mechanism comprises;

the support slide bar 101 is used for supporting, and the support slide bar 101 is arranged at the top of the base 1 and is in sliding connection with the base 1;

a first motor 102 for driving, the first motor 102 being disposed at one side of the inner wall of the base 1;

a rotatable screw 103, the screw 103 being arranged at the output end of the first motor 102;

one end of the screw rod 103 penetrates through the support slide rod 101 and extends to the base 1 to be movably connected with the base 1, and the screw rod 103 is in threaded connection with the support slide rod 101;

the support stand 104 is used for supporting, the support stand 104 is arranged at the top of the support slide bar 101, and the support stand 104 is movably connected with the support slide bar 101 through a shaft pin;

the reinforced support frame 105 can move up and down, the reinforced support frame 105 is arranged in the middle of the support stand 104, and the reinforced support frame 105 is connected with the support stand 104 in a sliding way;

the reinforced sliding support frame 106 can move up and down, the reinforced sliding support frame 106 is arranged in the reinforced support frame 105, and the reinforced sliding support frame 106 is in sliding connection with the reinforced support frame 105;

a rotatable detection lever 2, the detection lever 2 being provided on the reinforcing slide bracket 106;

a driving motor 201 for driving the detecting rod 2 to rotate, the driving motor 201 being disposed at one side of the detecting rod 2 and detachably connected with the reinforcing slip bracket 106 by bolts;

the arc-shaped rod 202 can rotate, the arc-shaped rod 202 is arranged on the detection rod 2, and the arc-shaped rod 202 is movably connected with the detection rod 2 through a shaft pin;

a first balance bar 203 for supporting, the first balance bar 203 being provided on the top of the detection bar 2;

a second balance bar 204 for supporting, the second balance bar 204 being disposed on top of the arc bar 202;

the first measuring wheels 205 are used for detection, and each first measuring wheel 205 is arranged on the first balance rod 203 and is movably connected with the first balance rod 203;

the second measuring wheels 206 are used for detection, each second measuring wheel 206 is arranged on the second balance bar 204 and is movably connected with the second balance bar 204, and each first measuring wheel 205 and each second measuring wheel 206 are respectively provided with a displacement sensor;

the electric push rod 207 is used for driving, the electric push rod 207 is arranged on one side of the detection rod 2, and the bottom of the electric push rod 207 is movably connected with the detection rod 2 through a shaft pin;

the limiting shaft column 208 is used for limiting, the limiting shaft column 208 is arranged at the output end of the electric push rod 207, and two ends of the limiting shaft column 208 are both arranged on the arc-shaped rod 202;

the vertical plate 209 for supporting is sleeved on the first balance rod 203 and is detachably connected with the detection rod 2 through bolts;

the two pulling rods 3 are used for supporting, and each pulling rod 3 is arranged on the base 1 and is movably connected with the base 1 through a shaft pin;

two sliding grooves 301 for guiding, wherein each sliding groove 301 is respectively arranged on two sides of the supporting stand 104;

the two positioning shaft plates 302 are used for guiding, each positioning shaft plate 302 is respectively arranged at one end of the corresponding pulling rod 3 and is movably connected with the pulling rod 3 through a shaft pin, and the positioning shaft plates 302 are in sliding connection with the sliding groove 301;

two rotatable pulley sets 303, wherein each pulley set 303 is respectively arranged at two sides of the supporting stand 104;

the two reinforcing connecting plates 304 are used for limiting, each reinforcing connecting plate 304 is arranged on the outer side of the corresponding belt pulley group 303, and one end of each reinforcing connecting plate 304 extends to the reinforcing support frame 105 and is detachably connected with the reinforcing support frame 105 through bolts;

the second motor 305 is used for driving, the second motor 305 is arranged at the top of the supporting slide bar 101, and the output end of the second motor 305 extends to the belt pulley group 303;

a third motor 306 is arranged at the top of the inner cavity of the reinforced support frame 105, a traction belt pulley group 307 is arranged at the output end of the third motor 306, the reinforced slide support frame 106 is fixedly connected with one side of the traction belt pulley group 307, and the bottom of the traction belt pulley group 307 extends to the bottom of the inner cavity of the reinforced support frame 105 and is movably connected with the reinforced support frame 105;

the first positioning pulleys 4 are used for limiting and guiding, each first positioning pulley 4 is arranged at the four corners of the outer side of the reinforced sliding support frame 106, and the first positioning pulleys 4 extend to the reinforced support frame 105 and are in sliding connection with the reinforced support frame 105;

the plurality of dislocation frame openings 401 are used for dislocation, and every two dislocation frame openings 401 are respectively arranged on two sides of the inner wall of the reinforced slide supporting frame 106;

the clamping wheels 402 are used for limiting, and each clamping wheel 402 is arranged in the corresponding dislocation frame opening 401;

the outer sides of the clamping wheels 402 respectively penetrate through the corresponding dislocation frame openings 401 and extend to the reinforced support frame 105 to be in sliding connection with the reinforced support frame 105;

the limiting baffle 403 is used for limiting, the limiting baffle 403 is arranged on one side of the top of the supporting vertical frame 104, and the limiting baffle 403 is detachably connected with the supporting vertical frame 104 through bolts;

the second positioning pulleys 404 are used for limiting, and the second positioning pulleys 404 are respectively arranged at two ends of the limiting baffle 403;

a plurality of third positioning pulleys 405 for limiting, wherein each third positioning pulley 405 is respectively arranged at two ends of the bottom of the supporting stand 104

The second positioning pulley 404 and the limit baffle 403, and the third positioning pulley 405 are detachably connected with the supporting stand 104 through bolts, and the second positioning pulley 404 and the third positioning pulley 405 extend onto the supporting stand 104 and are slidably connected with the supporting stand 104.

According to the structure, when the device is used, a worker installs the device on a wall surface to be detected, the device is started by the first motor 102, when the first motor 102 drives the screw rod 103 to rotate, the supporting slide rod 101 is displaced on the base 1 due to traction force generated when the screw rod 103 rotates, the supporting slide rod 101 drives the supporting stand 104 to displace when the supporting stand 104 displaces, and the supporting stand 104 is limited by the pulling rod 3 due to the fact that the supporting stand 104 displaces, so that the supporting stand 104 firstly rotates along an axle center point of the connecting part of the supporting stand 104 and the supporting slide rod 101, and the angle of each structure on the supporting stand 104 is adjusted;

when the supporting stand 104 is turned over, the positioning shaft plate 302 slides in the belt pulley group 303 through the arrangement of the positioning shaft plate 302 and the belt pulley group 303, traction and limitation are carried out when the supporting stand 104 is adjusted, the condition that the supporting stand 104 shakes due to overlarge pressure when the supporting stand 104 is adjusted is avoided, and meanwhile, the stability of the device during subsequent flatness detection can be ensured;

then, the driving motor 201 is used for driving the detection rod 2 to drive the first measurement wheel 205 and the second measurement wheel 206 to rotate, so that the first measurement wheel 205 and the second measurement wheel 206 can be attached to a detection surface, meanwhile, the driving motor 207 can be used for driving the limiting shaft column 208 to drive the arc-shaped rod 202 to rotate along the axis point of the joint of the arc-shaped rod 202 and the detection rod 2, and the angle of the second measurement wheel 206 is adjusted, so that the device can be attached to the detection surface better when detecting, and the detection precision is improved;

after the device is unfolded, the second motor 305 is started firstly to drive the belt pulley group 303 to rotate, the belt pulley group 303 drives the reinforcing connecting plate 304 to displace when rotating, so that the reinforcing support frame 105 displaces on the support stand 104, the height of the device during detection is adjusted firstly, meanwhile, the third motor 306 is started to drive the traction belt pulley group 307 to rotate, and the traction belt pulley group 307 drives the reinforcing slide support frame 106 to displace on the reinforcing support frame 105 when rotating, the detection is adjusted again, and the diversity during detection is realized;

when the reinforced slide supporting frame 106 and the reinforced supporting frame 105 are displaced upwards, the first measuring wheel 205 and the second measuring wheel 206 are contacted with the building wall surface, when the wall surface is uneven, the second measuring wheel 206 and the first measuring wheel 205 shake due to the traction force generated when the reinforced slide supporting frame 106 and the reinforced supporting frame 105 are displaced upwards and the friction force generated when the first measuring wheel 205 and the second measuring wheel 206 are contacted with the wall surface, and the flatness of the wall surface can be effectively ensured by detecting the shaking of the first measuring wheel 205 and the second measuring wheel 206;

when the reinforced slide supporting frame 106 is displaced, the side face of the reinforced slide supporting frame 106 is guided and limited by the first positioning pulley 4, the first positioning pulley 4 is rubbed with the outer side of the reinforced supporting frame 105, the clamping pulley 402 is rubbed with the inner wall of the reinforced supporting frame 105, the reinforced slide supporting frame 106 is guided when being displaced, the second positioning pulley 404 and the third positioning pulley 405 are used for limiting the reinforced supporting frame 105 when being displaced, the stability of the reinforced slide supporting frame 106 when being displaced is ensured, the reinforced supporting frame 105 and the reinforced slide supporting frame 106 are not displaced and limited when the device is detected when the first measuring pulley 205 and the second measuring pulley 206 shake, and the detection accuracy is ensured.

Distinguishing in prior art's condition, the application discloses a building structure vertical flatness detection equipment, corresponding cooperation through each structure is used, the angle of each structure on the support grudging post 104 can be adjusted, so that the device is expanded, the device can be accomodate together when not using simultaneously, reduce occupation of land space, can avoid support grudging post 104 when adjusting because the too big condition that takes place to rock of pressure that receives, can drive when traction pulley group 307 is rotatory and strengthen smooth frame 106 and strengthen the displacement on supporting frame 105, detect the time and adjust once more, realize the variety when detecting, the roughness of the unsteady detection wall of shake through first measuring wheel 205 and second measuring wheel 206, the accuracy when can effectively guarantee to detect.

The foregoing is only illustrative of the preferred embodiments of the present invention and is not to be construed as limiting the invention, but rather as various modifications, equivalent arrangements, improvements, etc., within the spirit and principles of the present invention.

Claims

1. The utility model provides a building structure perpendicular roughness check out test set, includes base (1), its characterized in that: the base (1) is provided with a storage detection mechanism;

the storage detection mechanism includes;

the support slide bar (101) is used for supporting, and the support slide bar (101) is arranged at the top of the base (1) and is in sliding connection with the base (1);

the support stand (104) is used for supporting, the support stand (104) is arranged at the top of the support slide bar (101), and the support stand (104) is movably connected with the support slide bar (101) through a shaft pin;

the reinforced supporting frame (105) can move up and down, the reinforced supporting frame (105) is arranged in the middle of the supporting vertical frame (104), and the reinforced supporting frame (105) is connected with the supporting vertical frame (104) in a sliding manner;

a reinforced slide supporting frame (106) capable of moving up and down, wherein the reinforced slide supporting frame (106) is arranged in the reinforced supporting frame (105), and the reinforced slide supporting frame (106) is in sliding connection with the reinforced supporting frame (105);

a rotatable detection rod (2), wherein the detection rod (2) is arranged on the reinforced slide bracket (106);

a driving motor (201) for driving the detection rod (2) to rotate, wherein the driving motor (201) is arranged on one side of the detection rod (2) and is detachably connected with the reinforced slide support frame (106) through bolts;

the arc-shaped rod (202) can rotate, the arc-shaped rod (202) is arranged on the detection rod (2), and the arc-shaped rod (202) is movably connected with the detection rod (2) through a shaft pin;

a first balance bar (203) for supporting, the first balance bar (203) being arranged on top of the detection bar (2);

a second balance bar (204) for supporting, the second balance bar (204) being arranged on top of the arc bar (202);

the first measuring wheels (205) are used for detection, and each first measuring wheel (205) is arranged on the first balance rod (203) and is movably connected with the first balance rod (203);

the device comprises a plurality of second measuring wheels (206) for detection, wherein each second measuring wheel (206) is arranged on a second balance rod (204) and is movably connected with the second balance rod (204), and each first measuring wheel (205) and each second measuring wheel (206) are respectively provided with a displacement sensor.

2. A building structure vertical surface flatness detection apparatus according to claim 1, characterized in that: the storage detection mechanism further comprises;

the first motor (102) is used for driving, and the first motor (102) is arranged on one side of the inner wall of the base (1);

a rotatable screw (103), the screw (103) being arranged at the output end of the first motor (102);

one end of the screw rod (103) penetrates through the supporting slide rod (101) and extends to the base (1) to be movably connected with the base (1), and the screw rod (103) is in threaded connection with the supporting slide rod (101).

3. A building structure vertical surface flatness detection apparatus according to claim 1, characterized in that: the storage detection mechanism further comprises;

the electric push rod (207) is used for driving, the electric push rod (207) is arranged on one side of the detection rod (2), and the bottom of the electric push rod (207) is movably connected with the detection rod (2) through a shaft pin;

the limiting shaft column (208) is used for limiting, the limiting shaft column (208) is arranged at the output end of the electric push rod (207), and two ends of the limiting shaft column (208) are both arranged on the arc-shaped rod (202);

the vertical plate (209) is used for supporting, and the vertical plate (209) is sleeved on the first balance rod (203) and is detachably connected with the detection rod (2) through bolts.

4. A building structure vertical surface flatness detection apparatus according to claim 1, characterized in that: the storage detection mechanism further comprises;

the two pulling rods (3) are used for supporting, and each pulling rod (3) is arranged on the base (1) and is movably connected with the base (1) through a shaft pin;

two sliding grooves (301) for guiding, wherein each sliding groove (301) is respectively arranged on two sides of the supporting vertical frame (104);

the two positioning shaft plates (302) are used for guiding, the positioning shaft plates (302) are respectively arranged at one end of the corresponding pulling rod (3) and are movably connected with the pulling rod (3) through shaft pins, and the positioning shaft plates (302) are in sliding connection with the sliding grooves (301).

5. A building structure vertical surface flatness detection apparatus according to claim 1, characterized in that: the storage detection mechanism further comprises;

two rotatable pulley sets (303), wherein each pulley set (303) is respectively arranged at two sides of the supporting vertical frame (104);

the two reinforcing connecting plates (304) are used for limiting, the reinforcing connecting plates (304) are respectively arranged at the outer sides of the corresponding belt pulley groups (303), and one ends of the two reinforcing connecting plates (304) extend to the reinforcing support frame (105) and are detachably connected with the reinforcing support frame (105) through bolts;

and the second motor (305) is used for driving, the second motor (305) is arranged at the top of the supporting sliding rod (101), and the output end of the second motor (305) extends to the belt pulley group (303).

6. A building structure vertical surface flatness detection apparatus according to claim 1, characterized in that: the inner cavity top of strengthening braced frame (105) is provided with third motor (306), the output of third motor (306) is provided with pulls pulley group (307), strengthen one side fixed connection of smooth support frame (106) and pull pulley group (307), the bottom of pulling pulley group (307) extends to strengthening braced frame (105) inner cavity bottom and with strengthening braced frame (105) swing joint.

7. A building structure vertical surface flatness detection apparatus according to claim 1, characterized in that: the storage detection mechanism further comprises;

the first positioning pulleys (4) are used for limiting and guiding, the first positioning pulleys (4) are respectively arranged at four corners of the outer side of the reinforced sliding support frame (106), and the first positioning pulleys (4) respectively extend to the reinforced support frame (105) and are in sliding connection with the reinforced support frame (105);

the staggered frame openings (401) are used for staggered, and each two staggered frame openings (401) are respectively arranged on two sides of the inner wall of the reinforced sliding support frame (106) in a group;

the clamping wheels (402) are used for limiting, and the clamping wheels (402) are respectively arranged in the corresponding dislocation frame openings (401);

the outer sides of the clamping wheels (402) respectively penetrate through the corresponding dislocation frame openings (401) and extend to the reinforced supporting frame (105) to be connected with the reinforced supporting frame (105) in a sliding mode.

8. A building structure vertical surface flatness detection apparatus according to claim 1, characterized in that: the storage detection mechanism further comprises;

the limiting baffle (403) is used for limiting, the limiting baffle (403) is arranged on one side of the top of the supporting vertical frame (104), and the limiting baffle (403) is detachably connected with the supporting vertical frame (104) through bolts;

the second positioning pulleys (404) are used for limiting, and the second positioning pulleys (404) are respectively arranged at two ends of the limiting baffle (403);

the third positioning pulleys (405) are used for limiting, and the third positioning pulleys (405) are respectively arranged at two ends of the bottom of the supporting vertical frame (104);

the second positioning pulleys (404) and the limit baffle (403) and the third positioning pulleys (405) are detachably connected with the supporting vertical frame (104) through bolts respectively, and the second positioning pulleys (404) and the third positioning pulleys (405) extend to the upper parts of the supporting vertical frame (104) respectively and are in sliding connection with the supporting vertical frame (104).