CN118328814B - Intelligent construction site construction measuring device - Google Patents

Abstract

The invention discloses an intelligent construction site construction measuring device, which relates to the technical field of construction measurement and comprises a measuring seat for measuring the thickness of a bridge, wherein the bridge comprises a beam body, a prefabricated pouring guardrail arranged at the upper end of the beam body, and an installation component arranged at the lower end of the measuring seat and used for installing the measuring seat on the guardrail, and a driving component used for driving the installation component is arranged on the measuring seat. According to the intelligent construction site construction measuring device, after pouring construction, the actual thickness of the beam body is judged and identified through the mutual matching of the measuring assembly, the measuring and positioning assembly, the display assembly and the transmission assembly, the thickness of the beam body is conveniently and rapidly and accurately measured, in the measuring process, the thickness measuring operation is conveniently and rapidly and accurately carried out on different positions on the beam body through the auxiliary movement of the measuring device, and the measuring operation of the intelligent construction site construction operation of the bridge is further realized.

Description

Intelligent construction site construction measuring device

Technical Field

The invention relates to the technical field of construction measurement, in particular to an intelligent construction site construction measurement device.

Background

In the process of construction of a bridge, in order to achieve the construction effects of firm structure, stability, convenience in installation, superior corrosion resistance, attractive appearance and the like, an integrated pouring construction is adopted for a bridge body and a guardrail of the bridge, and the thickness of different positions of the bridge body of the bridge after the integrated forming is inconvenient to quickly and effectively measure due to the existence of the guardrail, so that an intelligent construction site construction measuring device is provided.

Disclosure of Invention

The invention aims to provide an intelligent construction site construction measuring device which is used for solving the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides an wisdom construction site operation measuring device, includes with the measuring seat to bridge thickness measurement, the bridge includes the roof beam body and sets up the prefabricated guardrail of pouring in roof beam body upper end, still includes:

The mounting assembly is arranged at the lower end of the measuring seat and used for mounting the measuring seat on the guardrail, and the driving assembly is arranged on the measuring seat and used for driving the mounting assembly;

The measuring assembly is arranged at the upper end of the measuring seat and used for measuring the thickness of the beam body, the measuring assembly comprises a U-shaped frame arranged above the measuring seat, a pushing assembly used for pushing the U-shaped frame is arranged between the measuring seat and the U-shaped frame, a supporting rod and a positioning plate are respectively fixed at two ends of the U-shaped frame, the lower end of the supporting rod is flush with the lower end of the positioning plate in the horizontal direction, the lower end of the supporting rod is propped against the upper end of the beam body under the pushing action of the pushing assembly, a lifting plate is arranged at the lower side of the positioning plate, a detection plate is arranged on one side of the lifting plate, a measuring positioning assembly used for propping against the lower end of the beam body for positioning measurement is arranged on the detection plate, a camera used for identifying the position and the state in the positioning process is arranged on the detection plate, a moving assembly used for moving the lifting plate is arranged on the U-shaped frame, an auxiliary lifting plate lifting assembly used for lifting the positioning plate is arranged between the positioning plate and the lifting plate, a sliding assembly used for stably lifting the lifting plate is arranged between the positioning plate and the lifting plate, and the positioning plate is used for displaying the measurement result in the measurement seat.

Preferably, the display assembly comprises a scale mark arranged at the upper end of the measuring seat, the upper end of the measuring seat is slidably connected with a display panel, a pointer for identifying the sliding distance of the display panel is arranged on the display panel, and the display panel is connected with the lifting plate through a transmission assembly;

The transmission assembly comprises a fixing frame fixed at the upper end of the measuring seat, a traction rope is connected to the fixing frame in a sliding mode, one end of the traction rope is fixed with the display panel, the other end of the traction rope penetrates through the positioning plate and is fixed with the upper end of the lifting plate, a first supporting wheel used for supporting the traction rope in the transmission process is mounted on the U-shaped frame, a first spring is sleeved on the outer side of the traction rope, and two ends of the first spring are connected with the display panel and the fixing frame respectively.

Preferably, the measuring and positioning assembly comprises a positioning rod fixed at the upper end of the detection plate, a positioning ball used for propping against the lower end of the beam body is arranged at the upper end of the positioning rod through a spherical groove, and the upper end of the positioning ball is kept flush with the upper end of the lifting plate in the horizontal direction.

Preferably, the moving assembly comprises a cylinder arranged on one side of the lifting plate, the output end of the cylinder is fixed with one side of the detection plate, and a plurality of groups of telescopic rods for assisting the detection plate to stably move are arranged between the detection plate and the lifting plate.

Preferably, the sliding assembly comprises a plurality of sliding rods fixed at the lower end of the positioning plate, the lifting plate is connected to each sliding rod in a sliding mode, a bottom plate is fixed at one end of each sliding rod, a second spring is sleeved on the outer side of each sliding rod, two ends of the second spring are respectively propped against the bottom plate and the lifting plate, and the upper end of the lifting plate is propped against the lower end of the positioning plate under the action of the elastic force of each second spring.

Preferably, the lifting assembly comprises a winch fixed at the upper end of the U-shaped frame, a pull rope is arranged on the winch, one end of the pull rope is fixed with the lower end of the lifting plate, a second supporting wheel for supporting the pull rope is arranged on the U-shaped frame, and a third supporting wheel for supporting the pull rope is arranged on the bottom plate.

Preferably, the pushing assembly comprises a plurality of T-shaped rods which are connected to the U-shaped frame in a sliding mode, one end of each T-shaped rod is fixed to the upper end of the measuring seat, an installation frame is fixed to the upper end of the U-shaped frame, a gravity block used for pushing the U-shaped frame in an extrusion mode is placed on the installation frame, and cleaning assemblies for cleaning Liang Tibiao faces in the moving process of the supporting rods are arranged on the front side and the rear side of the supporting rods.

Preferably, the cleaning assembly comprises a fixing plate fixed on one side of the U-shaped frame, and a cleaning brush is fixed on the fixing plate.

Preferably, the mounting assembly comprises two groups of clamping plates arranged below the measuring seat, and a plurality of groups of supporting balls for propping against the outer side of the guardrail are mounted on the opposite sides of the two groups of clamping plates through spherical grooves.

Preferably, the drive assembly is including fixing two sets of mounting brackets in measuring seat one side, two sets of be provided with two sets of L type drive plates between the mounting bracket, two sets of L type drive plates are fixed mutually with one side of two splint respectively, two sets of rotate between the mounting bracket and be connected with double-end lead screw, the screw thread at double-end lead screw both ends revolves to setting in opposite directions, two sets of L type drive plates set up with double-end lead screw's both ends intermeshing respectively, install on the mounting bracket useful with to double-end lead screw driven driving motor, two sets of sliding connection has the guide arm on the L type drive plate, the guide arm is fixed between two mounting brackets.

Compared with the prior art, the invention has the beneficial effects that:

According to the intelligent construction site construction measuring device, after pouring construction, the actual thickness of the beam body is judged and identified through the mutual matching of the measuring assembly, the measuring and positioning assembly, the display assembly and the transmission assembly, the thickness of the beam body is conveniently and rapidly and accurately measured, in the measuring process, the thickness measuring operation is conveniently and rapidly and accurately carried out on different positions on the beam body through the auxiliary movement of the measuring device, and the measuring operation of the intelligent construction site construction operation of the bridge is further realized.

Drawings

FIG. 1 is a schematic diagram of the overall outline structure of the present invention;

FIG. 2 is a schematic view of a measuring assembly according to the present invention;

FIG. 3 is a schematic view of a mounting assembly and a driving assembly according to the present invention;

FIG. 4 is a schematic diagram of a pushing assembly and cleaning assembly according to the present invention;

FIG. 5 is a schematic diagram of a measurement assembly of the present invention before detection;

FIG. 6 is a schematic diagram of a display assembly and a transmission assembly according to the present invention;

FIG. 7 is a schematic view of a sliding assembly according to the present invention;

FIG. 8 is a schematic view of a lifting assembly according to the present invention;

FIG. 9 is a schematic view of a measuring and positioning assembly and a moving assembly according to the present invention;

FIG. 10 is a schematic view showing a lowering state of a lifting plate on a measuring assembly;

FIG. 11 is a schematic view showing a state after the detection plate on the measuring assembly moves.

In the figure: 101. a beam body; 102. guard bars; 2. a measuring seat; 301. a clamping plate; 302. supporting the balls; 401. a mounting frame; 402. an L-shaped transmission plate; 403. double-end screw rod; 404. a driving motor; 405. a guide rod; 501. a U-shaped frame; 502. a support rod; 503. a positioning plate; 504. a lifting plate; 505. a detection plate; 506. a camera; 601. a positioning rod; 602. positioning the ball; 701. a cylinder; 702. a telescopic rod; 801. a slide bar; 802. a bottom plate; 803. a second spring; 901. a hoist; 902. a pull rope; 903. a second support wheel; 904. a third support wheel; 1001. scale marks; 1002. a display panel; 1003. a pointer; 1101. a fixing frame; 1102. a traction rope; 1103. a first support wheel; 1104. a first spring; 1201. a T-shaped rod; 1202. a mounting frame; 1203. a gravity block; 1301. a fixing plate; 1302. cleaning the hairbrush.

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.

Example 1: referring to fig. 1-11, an intelligent construction site construction measuring apparatus is shown, which includes a measuring base 2 for measuring the thickness of a bridge, the bridge includes a beam body 101 and a prefabricated casting guardrail 102 disposed at the upper end of the beam body 101, and further includes:

The mounting component is arranged at the lower end of the measuring seat 2 and used for mounting the measuring seat 2 on the guardrail 102, and the driving component is arranged on the measuring seat 2 and used for driving the mounting component;

The measuring assembly is arranged at the upper end of the measuring seat 2 and is used for measuring the thickness of the beam body 101, the measuring assembly comprises a U-shaped frame 501 arranged above the measuring seat 2, a pushing assembly used for pushing the U-shaped frame 501 is arranged between the measuring seat 2 and the U-shaped frame 501, a supporting rod 502 and a positioning plate 503 are respectively fixed at two ends of the U-shaped frame 501, the lower end of the supporting rod 502 is flush with the lower end of the positioning plate 503 in the horizontal direction, the lower end of the supporting rod 502 abuts against the upper end of the beam body 101 under the pushing action of the pushing assembly, a lifting plate 504 is arranged at the lower side of the positioning plate 503, a detection plate 505 is arranged on one side of the lifting plate 504, which abuts against the beam body 101, a measuring positioning assembly used for abutting against the lower end of the beam body 101 is arranged on the detection plate 505, a camera 506 used for identifying the position and the state in the positioning process is arranged on the detection plate 505, a lifting assembly used for lifting the positioning plate 504 is arranged on the U-shaped frame 501, an auxiliary lifting assembly used for lifting the lifting 504 is arranged between the positioning plate 504 and the lifting plate 504 under the pushing action of the pushing assembly, and the lifting assembly is arranged between the positioning plate 504 and the lifting assembly is used for displaying the sliding seat 2 in the measurement process;

Noteworthy here is that: the camera 506 on the detection plate 505 is convenient for the measurement positioning component in the detection process to more quickly and effectively prop against the lower end of the beam body 101 for limiting;

What needs to be explained here is: after pouring construction, the actual thickness of the beam body 101 is judged and identified through the mutual matching of the measuring assembly, the measuring and positioning assembly, the display assembly and the transmission assembly, the thickness of the beam body 101 is convenient to measure quickly and accurately, in the measuring process, the measuring operation of the thickness is convenient to be performed quickly and accurately on different positions on the beam body 101 through the auxiliary movement of the measuring device, and the measuring operation of the intelligent construction site construction operation of the bridge is further realized.

Preferably, the display assembly comprises a scale line 1001 arranged at the upper end of the measuring seat 2, the upper end of the measuring seat 2 is slidably connected with a display panel 1002, a pointer 1003 for identifying the sliding distance of the display panel 1002 is arranged on the display panel 1002, and the display panel 1002 is connected with the lifting plate 504 through a transmission assembly; the transmission assembly comprises a fixed frame 1101 fixed at the upper end of the measuring seat 2, a traction rope 1102 is connected to the fixed frame 1101 in a sliding manner, one end of the traction rope 1102 is fixed with the display panel 1002, the other end of the traction rope 1102 penetrates through the positioning plate 503 and is fixed with the upper end of the lifting plate 504, a first supporting wheel 1103 for supporting the traction rope 1102 in the transmission process is mounted on the U-shaped frame 501, a first spring 1104 is sleeved on the outer side of the traction rope 1102, and two ends of the first spring 1104 are respectively connected with the display panel 1002 and the fixed frame 1101;

What needs to be explained here is: in the detection process, the positioning ball 602 on the positioning rod 601 is abutted against the lower end of the beam body 101 through the mutual matching of the lifting assembly, the sliding assembly and the moving assembly, and the sliding distance of the display plate 1002 is judged through the mutual matching of the pointer 1003 on the display plate 1002 and the scale marks 1001 in the sliding process, so that the falling height of the lifting plate 504 is consistent with the thickness of the beam body 101 when the positioning ball 602 is abutted against the lower end of the beam body 101, the thickness of the beam body 101 is measured, the display plate 1002 is pulled to slide on the measuring seat 2 by the same distance in the falling process of the lifting plate 504, and the sliding distance of the display plate 1002 is judged through the mutual matching of the pointer 1003 on the display plate 1002 and the scale marks 1001, so that the actual thickness of the beam body 101 is further recognized.

Preferably, the measuring and positioning assembly comprises a positioning rod 601 fixed at the upper end of the detection plate 505, wherein a positioning ball 602 for propping against the lower end of the beam body 101 is arranged at the upper end of the positioning rod 601 through a spherical groove, and the upper end of the positioning ball 602 is kept flush with the upper end of the lifting plate 504 in the horizontal direction;

What needs to be explained here is: in the detection process, through the mutual cooperation of the lifting component and the sliding component, the lifting plate 504 is driven to move downwards, in the descending process of the lifting plate 504, the detection plate 505 is driven to move downwards synchronously, in the descending process of the detection plate 505, the moving component pushes the positioning rod 601 on the detection plate 505 to move towards the beam body 101, and the positioning ball 602 on the positioning rod 601 is abutted against the lower end of the beam body 101, so that the upper end of the positioning ball 602 is kept flush with the upper end of the lifting plate 504 in the horizontal direction.

Preferably, the moving assembly comprises an air cylinder 701 arranged on one side of the lifting plate 504, the output end of the air cylinder 701 is fixed with one side of the detection plate 505, and a plurality of groups of telescopic rods 702 for assisting the stable movement of the detection plate 505 are arranged between the detection plate 505 and the lifting plate 504;

what needs to be explained here is: the detection plate 505 is assisted in moving operation by the driving action of the air cylinder 701 and the sliding guiding action of the plurality of telescopic rods 702.

Preferably, the sliding assembly comprises a plurality of sliding rods 801 fixed at the lower end of the positioning plate 503, the lifting plate 504 is slidably connected to each sliding rod 801, a bottom plate 802 is fixed at one end of each sliding rod 801, a second spring 803 is sleeved outside each sliding rod 801, two ends of the second spring 803 respectively abut against the bottom plate 802 and the lifting plate 504, and the upper end of the lifting plate 504 abuts against the lower end of the positioning plate 503 under the action of the elasticity of each second spring 803;

What needs to be explained here is: the lifting and sliding of the lifting plate 504 is guided by a plurality of slide bars 801, and the lifting plate 504 is pushed against the lower end of the positioning plate 503 by a plurality of second springs 803.

Preferably, the lifting assembly comprises a winch 901 fixed at the upper end of the U-shaped frame 501, a pull rope 902 is arranged on the winch 901, one end of the pull rope 902 is fixed with the lower end of the lifting plate 504, a second supporting wheel 903 for supporting the pull rope 902 is arranged on the U-shaped frame 501, and a third supporting wheel 904 for supporting the pull rope 902 is arranged on the bottom plate 802;

What needs to be explained here is: the lifting plate 504 is pulled to move downward by the winding drive of the pulling rope 902 by the winding machine 901 and the supporting action of the second supporting wheel 903 and the third supporting wheel 904 on the pulling rope 902.

Preferably, the pushing assembly comprises a plurality of T-shaped rods 1201 which are slidably connected to the U-shaped frame 501, one end of each T-shaped rod 1201 is fixed with the upper end of the measuring seat 2, the upper end of the U-shaped frame 501 is fixed with a mounting frame 1202, a gravity block 1203 for pushing the U-shaped frame 501 in a squeezing way is arranged on the mounting frame 1202, and cleaning assemblies for cleaning the surface of the beam body 101 in the moving process of the supporting rods 502 are arranged on the front side and the rear side of the supporting rods 502;

What needs to be explained here is: after the measuring seat 2 is installed, the plurality of groups of gravity blocks 1203 are sequentially placed on the installation frame 1202, under the gravity pushing action of the plurality of groups of gravity blocks 1203 on the U-shaped frame 501, the U-shaped frame 501 is enabled to lean against the measuring seat 2 to move downwards, and in the descending process of the U-shaped frame 501, the lower end of the supporting rod 502 on the U-shaped frame 501 is enabled to prop against the upper end of the beam body 101, so that the follow-up more accurate measurement is facilitated.

Preferably, the cleaning assembly comprises a fixing plate 1301 fixed on one side of the U-shaped frame 501, and a cleaning brush 1302 is fixed on the fixing plate 1301;

What needs to be explained here is: through measuring device's removal, be convenient for quick and accurate to the different positions on the roof beam body 101 carry out the measurement operation of thickness, and at the in-process that removes, clear up the upper end surface of the roof beam body 101 around to bracing piece 502 through the clearance brush 1302 on the fixed plate 1301, be convenient for more accurate measurement operation.

Preferably, the mounting assembly comprises two sets of clamping plates 301 arranged below the measuring seat 2, and a plurality of sets of supporting balls 302 for propping against the outer side of the guardrail 102 are arranged on the opposite sides of the two sets of clamping plates 301 through spherical grooves;

What needs to be explained here is: the two groups of clamping plates 301 are driven to move close to each other through the driving assembly, and in the moving process, the supporting balls 302 on one side of the two groups of clamping plates 301 respectively prop against two sides of the guardrail 102, and the measurement seat 2 which is placed in a propping manner is installed on the guardrail 102.

Preferably, the driving assembly comprises two groups of mounting frames 401 fixed on one side of the measuring seat 2, two groups of L-shaped transmission plates 402 are arranged between the two groups of mounting frames 401, the two groups of L-shaped transmission plates 402 are respectively fixed on one side of the two clamping plates 301, double-headed screw rods 403 are rotatably connected between the two groups of mounting frames 401, threads at two ends of the double-headed screw rods 403 are oppositely arranged, the two groups of L-shaped transmission plates 402 are respectively meshed with two ends of the double-headed screw rods 403, driving motors 404 for driving the double-headed screw rods 403 are arranged on the mounting frames 401, guide rods 405 are slidably connected on the two groups of L-shaped transmission plates 402, and the guide rods 405 are fixed between the two mounting frames 401;

What needs to be explained here is: through driving motor 404, drive double-end lead screw 403 rotates, because of the screw thread at double-end lead screw 403 both ends revolves to opposite setting, at double-end lead screw 403 pivoted in-process, through the mutual meshing transmission at double-end lead screw 403 both ends and the slip direction effect of guide arm 405 respectively with two sets of L type drive plates 402, make two sets of L type drive plates 402 after the atress move near each other or keep away from each other, at the in-process that two sets of L type drive plates 402 moved, drive two splint 301 and move in step.

In the scheme, the method comprises the following steps: an intelligent construction site construction measuring device comprises the following steps:

After the bridge is poured and constructed, the thickness of the beam body 101 is measured, in the process of measurement, the measuring seat 2 is pushed and propped against the upper side of the guardrail 102, in the process of propping against the pushing, the two clamping plates 301 are respectively positioned on the two sides of the guardrail 102, after the measuring seat 2 is pushed, the two groups of clamping plates 301 are driven to move close to each other through the driving assembly, in the process of movement, the plurality of supporting balls 302 on one side of the two groups of clamping plates 301 are respectively propped against the two sides of the guardrail 102, and the measuring seat 2 which is propped against and placed is installed on the guardrail 102;

After the measuring seat 2 is installed, a plurality of groups of gravity blocks 1203 are sequentially placed on the installation frame 1202, under the action of gravity pushing of the plurality of groups of gravity blocks 1203 on the U-shaped frame 501, the U-shaped frame 501 is enabled to move downwards towards the measuring seat 2, in the process of descending movement of the U-shaped frame 501, the lower end of the upper supporting rod 502 of the U-shaped frame 501 is enabled to prop against the upper end of the beam body 101, as the end of the supporting rod 502 is enabled to be flush with the lower end of the positioning plate 503 in the horizontal direction, and the upper end of the lifting plate 504 is enabled to prop against the lower end of the positioning plate 503 under the action of the elastic force of each second spring 803, so that before the lifting plate 504 does not descend, the upper end of the lifting plate 504 is enabled to be flush with the upper end of the beam body 101, in the process of detection, the lifting plate 504 is driven to descend through the mutual matching of the lifting assembly and the sliding assembly, in the process of descending movement of the lifting plate 504 is enabled to synchronously descend, in the descending process of the detection plate 505, the positioning rod 601 on the detection plate 505 is pushed to move towards the beam body 101 by the moving component, the positioning ball 602 on the positioning rod 601 is propped against the lower end of the beam body 101, and the upper end of the positioning ball 602 is kept flush with the upper end of the lifting plate 504 in the horizontal direction, so that the descending height of the lifting plate 504 is consistent with the thickness of the beam body 101 when the positioning ball 602 is propped against the lower end of the beam body 101, the thickness of the beam body 101 is measured, in the descending process of the lifting plate 504, the display plate 1002 is pulled to slide on the measuring seat 2 by the same distance by the traction rope 1102, in the sliding process, the sliding distance of the display plate 1002 is judged by the mutual matching of the pointer 1003 on the display plate 1002 and the scale marks 1001, the actual thickness of the beam body 101 is further identified, and the thickness of the beam body 101 is conveniently and rapidly and accurately measured;

And in the measuring process, through the offset effect of each supporting ball 302 and the outside of guardrail 102 and the offset effect of locating lever 601 upper end locating ball 602 and the roof beam body 101 bottom, the whole measuring device of auxiliary measurement in-process of being convenient for removes on the roof beam body 101, through measuring device's removal, be convenient for quick and accurate carry out the measuring operation of thickness to the different positions on the roof beam body 101, in the in-process of whole measuring operation, through measuring assembly and measuring locating assembly, display module and drive assembly's mutually support, realize the intelligent accurate measurement to the thickness of the different positions of roof beam body 101, further realize the measuring operation of the wisdom construction site construction operation of bridge.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. An intelligent construction site construction measurement device, comprising:

the bridge comprises a beam body (101) and a prefabricated pouring guardrail (102) arranged at the upper end of the beam body (101);

Characterized by further comprising:

the installation component is arranged at the lower end of the measuring seat (2) and used for installing the measuring seat (2) on the guardrail (102), and a driving component used for driving the installation component is arranged on the measuring seat (2);

The measuring assembly is arranged at the upper end of the measuring seat (2) and is used for measuring the thickness of the beam body (101), the measuring assembly comprises a U-shaped frame (501) arranged above the measuring seat (2), a pushing assembly used for pushing the U-shaped frame (501) is arranged between the measuring seat (2) and the U-shaped frame (501), a supporting rod (502) and a positioning plate (503) are respectively fixed at two ends of the U-shaped frame (501), the lower end of the supporting rod (502) is flush with the lower end of the positioning plate (503) in the horizontal direction, the lower end of the supporting rod (502) is propped against the upper end of the beam body (101) under the pushing action of the pushing assembly, a lifting plate (504) is arranged at the lower side of the positioning plate (503), a detection plate (505) is arranged at one side, a measuring positioning assembly used for positioning and measuring the lower end of the beam body (101), a position recognition plate (506) is arranged on the detection plate (505), a lifting assembly (504) is used for recognizing the position in the positioning process, a lifting assembly (503) is arranged between the lifting assembly (503) and the lifting assembly (503) is used for stably lifting the lifting assembly (503) and is arranged on the lifting assembly (503) in a sliding mode, a display component for displaying the measurement result in the measurement process is arranged between the lifting plate (504) and the measurement seat (2).

2. An intelligent construction site construction measuring apparatus according to claim 1, wherein: the display assembly comprises a scale mark (1001) arranged at the upper end of the measuring seat (2), the upper end of the measuring seat (2) is connected with a display plate (1002) in a sliding manner, a pointer (1003) for identifying the sliding distance of the display plate (1002) is arranged on the display plate (1002), and the display plate (1002) is connected with the lifting plate (504) through a transmission assembly;

the transmission assembly comprises a fixing frame (1101) fixed at the upper end of a measuring seat (2), a traction rope (1102) is slidably connected to the fixing frame (1101), one end of the traction rope (1102) is fixed to a display plate (1002), the other end of the traction rope (1102) penetrates through a positioning plate (503) and is fixed to the upper end of a lifting plate (504), a first supporting wheel (1103) for supporting the traction rope (1102) in the transmission process is mounted on the U-shaped frame (501), a first spring (1104) is sleeved on the outer side of the traction rope (1102), and two ends of the first spring (1104) are respectively connected with the display plate (1002) and the fixing frame (1101).

3. An intelligent construction site construction measuring apparatus according to claim 2, wherein: the measuring and positioning assembly comprises a positioning rod (601) fixed at the upper end of the detection plate (505), a positioning ball (602) used for propping against the lower end of the beam body (101) is installed at the upper end of the positioning rod (601) through a spherical groove, and the upper end of the positioning ball (602) is kept flush with the upper end of the lifting plate (504) in the horizontal direction.

4. An intelligent construction site construction measuring apparatus according to claim 3, wherein: the movable assembly comprises an air cylinder (701) arranged on one side of the lifting plate (504), the output end of the air cylinder (701) is fixed with one side of the detection plate (505), and a plurality of groups of telescopic rods (702) used for assisting the stable movement of the detection plate (505) are arranged between the detection plate (505) and the lifting plate (504).

5. An intelligent construction site construction measuring apparatus according to claim 1, wherein: the sliding assembly comprises a plurality of sliding rods (801) fixed at the lower ends of the positioning plates (503), the lifting plates (504) are slidably connected to the sliding rods (801), a bottom plate (802) is fixed at one end of each sliding rod (801), second springs (803) are sleeved on the outer sides of the sliding rods (801), two ends of each second spring (803) respectively abut against the bottom plate (802) and the lifting plates (504), and the upper ends of the lifting plates (504) abut against the lower ends of the positioning plates (503) under the action of the elastic force of each second spring (803).

6. An intelligent construction site construction measuring apparatus according to claim 5, wherein: the lifting assembly comprises a winch (901) fixed at the upper end of a U-shaped frame (501), a pull rope (902) is arranged on the winch (901), one end of the pull rope (902) is fixed with the lower end of a lifting plate (504), a second supporting wheel (903) for supporting the pull rope (902) is arranged on the U-shaped frame (501), and a third supporting wheel (904) for supporting the pull rope (902) is arranged on the bottom plate (802).

7. An intelligent construction site construction measuring apparatus according to claim 1, wherein: the pushing assembly comprises a plurality of T-shaped rods (1201) which are connected to the U-shaped frame (501) in a sliding mode, one end of each T-shaped rod (1201) is fixed to the upper end of the measuring seat (2), a mounting frame (1202) is fixed to the upper end of the U-shaped frame (501), a gravity block (1203) for pushing the U-shaped frame (501) in a pressing mode is placed on the mounting frame (1202), and cleaning assemblies for cleaning the surface of the beam body (101) in the moving process of the supporting rods (502) are arranged on the front side and the rear side of each supporting rod (502).

8. An intelligent construction site construction measuring apparatus according to claim 7, wherein: the cleaning assembly comprises a fixing plate (1301) fixed on one side of the U-shaped frame (501), and a cleaning brush (1302) is fixed on the fixing plate (1301).

9. An intelligent construction site construction measuring apparatus according to claim 1, wherein: the mounting assembly comprises two groups of clamping plates (301) arranged below the measuring seat (2), and a plurality of groups of supporting balls (302) which are used for propping against the outer side of the guardrail (102) are mounted on the opposite sides of the two groups of clamping plates (301) through spherical grooves.

10. An intelligent construction site construction measuring apparatus according to claim 9, wherein: the driving assembly comprises two groups of mounting frames (401) fixed on one side of a measuring seat (2), two groups of L-shaped transmission plates (402) are arranged between the mounting frames (401), two groups of L-shaped transmission plates (402) are respectively fixed on one side of two clamping plates (301), two groups of double-end screw rods (403) are rotatably connected between the mounting frames (401), threads at two ends of the double-end screw rods (403) are oppositely arranged in a rotating mode, two groups of L-shaped transmission plates (402) are respectively arranged in a mutually meshed mode with two ends of the double-end screw rods (403), driving motors (404) for driving the double-end screw rods (403) are arranged on the mounting frames (401), guide rods (405) are connected to the L-shaped transmission plates (402) in a sliding mode, and the guide rods (405) are fixed between the two mounting frames (401).