CN114658206B - Big data analysis formula construction governing system - Google Patents

Abstract

The invention aims to provide a big data analysis type building construction adjusting system which is used for solving the technical problem of workpiece installation and adjustment in the building construction process. A big data analysis formula construction adjusting system, comprising: a remote management system for storing and processing big data information; clamping and fixing the enclasping system of the installed workpiece; the lifting system drives the enclasping system and the workpiece to move; and the field control system is electrically connected with the enclasping system and the lifting system and is in data exchange with the remote management system.

Description

Big data analysis formula construction governing system

Technical Field

The invention relates to the technical field of building construction by big data analysis, in particular to a big data analysis type building construction adjusting system.

Background

With the development of big data and cloud platform data technology, the communication technology is commonly applied. The mass data of the big data platform is utilized to guide the development of the corresponding industry, and a new convenient mode is provided. In the construction industry, the production and installation of workpieces are increasingly tending to be standardized. The standardized installation big data information can be used for guiding the installation and construction of the building work piece.

Disclosure of Invention

The invention aims to provide a big data analysis type building construction adjusting system which is used for solving the technical problem of workpiece installation and adjustment in the building construction process.

The technical scheme adopted for solving the technical problems is as follows:

A big data analysis formula construction adjusting system, comprising:

a remote management system for storing and processing big data information;

clamping and fixing the enclasping system of the installed workpiece;

the lifting system drives the enclasping system and the workpiece to move;

And the field control system is electrically connected with the enclasping system and the lifting system and is in data exchange with the remote management system.

Further, the enclasping system comprises an enclasping frame body, and electromagnetic clamps are connected to two ends of the enclasping frame body; an electronic level gauge is arranged on the enclasping frame body;

and two sides of the enclasping frame body are connected with the lifting and moving power output end of the lifting system through enclasping height adjusting electric poles.

Further, the enclasping frame body is rotationally connected with an adapter plate through a clamping motor, and the adapter plate is connected with the electromagnetic clamp through a clamping electric pole;

The electromagnetic fixture is provided with a clamping pressure sensor, and the lower end of the electromagnetic fixture is provided with a V-shaped clamping groove.

Further, a butt joint outer cylinder correspondingly connected with the inner and outer moving power output end of the lifting system is arranged on the enclasping frame body.

Further, an inner flanging is arranged at the outer end of the butt joint outer cylinder, and a butt joint pressure sensor is arranged at the inner end of the butt joint outer cylinder.

Further, the lifting system comprises a limiting bottom plate, a limiting support frame is arranged on the limiting bottom plate through limiting the inner and outer movement of the first electric pole, and a limiting flat frame is horizontally arranged on the limiting support frame;

The outer end of the limiting flat frame is provided with a winch, and the winch is connected with the tightly-held height adjusting electric pole below through a plurality of steel wire ropes; the outer end of the limiting flat frame is also provided with a plurality of balance adjusting electric poles, and the lifting power output end of each balance adjusting electric pole is provided with a balance adjusting roller; the balance adjusting rollers are respectively in rolling contact with the corresponding steel wire ropes.

Further, the lifting system comprises a lifting vertical frame, a lifting transverse frame, a lifting first electric pole, a lifting transverse electric pole, a lifting plate, a lifting second electric pole, a lifting first photoelectric detection switch and a lifting second photoelectric detection switch;

The lifting vertical frames are vertically arranged on two sides of the limiting support frame respectively, the lifting transverse frame is transversely arranged on the lifting vertical frames through lifting of the first electric pole, and the lifting first photoelectric detection switch is arranged below the lifting first electric pole;

The lifting transverse electric pole is transversely arranged below the lifting transverse frame, and the lifting second electric pole is arranged at the transverse moving power output end of the lifting transverse electric pole; the lifting plate is arranged at the outer end part of the lifting transverse frame in a lifting manner through a lifting second electric pole, and the lifting second photoelectric detection switch is arranged below the lifting plate.

Further, the lifting system further comprises a pulling transverse frame, a pulling guide plate, a pulling electric pole, a pulling end plate, a pulling bidirectional electric pole, a pulling carriage, a pulling detection rod and a pulling detection spring, wherein the pulling transverse frame is transversely connected to two sides of the limiting support frame; the pulling guide plate is arranged along the inner and outer moving direction of the limiting support frame, and the inner end part of the pulling guide plate is connected with the pulling transverse frame; the pulling end plate is arranged at the outer end part of the pulling electric pole; the pulling bidirectional electric pole is arranged on the pulling end plate, the power moving direction of the pulling bidirectional electric pole is perpendicular to the power moving direction of the pulling electric pole, and the pulling plankers are respectively arranged on the two side moving power output ends of the pulling electric pole; the pulling detection rod is arranged at the front end of the pulling end plate through a pulling detection spring.

Further, the lifting system further comprises a limiting inclined frame and a limiting second electric pole, the limiting flat frame is horizontally hinged to the limiting support frame, the position of the inner end of the limiting flat frame away from a hinge point is larger than the position of the inner end of the limiting flat frame away from an intersection point, and the lower side of the inner end of the limiting flat frame is connected with the limiting support frame through a limiting spring;

The lower end of the limiting inclined frame is in lifting connection with the upper side of the inner end of the limiting flat frame through a limiting lifting electric pole, a lifting inserting rod is further arranged at the lower end of the limiting inclined frame, and the lifting inserting rod is matched with the lifting sleeve in lifting movement and sleeved in the lifting sleeve at the upper side of the inner end of the limiting flat frame;

the inner and outer level of the limiting second electric pole is arranged at the upper end of the limiting inclined frame.

Furthermore, a limit detection photoelectric switch is arranged below the upper end of the limit inclined frame.

The effects provided in the summary of the invention are merely effects of embodiments, not all effects of the invention, and one of the above technical solutions has the following advantages or beneficial effects:

1. the invention can guide the installation and construction of building workpieces through the application of big data and communication technology, and the installation mode is accurate and efficient.

2. In the application scheme of the big data, the enclasping system not only can clamp and fix the workpiece, but also can timely adjust the clamping mode of the workpiece according to the detection data in the moving process of the workpiece.

3. The lifting system timely adjusts the moving direction of the workpiece according to the field installation requirement of the fetched big data and the working process.

Drawings

FIG. 1 is a control schematic diagram of an embodiment of the present invention;

FIG. 2 is an application state diagram of an embodiment of the present invention;

FIG. 3 is an enlarged view of a portion of FIG. 2 at A;

FIG. 4 is a top view showing the mating relationship between the pulling mechanism and the limiting mechanism in the direction B in FIG. 2;

FIG. 5 is a schematic front view illustrating an application state of the hugging system according to the embodiment of the present invention;

FIG. 6 is a schematic side view of a hugging system according to an embodiment of the present invention;

FIG. 7 is a schematic cross-sectional view of a docking outer barrel in an embodiment of the present invention;

In the figure: 01. a remote management system; 02. a field control system; 03. a lifting system; 04. a hugging system; 1. tightly holding the frame body; 2. an electronic level; 3. tightly holding the height adjusting electric pole; 4. a hanging ring; 5. hoisting a spring; 6. butting an outer cylinder; 7. docking a pressure sensor; 8. an inner flanging; 9. an adapter plate; 10. clamping and fixing the electric pole; 11. an electromagnetic clamp; 12. a card supporting motor; 13. clamping and fixing a pressure sensor; 14. v-shaped clamping grooves; 15. a limiting bottom plate; 16. limiting support frames; 17. limiting the first electric pole; 18. limiting the flat frame; 19. limiting inclined frames; 20. limiting the second electric pole; 21. limit detection photoelectric switch; 22. a limit spring; 23. lifting the inserted link; 24. lifting the sleeve; 25. a hoist; 26. a steel wire rope; 27. balance adjusting electric pole; 28. balance adjusting roller; 29. lifting the vertical frame; 30. lifting the transverse frame; 31. lifting the first electric pole; 32. lifting the transverse electric pole; 33. a lifting plate; 34. lifting the second electric pole; 35. lifting the first photoelectric detection switch; 36. lifting the second photoelectric detection switch; 37. pulling the transverse frame; 38. pulling the guide plate; 39. pulling the electric pole; 40. pulling the end plate; 41. pulling the bidirectional electric pole; 42. pulling the carriage; 43. Pulling the detection rod; 44. pulling the detection spring; 45. and a control box.

Detailed Description

As shown in fig. 1-7, a big data analysis type building construction adjusting system comprises a remote management system 01, a field control system 02, and a lifting system 03 and a enclasping system 04 which are electrically connected with the field control system 02. The remote management system 01 adopts a cloud platform or a remote server for storing big data information, and the control system invokes the installation data information of the remote management system 01 according to the model of the construction installation window; meanwhile, the control system transmits the data detected in the construction process to the remote management system 01 in real time, and feeds back the data to the field control system to adjust the installation process after the data are compared, analyzed and processed; a lifting system 03 is provided inside the building for dragging the installed window upwards; the clasping system 04 is used to clamp the installed window during the upward lifting of the window.

The enclasping system 04 comprises an enclasping frame mechanism and a clamping mechanism, wherein the clamping mechanism is arranged at the outer ends of two sides of the enclasping frame mechanism and used for clamping the inner side frame of the installed frame body. The enclasping frame mechanism comprises an enclasping frame body 1, an electronic level 2, an enclasping height adjusting electric pole 3, a hanging ring 4, a lifting spring 5, a butt joint outer cylinder 6 and a butt joint pressure sensor 7. The enclasping frame body 1 adopts a transverse frame body structure, and the butt joint outer cylinder 6 is arranged at the middle part of the enclasping frame body 1; the outer end of the butt joint outer cylinder 6 is provided with an inward flanging 8, and the butt joint pressure sensor 7 is arranged at the inner end of the butt joint outer cylinder 6. The electronic level 2 is arranged on a transverse frame of the enclasping frame body 1 and is used for monitoring whether the enclasping frame body 1 is in a horizontal state in the working process. The lifting springs 5 are vertically arranged on two sides of the transverse frame body of the enclasping frame body 1 respectively, the lower ends of the enclasping height adjusting electric poles 3 are connected with the lifting springs 5, the upper ends of the enclasping height adjusting electric poles 3 are connected with the lifting rings 4, and the lower ends of the lifting springs 5 are connected with the transverse frame body of the enclasping frame body 1. In the window body hoisting process, when the electronic level meter 2 detects that the enclasping frame body 1 is in a water level state, the enclasping height adjusting electric poles 3 at two sides respectively carry out lifting adjustment. The clamping mechanism comprises an adapter plate 9, a clamping electric pole 10, an electromagnetic clamp 11, a clamp supporting motor 12 and a clamping pressure sensor 13; the adapter plate 9 adopts an L-shaped structure, the inner end of the adapter plate 9 is hinged to the outer end part of the enclasping frame body 1 through a clamping motor 12 (preferably, the rotation axis of the clamping motor 12 is perpendicular to the enclasping frame body 1), and a clamping electric pole 10 is arranged at the outer end part of the adapter plate 9; the electromagnetic clamp 11 is arranged at the external power output end of the clamping electric pole 10 and used for clamping the inner side end of the installed window body, and the lower end of the electromagnetic clamp 11 is provided with a V-shaped clamping groove 14. The clamping end face of the electromagnetic clamp 11 is provided with a clamping pressure sensor 13, and in the window lifting process, if the clamping pressure sensor 13 detects that the inner end face of the electromagnetic clamp 11 is separated from the window to be installed, the clamping failure risk exists; the clamping pole 10 stretches, meanwhile, the clamping motor 12 drives the adapter plate 9 to rotate, the electromagnetic clamps 11 at two sides are in a V-shaped posture, and the V-shaped clamping grooves 14 at the lower end are mainly used for lifting and clamping the installed window.

The lifting system 03 comprises a hoisting mechanism, a lifting mechanism, a pulling mechanism and a limiting mechanism, wherein the hoisting mechanism is used for hoisting the enclasping system 04 for fixing the installed window body upwards, when the enclasping system 04 is lifted to an upper-end designated position by the hoisting mechanism, the lifting mechanism is used for moving the installed window body to an installation height position, the pulling mechanism is used for realizing the butt joint with the enclasping system 04, and the limiting mechanism is used for pulling the enclasping system 04 which is in butt joint with the pulling mechanism to an installation position inside the window. The limiting mechanism comprises a limiting bottom plate 15, a limiting supporting frame 16, a limiting first electric pole 17, a limiting flat frame 18, a limiting inclined frame 19, a limiting second electric pole 20 and a limiting detection photoelectric switch 21; the limiting bottom plate 15 is arranged on the ground inside the window, and the limiting support frame 16 is arranged on the limiting bottom plate 15 through limiting the inner and outer movement of the first electric pole 17. The limiting flat frame 18 is horizontally hinged on the limiting support frame 16, the position of the inner end of the limiting flat frame 18 away from the hinge point is larger than the position of the outer end of the limiting flat frame away from the junction point, and the lower side of the inner end of the limiting flat frame 18 is connected with the limiting support frame 16 through a limiting spring 22. The lower extreme of spacing sloping frame 19 is passed through spacing lift pole and is connected with the inboard upside of spacing flat frame 18 in the lift, and the lower extreme of spacing sloping frame 19 still is equipped with lift inserted bar 23, and the matching suit that lift inserted bar 23 goes up and down to remove is in the lift sleeve 24 of spacing flat frame 18 inner end upside. The inner and outer sides of the limiting second electric pole 20 are horizontally arranged at the upper end of the limiting inclined frame 19, and the outer end of the limiting second electric pole 20 is provided with a pressing plate which is pressed against the inner side of the upper wall of the window; the limit detection photoelectric switch 21 is arranged below the upper end of the limit inclined frame 19 and is used for detecting whether the window to be installed is lifted to a specified installation height by the lifting mechanism. The hoisting mechanism comprises a hoisting machine 25, steel wire ropes 26, balance adjusting electric poles 27 and balance adjusting rollers 28, wherein the hoisting machine 25 is arranged at the outer end part of the limiting flat frame 18, two steel wire ropes 26 are respectively wound on reels of the hoisting machine 25, the balance adjusting electric poles 27 are respectively vertically arranged at the outer end parts of the limiting flat frame 18 and are positioned at the outer sides of the hoisting machine 25, and the balance adjusting rollers 28 are rotatably arranged at the power output ends above the balance adjusting electric poles 27 and are in rolling contact with the lower parts of the steel wire ropes 26. The lower end of the steel wire rope 26 is connected with the upper end of the hanging ring 4 which is tightly held on the upper end of the frame body 1. In the process that the winch 25 lifts the enclasping frame body 1 upwards, if the enclasping frame body 1 deflects, firstly, the balance adjusting electric pole 27 at the corresponding side adjusts the tension of the steel wire rope 26 through the balance adjusting roller 28, when the balance adjusting electric pole 27 cannot achieve the adjusting effect, the winch 25 is stopped, and then the enclasping height adjusting electric pole 3 pulls the steel wire rope 26 to adjust the corresponding side direction so as to achieve balance. The lifting mechanism comprises a lifting vertical frame 29, a lifting transverse frame 30, a lifting first electric pole 31, a lifting transverse electric pole 32, a lifting plate 33, a lifting second electric pole 34, a lifting first photoelectric detection switch 35 and a lifting second photoelectric detection switch 36, wherein the lifting vertical frame 29 is vertically arranged at two sides of the limit support frame 16 respectively, and the lifting transverse frame 30 is transversely arranged on the lifting vertical frame 29 through lifting movement of the lifting first electric pole 31; the lifting first photoelectric detection switch 35 is arranged below the lifting first electric pole 31 and is used for detecting the lifting height of the lifting transverse frame 30 above; the lifting transverse electric pole 32 is transversely arranged below the lifting transverse frame 30 through a bracket, and the lifting second electric pole 34 is vertically arranged on a transverse movement power output end of the lifting transverse electric pole 32 through the bracket; the lifting plate 33 is arranged at the outer end part of the lifting transverse frame 30 in a lifting manner through the lifting second electric pole 34, and the lifting second photoelectric detection switch 36 is arranged below the lifting plate 33 and is used for detecting whether the window to be installed is pulled up to a designated height to be lifted. When the installed window body is moved to the upper position through the hoisting mechanism, the lifting transverse electric pole 32 transversely drives the lifting plate 33 to move to the lower end of the upper frame of the installed window body, the hoist 25 overturns to release the loose steel wire rope 26, the lifting first electric pole 31 moves to the first height, then the lifting second electric pole 34 moves to the second height, and the installed window body is lifted to the installation height of the window; then, the pulling mechanism pulls the installation window to the installation position in the window. The pulling mechanism comprises a pulling transverse frame 37, a pulling guide plate 38, a pulling electric pole 39, a pulling end plate 40, a pulling bidirectional electric pole 41, a pulling carriage 42, a pulling detection rod 43 and a pulling detection spring 44, wherein the pulling transverse frame 37 is transversely connected to two sides of the limiting support frame 16, the pulling guide plate 38 is arranged along the inner and outer moving direction of the limiting support frame 16, and the inner end part of the pulling guide plate is connected with the pulling transverse frame 37; the pulling pole 39 is provided on the pulling guide plate 38 so as to move inside and outside, and the pulling end plate 40 is attached to the outer end of the pulling pole 39; the pulling bidirectional electric pole 41 is arranged on the pulling end plate 40, the power moving direction of the pulling bidirectional electric pole 41 is perpendicular to the power moving direction of the pulling electric pole 39, and the pulling carriage 42 is respectively arranged on the two side moving power output ends of the pulling electric pole 39; the pull detection lever 43 is provided at the front end of the pull end plate 40 by a pull detection spring 44. When the mounting window body is moved to the mounting height by the picking mechanism, the pulling electric pole 39 moves the pulling end plate 40 into the butt joint outer cylinder 6 of the holding frame body 1, and when the butt joint pressure sensor 7 in the butt joint outer cylinder 6 detects the pulling detection rod 43, the pulling bidirectional electric pole 41 drives the pulling carriage 42 to move to the two sides of the outer end, and the pulling carriage 42 hooks the inner flanging 8 of the butt joint outer cylinder 6; and then the limiting first electric pole 17 drives the limiting support frame 16 to move inwards of the house, the installation frame body enters the installation position in the window, and finally, after the workers fix the installation window body on the wall body of the window through rivets, the device is reset.

The field control system 02 comprises a control box 45, and a controller (PLC), a wireless transmitting module, a wireless receiving module and a control board which are arranged in the control box 45, wherein the control box 45 is arranged on the limiting bottom plate 15, and the controller is respectively and electrically connected with the corresponding control function modules.

Other than the technical features described in the specification, all are known to those skilled in the art.

The above description is only of the preferred embodiments of the present invention and is not intended to limit the present invention, but various modifications and variations can be made to the present invention by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (1)

1. A big data analysis formula construction governing system, characterized by comprising:

a remote management system for storing and processing big data information;

clamping and fixing the enclasping system of the installed workpiece;

the lifting system drives the enclasping system and the workpiece to move;

The field control system is electrically connected with the enclasping system and the lifting system and is in data exchange with the remote management system;

the enclasping system comprises an enclasping frame body, and electromagnetic clamps are connected to two ends of the enclasping frame body; an electronic level gauge is arranged on the enclasping frame body;

Two sides of the enclasping frame body are connected with a lifting and moving power output end of the lifting system through enclasping height adjusting electric poles;

The enclasping frame body is rotationally connected with an adapter plate through a clamping motor, and the adapter plate is connected with the electromagnetic clamp through a clamping electric pole;

The electromagnetic clamp is provided with a clamping pressure sensor, and the lower end of the electromagnetic clamp is provided with a V-shaped clamping groove;

the enclasping frame body is provided with a butt joint outer cylinder correspondingly connected with an inner and outer moving power output end of the lifting system;

the outer end of the butt joint outer cylinder is provided with an inward flanging, and the inner end of the butt joint outer cylinder is provided with a butt joint pressure sensor; the lifting system comprises a limiting bottom plate, wherein a limiting support frame is arranged on the limiting bottom plate through limiting the inner and outer movement of the first electric pole, and a limiting flat frame is horizontally arranged on the limiting support frame;

The outer end of the limiting flat frame is provided with a winch, and the winch is connected with the tightly-held height adjusting electric pole below through a plurality of steel wire ropes; the outer end of the limiting flat frame is also provided with a plurality of balance adjusting electric poles, and the lifting power output end of each balance adjusting electric pole is provided with a balance adjusting roller; the balance adjusting rollers are respectively in rolling contact with the corresponding steel wire ropes;

The lifting system comprises a lifting vertical frame, a lifting transverse frame, a lifting first electric pole, a lifting transverse electric pole, a lifting plate, a lifting second electric pole, a lifting first photoelectric detection switch and a lifting second photoelectric detection switch;

The lifting vertical frames are vertically arranged on two sides of the limiting support frame respectively, the lifting transverse frame is transversely arranged on the lifting vertical frames through lifting of the first electric pole, and the lifting first photoelectric detection switch is arranged below the lifting first electric pole;

the lifting transverse electric pole is transversely arranged below the lifting transverse frame, and the lifting second electric pole is arranged at the transverse moving power output end of the lifting transverse electric pole; the lifting plate is arranged at the outer end part of the lifting transverse frame in a lifting manner through a lifting second electric pole, and the lifting second photoelectric detection switch is arranged below the lifting plate;

The lifting system further comprises a pulling transverse frame, a pulling guide plate, a pulling electric pole, a pulling end plate, a pulling bidirectional electric pole, a pulling carriage, a pulling detection rod and a pulling detection spring, wherein the pulling transverse frame is transversely connected to two sides of the limiting support frame; the pulling guide plate is arranged along the inner and outer moving direction of the limiting support frame, and the inner end part of the pulling guide plate is connected with the pulling transverse frame; the pulling end plate is arranged at the outer end part of the pulling electric pole; the pulling bidirectional electric pole is arranged on the pulling end plate, the power moving direction of the pulling bidirectional electric pole is perpendicular to the power moving direction of the pulling electric pole, and the pulling plankers are respectively arranged on the two side moving power output ends of the pulling electric pole; the pulling detection rod is arranged at the front end of the pulling end plate through a pulling detection spring;

The lifting system further comprises a limiting inclined frame and a limiting second electric pole, the limiting flat frame is horizontally hinged on the limiting support frame, the position of the inner end of the limiting flat frame away from a hinge point is larger than the position of the outer end of the limiting flat frame away from an intersection point, and the lower side of the inner end of the limiting flat frame is connected with the limiting support frame through a limiting spring;

The lower end of the limiting inclined frame is in lifting connection with the upper side of the inner end of the limiting flat frame through a limiting lifting electric pole, a lifting inserting rod is further arranged at the lower end of the limiting inclined frame, and the lifting inserting rod is matched with the lifting sleeve in lifting movement and sleeved in the lifting sleeve at the upper side of the inner end of the limiting flat frame;

the inner and outer sides of the limiting second electric pole are horizontally arranged at the upper end of the limiting inclined frame;

and a limit detection photoelectric switch is arranged below the upper end of the limit inclined frame.