CN113327512A

CN113327512A - Building engineering data acquisition analog equipment based on BIM

Info

Publication number: CN113327512A
Application number: CN202110511000.8A
Authority: CN
Inventors: 张玲
Original assignee: Shandong Water Conservancy Vocational College
Current assignee: Shandong Water Conservancy Vocational College
Priority date: 2021-05-11
Filing date: 2021-05-11
Publication date: 2021-08-31
Anticipated expiration: 2041-05-11
Also published as: CN113327512B

Abstract

The invention discloses building engineering data acquisition simulation equipment based on BIM, which structurally comprises a handle, a lock catch and acquisition simulation equipment, and has the advantages that the equipment can be subjected to two options of lifting and uncovering and overturning and uncovering by arranging a protective top cover capable of conveniently switching an uncovering mode, the lifting and uncovering mode can be selected when the equipment is used in an open place with the influence of sunlight or the equipment needs to be used by a solar battery for endurance, the top cover of the equipment can shield the sunlight while the equipment continues to run by the solar energy, the condition that a display screen is not visible is avoided, the equipment is convenient to use, a lifting device is arranged in a protective box body of the equipment, a simulation machine body of the equipment can be lifted by lifting when the simulation machine body of the equipment needs to be used, the machine body is lifted to the top end of the protective box body for use, the heat dissipation space of the machine body is increased, and the overheating phenomenon caused by small box body space is better prevented, and can be lowered and stored by pressing when being stored, thereby being convenient for use.

Description

Building engineering data acquisition analog equipment based on BIM

Technical Field

The invention belongs to the technical field of building simulation equipment, and particularly relates to building engineering data acquisition simulation equipment based on BIM.

Background

In life, in order to better carry out the construction of buildings, the buildings are usually designed in a simulation way, the devices for carrying out the simulation design are the building simulation devices, along with the improvement of simulation software, a system and the like, the simulation structures without being limited to a plane design simulation structure are formed, the simulation structures with a solid diagram are formed, so that the buildings can better carry out the visual and close to the practical simulation design, wherein BIM is a building information model, is a new tool of architecture, engineering and civil engineering, is created by a building information model or a building information model, is a computer-aided design which mainly adopts three-dimensional graphs, is object-oriented and related to architecture, can help to realize the integration of building information, and all kinds of information are always integrated in a three-dimensional model information database from the design, construction and operation of the buildings to the end of the whole life cycle of the buildings, personnel of each party such as a design team, a construction unit, a facility operation department, an owner and the like can perform cooperative work based on BIM, so that the working efficiency is effectively improved, resources are saved, the cost is reduced, sustainable development is realized, and along with rapid development of scientific technology, technical improvement is also obtained, but when the equipment is used in the prior art, data acquisition simulation of some used equipment and sites on site is often required to be carried and used, and when the equipment is carried and used, in an open site or needs a solar cell for endurance use, due to irradiation of sunlight, a display screen of the equipment can be invisible, shielding objects are often required to be temporarily found for shielding sunlight, so that the equipment is inconvenient to use, and when the prior art is used, the equipment can be assembled in a box body for facilitating carrying and protecting the equipment, so that the heat dissipation performance of the equipment is poor when the equipment is used, the phenomenon of blocking and the like is easily caused by overheating, and the use is inconvenient.

Disclosure of Invention

Technical problem to be solved

In order to overcome prior art not enough, the building engineering data acquisition analog device based on BIM is proposed at present, in order to solve prior art when using, to carrying out some used equipment on the scene, the data acquisition simulation in place, often need carry the use to equipment, and equipment is carrying the use, when spacious place or need solar cell to continue a journey the use, because shining of sunshine, the display screen that makes equipment can be unclear, often need look for temporarily to shield the thing and carry out sheltering from of sunshine, comparatively inconvenient, and when prior art used, for the convenience of carrying and the protection of equipment, equipment can assemble inside the box, it is relatively poor to cause equipment thermal diffusivity when using, easily because overheated phenomenon such as lead to the card to die, cause the inconvenient effect of use.

(II) technical scheme

The invention is realized by the following technical scheme: the invention provides building engineering data acquisition simulation equipment based on BIM, which comprises a handle, a lock catch and acquisition simulation equipment, wherein the handle is locked at the lower side of the left end of the acquisition simulation equipment, and the lock catch is fixedly connected with the left end of the acquisition simulation equipment;

the acquisition simulation equipment comprises a battery bottom cover, a storage battery, a simulation machine body, a protection box body, an outer interface groove, a lifting device, a protection top cover, a display screen, a machine body accommodating groove and a machine body assembling plate, wherein the storage battery is embedded at the bottom end of the protection box body, the bottom end of the protection box body is locked with the battery bottom cover, the machine body accommodating groove is formed in the top end of the protection box body, the lifting device is fixedly connected with the top end of the protection box body, the lifting device is arranged in the machine body accommodating groove, the machine body assembling plate is movably fastened with the lifting device, the machine body assembling plate is arranged in the machine body accommodating groove, the top end of the machine body assembling plate is fixedly connected with the simulation machine body, the outer interface groove is embedded in the left side of the top end of the simulation machine body, the display screen is movably fastened at the top end of the simulation machine body, and the protection top cover is fastened with the top end of the protection box body;

the protective top cover comprises a power connector, a power plug, a main cover plate, a movable connecting rod, a solar battery, a movable connector, a linkage plate, a limiting rod, a first compression spring, an unlocking pull rod, a locking pin groove, an unlocking press rod, a telescopic rod, a butt joint hole, a lifting linkage plate, a butt joint rod, a movable inner rod, an overturning clamping rod, an overturning locking ejector rod and a second compression spring, wherein the solar battery is embedded in the middle of the top end of the main cover plate, the solar battery is electrically connected with the power plug, the power connector is arranged in a machine body accommodating groove and is electrically connected with a simulation machine body, the movable connecting rod is fixedly connected with the right end of the main cover plate, the bottom end of the movable connector is fixedly connected with the right side of the top end of the simulation machine body, the movable inner rod is movably fastened with the inside of the movable connector, the front end and the rear end of the movable inner rod all penetrate through the movable connector, the main cover plate, The front side and the rear side in the movable connecting rod are respectively provided with a linkage plate, one end of the turning clamping rod is buckled with the movable inner rod, the other end of the turning clamping rod is fixedly connected with one end of the linkage plate, the left side and the right side of the other end of the linkage plate are respectively and fixedly connected with a turning locking ejector rod, the reverse end of the turning locking ejector rod connected with the linkage plate is movably buckled with the main cover plate and the movable connecting rod through a second compression spring, the left side and the right side of the connecting end of the linkage plate and the turning locking ejector rod are fixedly connected with butt-joint rods, the butt-joint rods are positioned at the sides of the turning locking ejector rods which are deviated to the center of the linkage plate, the bottom ends of the telescopic rods are fixedly connected with the top end of the machine body assembling plate, the top ends of the telescopic rods are fixedly connected with a lifting linkage plate, the upper side of the lifting linkage plate is provided with butt-joint holes in a penetrating manner from front to back, the middle part of the connecting end of the linkage plate and the turning clamping rod is fixedly connected with one end of an unlocking pressing rod, and the other end of the unlocking pressing rod penetrates through the main cover plate, the unlocking mechanism is characterized in that a locking pin groove is embedded in the left end of the unlocking press rod, one end of the locking pin rod is connected with the unlocking press rod, the other end of the locking pin rod is fixedly connected with the right end of the unlocking pull rod, the limiting rod is fixedly connected with the left end of the unlocking pull rod, the left end of the unlocking pull rod is fastened with the main cover plate through a first compression spring, and the same-direction end of the unlocking pull rod and the unlocking press rod also penetrates through the main cover plate.

Further, the linkage plate is equipped with 2, butt joint pole, upset locking ejector pin correspond the linkage plate and all are equipped with 4, the telescopic link corresponds the butt joint pole and is equipped with 4.

Furthermore, when the linkage plate is assembled on the rear side of the main cover plate, the butt joint hole is positioned right in front of the butt joint rod, when the linkage plate is assembled on the front side of the main cover plate, the butt joint hole is positioned right behind the butt joint rod, and the diameter of the butt joint hole is larger than that of the butt joint rod.

Further, the locking pin shank diameter is smaller than the locking pin slot diameter.

Furthermore, elevating gear includes roof pressure board, unblock link plate, unblock slide, promotion and connects pole, third compression spring, locking cardboard, promotion connects pole bottom and simulation organism fixed connection, the roof pressure board is inlayed and is located in the organism assembly panel, roof pressure board top is through unblock link plate and unblock slide bottom fixed connection, the unblock slide is located organism assembly panel top, the roof pressure board connects pole one end laminating with the promotion, the promotion connects pole and roof pressure board laminating to serve the upside and inlays the lock cardboard through third compression spring.

Furthermore, the locking clamping plate is a right-angled triangular plate, and the inclined surface of the locking clamping plate is assembled towards the bottom of the end of the jacking plate, which is attached to the lifting connecting rod.

(III) advantageous effects

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

1) in order to solve the problems that when the prior art is used, the equipment is often required to be carried and used for carrying out data acquisition simulation of some equipment and sites used on site, and when the equipment is carried and used, when the solar battery is used in an open place or needs to continue a journey, the display screen of the device can not be seen clearly due to the irradiation of sunlight, and the shielding object is often needed to be temporarily found to shield the sunlight, which is inconvenient, the equipment can be opened by lifting and can be opened by overturning through the protective top cover which can conveniently switch the opening mode, when the equipment is used in an open place with the influence of sunlight or the equipment needs to be used by a solar battery for a long time, the mode of uncapping can be lifted optionally, carries out sheltering from of sunshine when making the top cap of equipment can carry out solar energy continuation of the journey, avoids the unclear condition of display screen, the use of the equipment of being convenient for.

2) For solving prior art and using, for the convenience of carrying and the protection of equipment, equipment can assemble inside the box, it is relatively poor to cause equipment heat dissipation when using, easily because overheated phenomenon such as lead to the card to die, cause the inconvenience of use, through the inside elevating gear that is equipped with of the protection box at equipment, make the simulation organism of equipment when needs use, the accessible is carried and is drawn and rise, make the organism rise to the protection box top and use, increase organism heat dissipation space, the better overheated phenomenon that leads to because of the box space is little of preventing, and the accessible is pressed and is fallen and accomodate when accomodating, convenient to use.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic structural diagram of a BIM-based building engineering data acquisition simulation device according to the present invention;

FIG. 2 is a schematic diagram of a front cross-sectional structure of the acquisition simulation apparatus of the present invention;

FIG. 3 is an enlarged view of A in FIG. 2 according to the present invention;

FIG. 4 is a schematic cross-sectional view of a top view of the protective top cap of the present invention;

FIG. 5 is an enlarged view of B in FIG. 4 according to the present invention;

FIG. 6 is an enlarged view of C in FIG. 4 according to the present invention;

in the figure: the device comprises a handle-1, a lock catch-2, a collection simulation device-3, a battery bottom cover-a, a storage battery-b, a simulation machine body-c, a protection box body-d, an external interface groove-e, a lifting device-f, a protection top cover-g, a display screen-h, a machine body accommodating groove-i, a machine body assembly plate-j, a power connector-g 1, a power plug-g 2, a main cover plate-g 3, a movable connecting rod-g 4, a solar battery-g 5, a movable connector-g 6, a linkage plate-g 7, a limiting rod-g 8, a first compression spring-g 9, an unlocking pull rod-g 10, a locking pin rod-g 11, a locking pin groove-g 12, an unlocking press rod-g 13, an expansion rod-g 14, a butt joint hole-g 15, a lifting linkage plate-g 16, a simulation machine body-c, a protection box body-d, an external interface groove-e, a lifting device-f, a lifting device-g, a protection top cover-g 4, a movable connector-g 4, a movable connection rod-g 4, a locking pin-g-24, a locking pin, a locking device, a, The device comprises an abutting rod-g 17, a movable inner rod-g 18, a turnover clamping rod-g 19, a turnover locking ejector rod-g 20, a second compression spring-g 21, a top pressure plate-f 1, an unlocking connecting plate-f 2, an unlocking sliding plate-f 3, a lifting connecting rod-f 4, a third compression spring-f 5 and a locking clamping plate-f 6.

Detailed Description

Referring to fig. 1 to 6, the present invention provides a building engineering data acquisition simulation apparatus based on BIM: the device comprises a handle 1, a lock catch 2 and an acquisition simulation device 3, wherein the handle 1 is locked and connected to the lower side of the left end of the acquisition simulation device 3, and the lock catch 2 is fixedly connected to the left end of the acquisition simulation device 3;

the acquisition simulation equipment 3 comprises a battery bottom cover a, a storage battery b, a simulation machine body c, a protective box body d, an external interface groove e, a lifting device f, a protective top cover g, a display screen h, a machine body accommodating groove i and a machine body assembling plate j, wherein the storage battery b is embedded at the bottom end of the protective box body d, the battery bottom cover a is locked at the bottom end of the protective box body d, the machine body accommodating groove i is arranged at the top end of the protective box body d, the lifting device f is fixedly connected with the top end of the protective box body d, the lifting device f is arranged in the machine body accommodating groove i, the machine body assembling plate j is movably buckled with the lifting device f, the machine body assembling plate j is arranged in the machine body accommodating groove i, the simulation machine body c is fixedly connected at the top end of the machine body assembling plate j, the external groove e is embedded at the left side of the top end of the simulation machine body c, and the display screen interface h is movably buckled at the top end of the simulation machine body c, the protective top cover g is buckled with the top end of the protective box body d;

the protective top cover g comprises a power connector g1, a power plug g2, a main cover plate g3, a movable connecting rod g4, a solar battery g4, a movable connector g4, a linkage plate g4, a limiting rod g4, a first compression spring g4, an unlocking pull rod g4, a locking pin groove g4, an unlocking pressing rod g4, a telescopic rod g4, a butt joint hole g4, a lifting linkage plate g4, a butt joint rod g4, a movable inner rod g4, a turnover clamping rod g4, a turnover locking ejector rod g4 and a second compression spring g4, the solar battery g4 is embedded in the middle of the top end of the main cover plate g4, the solar battery g4 is electrically connected with the power plug g4, the power connector g4 is arranged in a machine body accommodating groove, the power connector g4 is electrically connected with a simulation machine body c, the movable connector g4 is fixedly connected with the right end of the main cover plate g4, the movable connector is fixedly connected with the right end of the movable connector 4, and the movable connector 4 is fixedly connected with the inner rod 4, the front end and the rear end of the movable inner rod g18 penetrate through a movable joint g6, linkage plates g7 are arranged on the front side and the rear side of the inner part of the main cover plate g3 and the movable connecting rod g4, one end of the turnover clamping rod g19 is fastened with the movable inner rod g18, the other end of the turnover clamping rod g19 is fixedly connected with one end of the linkage plate g7, the left side and the right side of the other end of the linkage plate g7 are fixedly connected with turnover locking ejector rods g20, the reverse end of the turnover locking ejector rod g20 connected with the linkage plate g7 is movably fastened with the main cover plate g3 and the movable connecting rod g4 through a second compression spring g21 respectively, the linkage plate g7 is fixedly connected with butt-joint rods g17 on the left side and the right side of the connecting end of the turnover locking ejector rod g20, the butt-joint g17 is positioned on the side of the turnover locking ejector rod g20 deviated to the center of the linkage plate g7, the bottom end of the telescopic rod g14 is fixedly connected with the top end of a machine body assembly plate j, and the top end of the telescopic rod g14 is fixedly connected with a lifting linkage plate g16, the upper side of the lifting linkage plate g16 is provided with a butt joint hole g15 through penetrating from front to back, the middle of the connecting end of the linkage plate g7 and a turnover clamping rod g19 is fixedly connected with one end of an unlocking pressing rod g13, the other end of the unlocking pressing rod g13 penetrates through a main cover plate g3, the left end of the unlocking pressing rod g13 is inlaid with a locking pin groove g12, one end of a locking pin rod g11 is connected with the unlocking pressing rod g13, the other end of the locking pin rod g11 is fixedly connected with the right end of the unlocking pulling rod g10, a limiting rod g8 is fixedly connected with the left end of the unlocking pulling rod g10, the left end of the unlocking pulling rod g10 is buckled with the main cover plate g3 through a first compression spring g9, and the same direction end of the unlocking pulling rod g10 and an unlocking pressing rod g13 also penetrates through the main cover plate g 3.

Wherein, linkage board g7 is equipped with 2, butt joint pole g17, upset locking ejector pin g20 all are equipped with 4 corresponding linkage board g7, telescopic link g14 corresponds butt joint pole g17 and is equipped with 4.

When the linkage plate g7 is assembled on the rear side of the main cover plate g3, the docking hole g15 is positioned right in front of the docking rod g17, when the linkage plate g7 is assembled on the front side of the main cover plate g3, the docking hole g15 is positioned right behind the docking rod g17, and the diameter of the docking hole g15 is larger than that of the docking rod g 17.

Wherein the locking pin lever g11 has a smaller diameter than the locking pin slot g 12.

The lifting device f comprises a top pressure plate f1, an unlocking connecting plate f2, an unlocking sliding plate f3, a lifting connecting rod f4, a third compression spring f5 and a locking clamping plate f6, the bottom end of the lifting connecting rod f4 is fixedly connected with a simulation machine body c, the top pressure plate f1 is embedded in a machine body assembly plate j, the top end of the top pressure plate f1 is fixedly connected with the bottom end of the unlocking sliding plate f3 through an unlocking connecting plate f2, the unlocking sliding plate f3 is located at the top end of the machine body assembly plate j, the top pressure plate f1 is attached to one end of the lifting connecting rod f4, and the upper side of the attachment end of the lifting connecting rod f4 and the top pressure plate f1 is embedded and buckled with the locking clamping plate f6 through the third compression spring f 5.

The locking clamp plate f6 is a right-angled triangular plate, and the inclined surface of the locking clamp plate f6 faces the top pressure plate f1 and is attached to the bottom of the end of the lifting connecting rod f4 for assembly.

The working principle is as follows: when the device is used, the storage battery can be charged, carried and used, then the flip cover of the protective top cover can be opened through the unlocking lock catch, then the machine body assembly plate of the device can be lifted upwards, the machine body assembly plate can simulate the machine body to rise, after the machine body assembly plate rises to a certain degree, the locking clamp plate can be firstly jacked and contracted and then jacked and popped out by the force of the third compression spring, the jacking plate can be pushed to perform descending locking on the machine body assembly plate, the simulation machine body can rise to the outside of the protective box body for use, the machine body can rise to the top end of the protective box body for use, the heat dissipation space of the machine body is increased, the overheating phenomenon caused by small space of the box body can be better prevented, when the device is stored, the unlocking slide plate can be pushed, the unlocking slide plate drives the jacking plate to jack and press the locking clamp plate to retract through the unlocking connecting plate to perform unlocking and descending storage, the device is convenient to use, and if the device is used in an open place or needs a solar battery to continue a voyage, the unlocking connecting rod can be pressed to press the linkage plate to retract inwards, so that a turnover clamping rod arranged on the linkage plate can be separated from the movable inner rod, meanwhile, the butt-joint rod can enter the butt-joint hole, the equipment protective top cover is separated from the turnover opening and is changed into an up-down lifting opening mode, the unlocking connecting rod can be locked by a locking pin rod ejected by a first compression spring force after being pressed, when the equipment needs to be released from the lifting opening mode, the unlocking pull rod can be pulled to drive the locking pin rod to separate from the locking of the unlocking pressing rod, the linkage plate can be pressed to return by the force of a second compression spring, the turnover clamping rod is restored to be fastened with the movable inner rod, the turnover uncovering mode of the equipment is restored, the equipment can be opened in a lifting mode or a turnover uncovering mode, and when the equipment is used in an open place with sunlight influence or when the equipment needs to be continuously used through a solar cell, the mode of uncapping can be lifted optionally, carries out sheltering from of sunshine when making the top cap of equipment can carry out solar energy continuation of the journey, avoids the unclear condition of display screen, the use of the equipment of being convenient for.

The control mode of the invention is controlled by manually starting and closing the switch, the wiring diagram of the power element and the supply of the power source belong to the common knowledge in the field, and the invention is mainly used for protecting mechanical devices, so the control mode and the wiring arrangement are not explained in detail in the invention.

The control mode of the invention is automatically controlled by the controller, the control circuit of the controller can be realized by simple programming of a person skilled in the art, the supply of the power supply also belongs to the common knowledge in the field, and the invention is mainly used for protecting mechanical devices, so the control mode and the circuit connection are not explained in detail in the invention.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. The utility model provides a building engineering data acquisition analog device based on BIM, its structure includes handle (1), hasp (2), collection analog device (3) left end downside halving has handle (1), collection analog device (3) left end fixedly connected with hasp (2), its characterized in that:

the acquisition simulation equipment (3) comprises a battery bottom cover (a), a storage battery (b), a simulation machine body (c), a protective box body (d), an external interface groove (e), a lifting device (f), a protective top cover (g), a display screen (h), a machine body accommodating groove (i) and a machine body assembling plate (j), wherein the storage battery (b) is embedded at the bottom end of the protective box body (d), the battery bottom cover (a) is locked and received at the bottom end of the protective box body (d), the machine body accommodating groove (i) is formed in the top end of the protective box body (d), the lifting device (f) is fixedly connected with the top end of the protective box body (d), the lifting device (f) is arranged in the machine body accommodating groove (i), the machine body assembling plate (j) is movably fastened with the lifting device (f), the machine body assembling plate (j) is arranged in the machine body accommodating groove (i), the top end of the machine body assembling plate (j) is fixedly connected with the simulation machine body (c), an outer interface groove (e) is embedded in the left side of the top end of the simulation machine body (c), a display screen (h) is movably buckled at the top end of the simulation machine body (c), and the protective top cover (g) is buckled with the top end of the protective box body (d);

the protective top cover (g) comprises a power connector (g 1), a power plug (g 2), a main cover plate (g 3), a movable connecting rod (g 4), a solar cell (g 5), a movable connector (g 6), a linkage plate (g 7), a limiting rod (g 8), a first compression spring (g 9), an unlocking pull rod (g 10), a locking pin rod (g 11), a locking pin groove (g 12), an unlocking pressing rod (g 13), a telescopic rod (g 14), a butt joint hole (g 15), a lifting linkage plate (g 16), a butt joint rod (g 17), a movable inner rod (g 18), a turnover clamping rod (g 19), a turnover locking push rod (g 20) and a second compression spring (g 21), the solar cell (g 5) is inlaid in the middle of the top end of the main cover plate (g 3), the solar cell (g 5) is electrically connected with the power plug (g 2), the power connector (g 1) is arranged in a machine body receiving groove (i), and the power connector (1) is electrically connected with a simulation connector (46c), the right end of the main cover plate (g 3) is fixedly connected with a movable connecting rod (g 4), the bottom end of the movable joint (g 6) is fixedly connected with the right side of the top end of a simulation machine body (c), the movable inner rod (g 18) is movably buckled with the inside of the movable joint (g 6), the front end and the rear end of the movable inner rod (g 18) penetrate through the movable joint (g 6), linkage plates (g 7) are arranged on the front side and the rear side of the inside of the main cover plate (g 3) and the movable connecting rod (g 4), one end of the turnover clamping rod (g 19) is buckled with the movable inner rod (g 18), the other end of the turnover clamping rod (g 19) is fixedly connected with one end of the linkage plate (g 7), turnover locking ejector rods (g 20) are fixedly connected with the left side and the right side of the other end of the linkage plate (g 7), and the reverse ends of the turnover locking ejector rods (g 20) connected with the linkage plate (g 7) are movably buckled with the main cover plate (g 3) and the movable connecting rod (g 67 4) respectively through second compression springs (g 21), the left side and the right side of the connecting end of the linkage plate (g 7) and the turning locking ejector rod (g 20) are fixedly connected with butt joint rods (g 17), the butt joint rods (g 17) are located on the side of the turning locking ejector rod (g 20) deviated to the center of the linkage plate (g 7), the bottom end of the telescopic rod (g 14) is fixedly connected with the top end of the machine body assembly plate (j), the top end of the telescopic rod (g 14) is fixedly connected with a lifting linkage plate (g 16), the upper side of the lifting linkage plate (g 16) is provided with butt joint holes (g 15) through from front to back, the middle of the connecting end of the linkage plate (g 7) and the turning clamping rod (g 19) is fixedly connected with one end of an unlocking pressing rod (g 13), the other end of the unlocking pressing rod (g 13) penetrates through a main cover plate (g 3), the left end of the unlocking pressing rod (g 13) is provided with a locking pin groove (g 12), one end of the locking pin rod (g 11) is connected with an unlocking pressing rod (g 5), and the other end of the pulling rod (11) is fixedly connected with the right end of the unlocking pin 573, gag lever post (g 8) and unblock pull rod (g 10) left end fixed connection, unblock pull rod (g 10) left end is through first compression spring (g 9) and main apron (g 3) lock joint, unblock pull rod (g 10) and unblock press pole (g 13) syntropy end also to run through main apron (g 3).

2. The BIM-based construction engineering data acquisition simulation equipment according to claim 1, wherein: linkage board (g 7) is equipped with 2, butt joint pole (g 17), upset locking ejector pin (g 20) correspond linkage board (g 7) and all are equipped with 4, telescopic link (g 14) correspond butt joint pole (g 17) and are equipped with 4.

3. The BIM-based construction engineering data acquisition simulation equipment according to claim 1, wherein: linkage board (g 7) assemble when main apron (g 3) rear side, butt joint hole (g 15) is located butt joint pole (g 17) dead ahead, linkage board (g 7) assemble when main apron (g 3) front side, butt joint hole (g 15) is located butt joint pole (g 17) dead ahead, butt joint hole (g 15) diameter ratio is big butt joint pole (g 17) diameter.

4. The BIM-based construction engineering data acquisition simulation equipment according to claim 1, wherein: the locking pin lever (g 11) has a diameter smaller than the locking pin slot (g 12).

5. The BIM-based construction engineering data acquisition simulation equipment according to claim 1, wherein: the lifting device (f) comprises a top pressure plate (f 1), an unlocking connecting plate (f 2), an unlocking sliding plate (f 3), a lifting connecting rod (f 4), a third compression spring (f 5) and a locking clamping plate (f 6), the bottom end of the lifting connecting rod (f 4) is fixedly connected with the simulation machine body (c), the top pressure plate (f 1) is embedded in a machine body assembling plate (j), the top end of the top pressure plate (f 1) is fixedly connected with the bottom end of the unlocking sliding plate (f 3) through the unlocking connecting plate (f 2), the unlocking sliding plate (f 3) is located at the top end of the machine body assembling plate (j), the top pressure plate (f 1) is attached to one end of the lifting connecting rod (f 4), and the upper side of the attaching end of the lifting connecting rod (f 4) and the top pressure plate (f 1) is embedded and buckled with the locking clamping plate (f 6) through the third compression spring (f 5.

6. The BIM-based construction engineering data acquisition simulation equipment according to claim 5, wherein: the locking clamping plate (f 6) is a right-angle triangular plate, and the inclined surface of the locking clamping plate (f 6) is assembled towards the bottom of the end, attached to the jacking plate (f 1), of the lifting connecting rod (f 4).