CN214251571U - Remote monitoring's multi-use architecture experiment platform - Google Patents

Abstract

The utility model discloses a remote monitoring's multi-functional building experiment platform, including steel structure support, first steel structure platform and second steel structure platform have been bolted down respectively from last in the left side of steel structure support inner chamber, the top bolt on steel structure support inner chamber right side has been connected the test box, the left side bolt of test box inner chamber has the partition wall, the inner chamber of test box is provided with attached buffering space and main experimental space from a left side to the right side respectively. The utility model discloses a backup pad, first motor, first gear, first rack board, the cooperation of fly leaf and connecting rod, convenient to use person carries out angle modulation to the movable support, makes things convenient for sunshine to shine on photovoltaic power generation board, promotes the efficiency of photovoltaic power generation board electricity generation, adopts electric wire netting power supply and solar energy power generation to merge storage battery mixed mode, avoids because the electric wire netting has a power failure in a short time and leads to the interruption of air conditioner electrical apparatus operation and experiment monitoring facilities work, solves the problem of traditional building experiment platform function singleness.

Description

Remote monitoring's multi-use architecture experiment platform

Technical Field

The utility model relates to a building technical field specifically is a remote monitoring's multi-use architecture experiment platform.

Background

The building is an engineering building for people to live, work, study, production, management, entertainment, storage and other social activities, and is different from the building in that the building refers to engineering buildings except the building, such as an enclosure wall, a road, a dam, a water well, a tunnel, a water tower, a bridge, a chimney and the like.

Building science experiment is because comprehensive factors influence such as environment, material structure, equipment system and personnel use, it is generally difficult to obtain true reliable experimental result through the ideal experimental conditions in laboratory, therefore the experimental test under the true environment is the research means that building science often adopted, full-scale building subject experiment under the true environment has the experiment cost height, single experimental period is long, the experimentation needs to utilize air conditioning system to control the indoor environment according to the experiment requirement, the experimentation is irreversible, need the characteristics of someone on duty control, traditional building science experiment platform design purpose is single, the platform can only carry out a kind of experiment, it uses to be difficult to serve other experiments, this leads to the experiment platform input cost height, experiment output efficiency is low.

Therefore, it is highly desirable to design a remote monitoring multifunctional building experiment platform to solve the above problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a remote monitoring's multi-use architecture experiment platform to solve the problem of the traditional building experiment platform function singleness that provides in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a remotely monitored multifunctional building experiment platform comprises a steel structure support, a first steel structure platform and a second steel structure platform are respectively bolted on the left side of an inner cavity of the steel structure support from top to bottom, a test box body is bolted on the top of the right side of the inner cavity of the steel structure support, a partition wall is bolted on the left side of the inner cavity of the test box body, an auxiliary buffer space and a main test space are respectively arranged in the inner cavity of the test box body from left to right, airtight doors are respectively embedded on the left side of the test box body and the left side of the partition wall, an adjusting mechanism is arranged on the top of the first steel structure platform, a movable support is movably connected on the top of the adjusting mechanism, a photovoltaic power generation plate is bolted on the top of the movable support, a fixed box is bolted on the back of the right side of the partition wall, the top of the fixed box is rotatably connected with a first rotating shaft through a first bearing, a camera is bolted on the top of the first rotating shaft, the inner cavity of the fixed box is provided with a swing mechanism, the right side of the test box body is bolted with a test piece frame, the right side of the test piece frame is bolted with a test enclosure component, and the left side of the test box body is bolted with a controller.

Preferably, the adjusting mechanism comprises a supporting plate, a first motor, a first gear, a first rack plate, a movable plate and a connecting rod, the front and the back of the left side of the top of the first steel structure platform are bolted with supporting plates, the top of the supporting plates is movably connected with the right side of the bottom of the movable bracket through a movable shaft, a first motor is bolted at the center of the right side of the top of the first steel structure platform, an output shaft of the first motor is bolted with a first gear, the bottom of the first gear is engaged with a first rack plate, the bottom of the first rack plate is connected with the top of the first steel structure platform in a sliding way, a movable plate is bolted on the left side of the first rack plate, the front and the back of the top of the movable plate are both movably connected with a connecting rod through a movable seat, one side of the connecting rod, which is far away from the movable plate, is movably connected with the front and the back of the left side of the bottom of the movable support through the movable seat.

Preferably, the swing mechanism comprises a second motor, a second gear, a movable frame, teeth, a second rack plate, a sector gear, a second rotating shaft, a movable rod and a slide rod, the second motor is bolted to the bottom of the inner cavity of the fixed box, the second gear is bolted to an output shaft of the second motor, the movable frame is slidably connected to the bottom of the inner cavity of the fixed box, the teeth are bolted to the top and the bottom of the inner cavity of the movable frame, one opposite side of the teeth is meshed with the surface of the second gear, the second rack plate is bolted to the top of the movable frame, the sector gear is meshed to the top of the second rack plate, the second rotating shaft is bolted to the center of the sector gear, the front and the back of the second rotating shaft are rotationally connected with the inner cavity of the fixed box through a second bearing, a first through groove is formed in the top of the fixed box, the movable rod is bolted to the surface of the second rotating shaft, the front of movable rod has seted up the second and has led to the groove, and the inner chamber sliding connection that leads to the groove of second has the slide bar, the back of slide bar and the front bolt of first rotation axis are connected.

Preferably, the back of the test box body is bolted with a fixed plate, the top of the fixed plate is bolted with an air conditioner, an air supply outlet of the air conditioner is communicated with an air supply pipe, one end of the air supply pipe, far away from the air conditioner, is communicated with the back of the main test space, an air return inlet of the air conditioner is communicated with an air return pipe, one end of the air return pipe, far away from the air conditioner, is communicated with the back of the auxiliary buffer space, and the tops of two sides of the partition wall are sequentially provided with vent holes from front to back.

Preferably, fixed columns are bolted to two sides of the inner cavity of the fixed box, and the front sides of the fixed columns are in sliding connection with the back side of the movable frame.

Preferably, the sliding sleeves are embedded in the front and the back of the two sides of the movable plate, the sliding sleeves are connected with the inner cavities of the sliding sleeves in a sliding mode, the left sides of the sliding sleeves are bolted with limiting plates, the bottoms of the limiting plates are bolted with the tops of the first steel structure platforms, and the right sides of the sliding sleeves are bolted with the left sides of the supporting plates.

Preferably, the supporting blocks are bolted to the periphery of the top of the steel structure support, the heights of the second steel structure platform and the test box body are both 1.5m, and the periphery of the top of the test box body is bolted with the reverse side.

Preferably, reserved installation channel steel is bolted to the top and the bottom of the surface of the test box body, and installation buckles are sequentially bolted to the front and the back of the reserved installation channel steel from left to right.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the multifunctional building experiment platform for remote monitoring is convenient for a user to adjust the angle of the movable support through the matching of the supporting plate, the first motor, the first gear, the first rack plate, the movable plate and the connecting rod, is convenient for the sunlight to irradiate on the photovoltaic power generation plate, improves the power generation efficiency of the photovoltaic power generation plate, adopts a mixed mode of combining power supply of a power grid and solar power generation and storing batteries, avoids the interruption of the operation of air conditioning appliances and the work of experiment monitoring equipment caused by the short-term power failure of the power grid, through the cooperation of second motor, second gear, adjustable frame, tooth, second rack board, sector gear, second rotation axis, movable rod and slide bar, the person of being convenient for carries out angle modulation to the camera, conveniently monitors the test box body through the internet is long-range, has avoided personnel on duty, increases the cost of labor, solves the problem of traditional building experiment platform function singleness.

2. This remote monitoring's multi-purpose building experiment platform passes through the fixed plate, the cooperation of air conditioner and ventilation hole, convenient to use person carries out the buffer adjustment to affiliated buffer space and main test space, the atmospheric pressure and the temperature humidity control of avoiding affiliated buffer space are to main test space production influence, make things convenient for affiliated buffer space and main test space to get into main test space after the steady, cooperation through the fixed column, convenient to use person carries on spacingly to the movable frame, prevent that the movable frame from taking place the back-and-forth movement, cause second gear and tooth slippage and second rack plate and sector gear slippage.

3. This remote monitoring's multi-purpose building experiment platform passes through the cooperation of traveller, convenient to use person carries out spacing fixed to the fly leaf, prevent that the fly leaf from rocking, cause first gear and first rack board slippage, make the connecting rod rupture, the supplementary fly leaf removes about simultaneously, highly being 1.5m through second steel construction platform and test box, be convenient for reserve the required space of normal water treatment facilities, cooperation through turning up, in order to satisfy building roofing technique, if afforest the roofing, sunshade ventilation roofing technical experiment needs, through the cooperation of reserving installation channel-section steel and installation knot, an experiment installation needs for the building epidermis influences test space.

Drawings

Fig. 1 is a front view of a structure of a remote monitoring multifunctional building experiment platform of the present invention;

FIG. 2 is a right side top sectional view of the testing box of the present invention;

FIG. 3 is a cross-sectional view of the testing box of the present invention;

FIG. 4 is a sectional view of the fixing box of the present invention;

fig. 5 is an enlarged view of the structure at a point a of the present invention.

In the figure: 1. a steel structure bracket; 2. a first steel structure platform; 3. a second steel structure platform; 4. testing the box body; 5. a partition wall; 6. an auxiliary buffer space; 7. a main test space; 8. an adjustment mechanism; 81. a support plate; 82. a first motor; 83. a first gear; 84. a first rack plate; 85. a movable plate; 86. a connecting rod; 9. a swing mechanism; 91. a second motor; 92. a second gear; 93. a movable frame; 94. teeth; 95. a second rack plate; 96. a sector gear; 97. a second rotation shaft; 98. a movable rod; 99. a slide bar; 10. a movable support; 11. a photovoltaic power generation panel; 12. a fixing box; 13. a first rotating shaft; 14. a camera; 15. a test piece frame; 16. testing the enclosure member; 17. an air conditioner; 18. fixing a column; 19. a traveler; 20. reversely starting; 21. and reserving installation channel steel.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides an embodiment:

a remote monitoring multifunctional building experiment platform comprises a steel structure support 1, a first steel structure platform 2 and a second steel structure platform 3 are respectively bolted on the left side of an inner cavity of the steel structure support 1 from top to bottom, a test box body 4 is bolted on the top of the right side of the inner cavity of the steel structure support 1, a partition wall 5 is bolted on the left side of the inner cavity of the test box body 4, an auxiliary buffer space 6 and a main test space 7 are respectively arranged in the inner cavity of the test box body 4 from left to right, airtight doors are respectively embedded on the left side of the test box body 4 and the left side of the partition wall 5, an adjusting mechanism 8 is arranged on the top of the first steel structure platform 2, a movable support 10 is movably connected on the top of the adjusting mechanism 8, a photovoltaic panel 11 is bolted on the top of the movable support 10, a fixed box 12 is bolted on the back of the right side of the partition wall 5, a first rotating shaft 13 is rotatably connected on the top of the fixed box 12 through a first bearing, and a camera 14 is bolted on the top of the first rotating shaft 13, the inner cavity of the fixed box 12 is provided with a swing mechanism 9, the right side of the test box body 4 is bolted with a test piece frame 15, the right side of the test piece frame 15 is bolted with a test enclosure member 16, the left side of the test box body 4 is bolted with a controller, a user can conveniently adjust the angle of the movable support 10 through the matching of the support plate 81, the first motor 82, the first gear 83, the first rack plate 84, the movable plate 85 and the connecting rod 86, the sunlight can conveniently irradiate on the photovoltaic power generation plate 11, the power generation efficiency of the photovoltaic power generation plate 11 is improved, the interruption of the operation of air conditioning electrical appliances and the work of experimental monitoring equipment caused by the short-term power failure of a power grid is avoided by adopting a power grid power supply and solar power generation combined storage battery mixed mode, the interruption of the operation of the air conditioning electrical appliances and the work of the experimental monitoring equipment is avoided through the matching of the second motor 91, the second gear 92, the movable frame 93, the teeth 94, the second rack plate 95, the sector gear 96, the second rotating shaft 97, the movable rod 98 and the sliding rod 99, the person of being convenient for carries out angle modulation to camera 14, conveniently monitors test box 4 through the internet is long-range, has avoided personnel on duty, increases the cost of labor, solves the problem of traditional building experiment platform function singleness.

The adjusting mechanism 8 comprises a supporting plate 81, a first motor 82, a first gear 83, a first rack plate 84, a movable plate 85 and a connecting rod 86, the supporting plate 81 is bolted on the front surface and the back surface of the left side of the top of the first steel structure platform 2, the top of the supporting plate 81 is movably connected with the right side of the bottom of the movable support 10 through a movable shaft, the first motor 82 is bolted on the center of the right side of the top of the first steel structure platform 2, the first gear 83 is bolted on an output shaft of the first motor 82, the first rack plate 84 is meshed at the bottom of the first gear 83, the bottom of the first rack plate 84 is slidably connected with the top of the first steel structure platform 2, the movable plate 85 is bolted on the left side of the first rack plate 84, the connecting rod 86 is movably connected with the front surface and the back surface of the top of the movable plate 85 through a movable seat, one side of the connecting rod 86 far away from the movable plate 85 is movably connected with the front surface and the back surface of the left side of the bottom of the movable support 10 through a movable seat, through the cooperation of backup pad 81, first motor 82, first gear 83, first rack plate 84, fly leaf 85 and connecting rod 86, the person of facilitating the use carries out angle modulation to movable support 10, makes things convenient for sunshine to shine on photovoltaic power generation board 11, promotes the efficiency of photovoltaic power generation board 11 electricity generation, adopts electric wire netting power supply and solar energy power generation to merge storage battery mixed mode, avoids because the electric wire netting has a power failure for a short time and leads to the interruption of air conditioner electrical apparatus operation and experiment monitoring facilities work.

The swing mechanism 9 comprises a second motor 91, a second gear 92, a movable frame 93, teeth 94, a second rack plate 95, a sector gear 96, a second rotating shaft 97, a movable rod 98 and a sliding rod 99, the bottom of the inner cavity of the fixed box 12 is bolted with the second motor 91, the output shaft of the second motor 91 is bolted with the second gear 92, the bottom of the inner cavity of the fixed box 12 is slidably connected with the movable frame 93, the top and the bottom of the inner cavity of the movable frame 93 are both bolted with the teeth 94, the opposite side of the teeth 94 is meshed with the surface of the second gear 92, the top of the movable frame 93 is bolted with the second rack plate 95, the top of the second rack plate 95 is meshed with the sector gear 96, the center of the sector gear 96 is bolted with the second rotating shaft 97, the front and the back of the second rotating shaft 97 are both rotatably connected with the inner cavity of the fixed box 12 through a second bearing, the top of the fixed box 12 is provided with a first through groove, the surface of the second rotating shaft 97 is bolted with the movable rod 98, the second groove that leads to has been seted up in the front of movable rod 98, and the inner chamber sliding connection that the second led to the groove has slide bar 99, slide bar 99's the back and the front bolt of first rotation axis 13, through second motor 91, second gear 92, movable frame 93, tooth 94, second rack plate 95, sector gear 96, second rotation axis 97, the cooperation of movable rod 98 and slide bar 99, convenient to use person carries out angle modulation to camera 14, conveniently monitor test box 4 through the internet is long-range, personnel's watch on has been avoided, increase the cost of labor.

The fixed plate is bolted to the back of the test box body 4, the air conditioner 17 is bolted to the top of the fixed plate, an air supply outlet of the air conditioner 17 is communicated with an air supply pipe, one end, far away from the air conditioner 17, of the air supply pipe is communicated with the back of the main test space 7, an air return port of the air conditioner 17 is communicated with an air return pipe, one end, far away from the air conditioner 17, of the air return pipe is communicated with the back of the auxiliary buffer space 6, ventilation holes are sequentially formed in the tops of the two sides of the partition wall 5 from front to back, through the fixed plate and the cooperation of the air conditioner 17 and the ventilation holes, a user can conveniently buffer and adjust the auxiliary buffer space 6 and the main test space 7, the air pressure and the temperature and humidity of the auxiliary buffer space 6 are prevented from affecting the main test space 7, and the auxiliary buffer space 6 and the main test space 7 are convenient to keep stable and then enter the main test space 7.

Fixed column 18 is all bolted on the both sides of fixed box 12 inner chamber, and the front of fixed column 18 and the back sliding connection of movable frame 93, through fixed column 18's cooperation, convenient to use person carries on spacingly to movable frame 93, prevents that movable frame 93 from taking place the back-and-forth movement, causes second gear 92 and tooth 94 slippage and second rack plate 95 and sector gear 96 slippage.

The sliding sleeves are embedded in the front and the back of the two sides of the movable plate 85, the sliding column 19 is connected to the inner cavity of the sliding sleeve in a sliding mode, the limiting plate is bolted to the left side of the sliding column 19, the bottom of the limiting plate is bolted to the top of the first steel structure platform 2, the right side of the sliding column 19 is bolted to the left side of the supporting plate 81, the sliding column 19 is matched, a user can conveniently limit and fix the movable plate 85, the movable plate 85 is prevented from shaking, the first gear 83 and the first rack plate 84 are caused to slip, the connecting rod 86 is broken, and meanwhile the movable plate 85 is assisted to move left and right.

All bolted connections all around at steel structure support 1 top have the supporting shoe, and second steel structure platform 3 and test box 4 highly are 1.5m, and all bolted connections all around at test box 4 top are anti-20, and the height through second steel structure platform 3 and test box 4 is 1.5m, is convenient for reserve the required space of normal water treatment equipment, through the cooperation of anti-20 to satisfy building roofing technique, if afforestation roofing, sunshade ventilation roofing technical experiment needs.

The top and the bottom on test box 4 surface all are bolted and reserved installation channel-section steel 21, and the front and the back of reserving installation channel-section steel 21 all are bolted in proper order from a left side to the right side and are buckled the installation, detain the cooperation through reserving installation channel-section steel 21 and installation for the experiment installation needs of building epidermis to test the space influence.

The working principle is as follows: when the device is used, a user opens the first motor 82 through the internet remote control controller, then an output shaft of the first motor 82 drives the first gear 83 to rotate, meanwhile, the first gear 83 drives the first rack plate 84 to move left and right, then, the first rack plate 84 drives the movable plate 85 to move left and right, meanwhile, the movable plate 85 drives the connecting rod 86 to move left and right, then, the connecting rod 86 drives the movable support 10 to move up and down, meanwhile, the movable support 10 drives the photovoltaic power generation plate 11 to adjust the angle, so that the photovoltaic power generation plate 11 can conveniently irradiate sunlight for power generation, and supply power requirements when the platform device is powered off, when the user needs to enter the main test space 7, the user firstly opens the airtight door to enter the auxiliary buffer space 6, then, the user opens the air conditioner 17 through the controller, and simultaneously, the air conditioner 17 buffers the temperature and humidity environments in the auxiliary buffer space 6 and the main test space 7, when the temperature and humidity environment in the auxiliary buffer space 6 and the main test space 7 is stable, the user opens the airtight door to enter the main test space 7, and simultaneously the user opens the second motor 91 through the controller, then the output shaft of the second motor 91 drives the second gear 92 to rotate, at the same time the second gear 92 drives the teeth 94 to reciprocate in the inner cavity of the movable frame 93, then the teeth 94 drives the movable frame 93 to reciprocate, at the same time the movable frame 93 drives the second rack plate 95 to reciprocate, then the second rack plate 95 drives the sector gear 96 to swing, at the same time the sector gear 96 drives the second rotating shaft 97 to rotate, then the second rotating shaft 97 drives the movable rod 98 to swing, at the same time the movable rod 98 drives the slide rod 99 to swing, then the slide rod 99 drives the first rotating shaft 13 to swing, at the same time the first rotating shaft 13 drives the camera 14 to swing, the main test space 7 is then monitored in all directions by the camera 14.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. 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.

Claims (8)

1. The utility model provides a remote monitoring's multi-purpose building experiment platform, includes steel structure support (1), its characterized in that: the left side of the inner cavity of the steel structure support (1) is respectively bolted with a first steel structure platform (2) and a second steel structure platform (3) from top to bottom, the top on the right side of the inner cavity of the steel structure support (1) is bolted with a test box body (4), the left side of the inner cavity of the test box body (4) is bolted with a partition wall (5), the inner cavity of the test box body (4) is respectively provided with an auxiliary buffer space (6) and a main test space (7) from left to right, the left side of the test box body (4) and the left side of the partition wall (5) are respectively embedded with a sealed door, the top of the first steel structure platform (2) is provided with an adjusting mechanism (8), the top of the adjusting mechanism (8) is movably connected with a movable support (10), the top of the movable support (10) is bolted with a photovoltaic power generation panel (11), the back on the right side of the partition wall (5) is bolted with a fixed box (12), the top of fixed box (12) is rotated through first bearing and is connected with first rotation axis (13), the top bolt of first rotation axis (13) has camera (14), the inner chamber of fixed box (12) is provided with swing mechanism (9), the right side bolt joint of test box (4) has test piece frame (15), the right side bolt joint of test piece frame (15) has test enclosure member (16), the left side bolt joint of test box (4) has the controller.

2. The remotely monitored multi-purpose construction experiment platform of claim 1, wherein: the adjusting mechanism (8) comprises a supporting plate (81), a first motor (82), a first gear (83), a first rack plate (84), a movable plate (85) and a connecting rod (86), the supporting plate (81) is bolted to the left front side and the back side of the top of the first steel structure platform (2), the top of the supporting plate (81) is movably connected to the right side of the bottom of the movable support (10) through a movable shaft, the first motor (82) is bolted to the center of the right side of the top of the first steel structure platform (2), the first gear (83) is bolted to an output shaft of the first motor (82), the first rack plate (84) is meshed to the bottom of the first gear (83), the bottom of the first rack plate (84) is connected to the top of the first steel structure platform (2) in a sliding mode, the movable plate (85) is bolted to the left side of the first rack plate (84), the front and the back of the top of the movable plate (85) are both movably connected with a connecting rod (86) through a movable seat, and one side, away from the movable plate (85), of the connecting rod (86) is movably connected with the front and the back of the left side of the bottom of the movable support (10) through the movable seat.

3. The remotely monitored multi-purpose construction experiment platform of claim 1, wherein: swing mechanism (9) includes second motor (91), second gear (92), movable frame (93), tooth (94), second rack board (95), sector gear (96), second rotation axis (97), movable rod (98) and slide bar (99), the bottom of fixed box (12) inner chamber is bolted to have second motor (91), the output shaft of second motor (91) is bolted to have second gear (92), the bottom sliding connection of fixed box (12) inner chamber has movable frame (93), tooth (94) have all been bolted to the top and the bottom of movable frame (93) inner chamber, tooth (94) one side in opposite directions and the surface toothing of second gear (92), the top of movable frame (93) is bolted to have second rack board (95), the top meshing of second rack board (95) has sector gear (96), the center department bolt of sector gear (96) has second rotation axis (97), the front and the back of second rotation axis (97) all rotate through the inner chamber of second bearing with fixed box (12) and be connected, first logical groove has been seted up at the top of fixed box (12), the surperficial bolt of second rotation axis (97) has connect movable rod (98), the second logical groove has been seted up in the front of movable rod (98), and the inner chamber sliding connection that the second led to the groove has slide bar (99), the back of slide bar (99) and the front bolt of first rotation axis (13) connect.

4. The remotely monitored multi-purpose construction experiment platform of claim 1, wherein: the back of the test box body (4) is bolted with a fixing plate, the top of the fixing plate is bolted with an air conditioner (17), an air supply outlet of the air conditioner (17) is communicated with an air supply pipe, one end, far away from the air conditioner (17), of the air supply pipe is communicated with the back of the main test space (7), an air return inlet of the air conditioner (17) is communicated with an air return pipe, one end, far away from the air conditioner (17), of the air return pipe is communicated with the back of the auxiliary buffer space (6), and the tops of two sides of the partition wall (5) are sequentially provided with vent holes from front to back.

5. The remotely monitored multi-purpose construction experiment platform of claim 1, wherein: fixed columns (18) are bolted to two sides of an inner cavity of the fixed box (12), and the front faces of the fixed columns (18) are in sliding connection with the back face of the movable frame (93).

6. The remotely monitored multi-purpose construction experiment platform of claim 2, wherein: the front and the back of fly leaf (85) both sides all inlay and are equipped with the sliding sleeve, and the inner chamber sliding connection of sliding sleeve has traveller (19), the left side bolt of traveller (19) has the limiting plate, and the top bolt of the bottom of limiting plate and first steel construction platform (2), the right side of traveller (19) and the left side bolt of backup pad (81).

7. The remotely monitored multi-purpose construction experiment platform of claim 1, wherein: supporting blocks are bolted to the periphery of the top of the steel structure support (1), the heights of the second steel structure platform (3) and the test box body (4) are 1.5m, and the periphery of the top of the test box body (4) is bolted with a reverse bolt (20).

8. The remotely monitored multi-purpose construction experiment platform of claim 1, wherein: the top and the bottom of the surface of the test box body (4) are bolted with reserved mounting channel steel (21), and the front and the back of the reserved mounting channel steel (21) are sequentially bolted with mounting buckles from left to right.

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