CN115883791B - Intelligent monitoring device for house construction - Google Patents

Abstract

The invention discloses an intelligent monitoring device for house construction, which comprises a monitoring mechanism, wherein the upper side of the monitoring mechanism is provided with a protection mechanism, the lower side of the monitoring mechanism is provided with a drying and heat dissipation mechanism, the protection mechanism comprises two supporting plates, a synchronous controller, a main controller, a connecting block and a servo motor, six limiting blocks are arranged at the tops of the two supporting plates, the six limiting blocks are divided into two groups, and sliding blocks are slidably connected between the interiors of the two limiting blocks in each group.

Description

Intelligent monitoring device for house construction

Technical Field

The invention relates to the technical field of house construction, in particular to an intelligent monitoring device for house construction.

Background

The house construction refers to building such as building house on the land where the infrastructure construction is completed, and when the house construction site is constructed, in order to avoid accidents caused by scattered construction materials of constructors or other emergency situations, the intelligent monitoring device is generally installed on the house construction site.

In the prior art, the existing intelligent monitoring device for house construction has a very good effect of monitoring on sunny days, but the monitoring effect of the intelligent monitoring device is greatly reduced under the condition of rainy and snowy weather, when construction materials are placed in disorder or other emergency situations occur on a construction site, a monitor in a monitoring room cannot accurately know the construction materials, and then the occurrence of construction accidents cannot be timely known and left evidence is caused, so that the timely and accurate treatment in the later stage is affected.

Disclosure of Invention

In order to overcome the defects that in the prior art, the intelligent monitoring device has poor monitoring effect in rainy and snowy weather, so that accidents are caused by scattered placement of construction site materials or other construction accidents cannot be timely known and left evidence is caused, and timely and accurate processing in the later period is affected, the invention aims to provide the intelligent monitoring device for house construction, which can accurately record various information.

To achieve the purpose, the invention adopts the following technical scheme:

the invention provides an intelligent monitoring device for house construction, which comprises a monitoring mechanism, wherein a protection mechanism is arranged on the upper side of the monitoring mechanism, and a drying and heat dissipation mechanism is arranged on the lower side of the monitoring mechanism;

the protection mechanism comprises two supporting plates, synchronous controllers, a main controller, a connecting block and a servo motor, six limiting blocks are arranged at the tops of the two supporting plates and divided into two groups, two of the limiting blocks are connected with a sliding block in a sliding mode, a protective shell is fixed between the tops of the sliding blocks, an inclined block is fixed on the front surface of the protective shell close to the top, rain and snow sensors are arranged on the inclined surface of the inclined block, two groups of waterproof fans are arranged at the top of the protective shell, the number of the waterproof fans is two, a stabilizing frame is arranged between one sides of the supporting plates, a rectangular plate is fixed inside the protective shell close to one side edge, a threaded rod is connected to the other side of the stabilizing frame through bearing rotation, a mounting hole is formed in one side of the connecting block, a pressure sensor is arranged in the mounting hole, and a baffle is fixed on one side of the protective shell.

In the preferred technical scheme of the invention, the bottom of one of the limiting blocks in each group is respectively fixed with the bottoms of the two supporting plates, one end of the threaded rod penetrates through the other side of the rectangular plate through threads, and the other end of the threaded rod penetrates through one side of the connecting block movably, so that the threaded rod can be conveniently matched with the sliding block, and the threaded rod can be ensured to drive the protective shell to horizontally move through the rectangular plate.

In the preferred technical scheme of the invention, the synchronous controller is respectively and electrically connected with the four waterproof fans, the rain and snow sensor is electrically connected with the main controller, the synchronous controller is electrically connected with the main controller, the main controller is electrically connected with the pressure sensor, and the main controller is electrically connected with the servo motor, so that rainwater or snow which possibly falls on the top of the protective shell can be conveniently blown off from the top of the protective shell under the action of the waterproof fans, snow accumulation on the top of the protective shell is effectively avoided, and the weight of the whole monitoring device is increased.

In the preferred technical scheme of the invention, the monitoring mechanism comprises a mounting plate, a bracket is fixed on the other side of the mounting plate, two limiting blocks in each group are fixed on the bracket, and the synchronous controller is arranged on the top of the inner wall of the bracket, so that the main controller can control four waterproof fans to be started or closed simultaneously under the action of the synchronous controller.

In the preferred technical scheme of the invention, the main controller is arranged at the top of the inner wall of the bracket, the bottom of the connecting block is fixed with the top of the bracket, the two supporting plates are arranged on the bracket through bolts, and the servo motor is arranged at the top of the bracket, so that the servo motor can drive the threaded rod to stably rotate under the cooperation of the connecting block, the supporting plates and the stabilizing frame.

In the preferred technical scheme of the invention, the other side of the bracket is provided with the mounting groove, the inside of the mounting groove is provided with the round head hollow block, the rear surface of the round head hollow block is provided with the antiskid sheet, the front surface thread of the bracket is penetrated with the hand-screwed bolt rod, one end of the hand-screwed bolt rod is movably sleeved in the round head hollow block, and the round head hollow block after rotation can be extruded and fixed conveniently under the cooperation of the hand-screwed bolt rod, the bracket, the mounting groove and the antiskid sheet.

In the preferred technical scheme of the invention, one end of the hand-screwed bolt rod movably penetrates through the positive surface of the anti-slip sheet, one end thread of the hand-screwed bolt rod penetrates through the inner wall of the mounting groove, the top of the round head hollow block is fixedly provided with the camera, the top of the camera is fixedly provided with the sun shield close to the edge of the other side, so that the monitoring of the house construction site can be conveniently carried out in real time under the action of the camera, and the situation that the arrangement of construction materials is disordered or accidents cannot be known in time is effectively avoided, so that the timely treatment is affected.

In the preferred technical scheme of the invention, the drying and radiating mechanism comprises concave blocks, the tops of the concave blocks are contacted with the top of the inner wall of the bracket, the front surface and the rear surface of each concave block are respectively fixed with an L-shaped block, the two L-shaped blocks are all arranged on the bracket through screws, and rectangular shells are fixed at the bottoms of the inner walls of the concave blocks, so that the concave blocks can be tightly fixed on the bracket conveniently under the cooperation of the screws and the L-shaped blocks, and meanwhile, the tops of the concave blocks and the top of the inner wall of the bracket can be tightly attached together.

In the preferred technical scheme of the invention, a plurality of vent holes are uniformly distributed on two sides of the inner wall of the rectangular shell, a drying agent bag is arranged in the rectangular shell, rectangular grooves are formed in the bottom of the concave block near one side edge, three heat conducting blocks are fixedly distributed and penetrated at equal intervals on the bottom of the inner wall of the concave block, six heat conducting blocks are divided into two groups, one group of heat conducting blocks is contacted with the surface of the main controller, the other group of heat conducting blocks is contacted with the surface of the synchronous controller, and heat generated during the working of the main controller and the synchronous controller can be conveniently guided away under the action of the heat conducting blocks, so that the aim of cooling the main controller and the synchronous controller is fulfilled.

In the preferred technical scheme of the invention, the bottom of the inner wall of the concave block is provided with the rectangular hole, the inlet of the rectangular hole is communicated with the outlet of the rectangular shell, and the outlet of the rectangular hole is provided with the rubber plug, so that the desiccant bag inside the rectangular shell can be conveniently replaced under the action of the rectangular hole, and the desiccant bag placed inside the rectangular shell can be prevented from falling out from the rectangular hole under the action of the rubber plug.

The beneficial effects of the invention are as follows:

according to the intelligent monitoring device for building construction, the protection mechanism is arranged, when the monitoring device is in rainy and snowy weather, the collected data can be transmitted to the inside of the main controller by the rainy and snowy sensor, at the moment, the main controller can directly conduct analysis and comparison on the collected data and give off instructions for closing the servo motor when receiving the data information, the four waterproof fans are started, excessive snow or rain on the top of the protection shell is prevented from being accumulated to blow away, the weight of the whole intelligent monitoring device is prevented from being increased, meanwhile, the main controller can send out starting instructions to the servo motor, at the moment, the started servo motor can drive the protection shell to move to the top of the camera under the cooperation of the connecting block, the stabilizing frame, the threaded rod, the two groups of limiting blocks, the two sliding blocks and the rectangular plate, when the pressure sensor is extruded, the collected pressure value can be transmitted to the inside of the main controller, at the moment, the main controller can conduct analysis and comparison on the collected data and give off instructions for the servo motor, the method can prevent the rain or snow from falling on the camera, the weight of the intelligent monitoring device is effectively guaranteed, the weight of the intelligent monitoring device is simultaneously reduced, the weight of the whole monitoring device is increased, the situation that the whole monitoring device is not bear the weight of the intelligent monitoring device is effectively, and the situation of the building construction is effectively prevented from being carried out, and the real-time is realized, and the real-time is stressed due to the fact that the monitoring device is not stressed to be effectively mounted on the construction.

Through setting up dry heat dissipation mechanism, when in order to reduce the use of air steam influence main control unit and synchronous controller, the direct L type piece that utilizes this moment and screw installs concave type piece in the outside of main control unit and synchronous controller, take off the rubber buffer afterwards, remove the inside of rectangle shell with the drier package simultaneously, later with the rubber buffer in the inside of installing back the rectangle hole, the drier package can reduce the inside air of concave type piece steam to main control unit and synchronous controller's influence this moment, this method can improve intelligent monitoring device's life effectively. .

Drawings

FIG. 1 is a perspective view of a building construction intelligent monitoring device of the present invention;

FIG. 2 is a bottom perspective view of an intelligent monitoring device for building construction according to the present invention;

FIG. 3 is a schematic diagram showing a three-dimensional structure of a housing after a protective casing moves in the intelligent monitoring apparatus for building construction according to the present invention;

FIG. 4 is a partial perspective view of a building construction intelligent monitoring apparatus of the present invention;

FIG. 5 is a schematic perspective view of a slide-proof sheet, round head hollow block, hand-screwed bolt rod, camera and sun shield of the intelligent monitoring device for building construction;

FIG. 6 is a side view, partially in perspective, of a building construction intelligent monitoring apparatus according to the present invention;

FIG. 7 is an enlarged perspective view of the intelligent monitoring device for building construction of the present invention at A in FIG. 6;

fig. 8 is a partial perspective view of a drying and heat dissipating mechanism of an intelligent monitoring device for building construction according to the present invention.

In the figure:

1-a monitoring mechanism; 101-mounting plates; 102-a mounting groove; 103-a round head hollow block; 104-a non-slip sheet; 105-hand screwing the bolt rod; 106-a camera; 107-sunshading board; 108-a bracket; 2-a protection mechanism; 201-a support plate; 202-limiting blocks; 203-a slider; 204-a protective shell; 205-synchronization controller; 207-sloping block; 208-rain and snow sensor; 209-a waterproof fan; 206-a master controller; 210-connecting blocks; 211-a stabilizer; 212-rectangular plate; 213-threaded rod; 214-a servo motor; 215-mounting holes; 216-a pressure sensor; 217-baffle; 3-a drying and heat-dissipating mechanism; 301-concave blocks; 302-L shaped blocks; 303-rectangular shell; 304-vent holes; 305-desiccant packet; 306-rectangular grooves; 307-heat conducting blocks; 308-rectangular holes; 309-rubber stopper.

Detailed Description

The technical scheme of the invention is further described below by the specific embodiments with reference to the accompanying drawings.

As shown in fig. 1-8, an intelligent monitoring device for building construction is provided in an embodiment, and comprises a monitoring mechanism 1, wherein a protection mechanism 2 is arranged on the upper side of the monitoring mechanism 1, and a drying and heat dissipation mechanism 3 is arranged on the lower side of the monitoring mechanism 1;

the protection mechanism 2 comprises two supporting plates 201, a synchronous controller 205, a main controller 206, a connecting block 210 and a servo motor 214, six limiting blocks 202 are arranged at the tops of the two supporting plates 201, the six limiting blocks 202 are divided into two groups, sliding blocks 203 are slidably connected between the interiors of the two limiting blocks 202 in each group, a protective shell 204 is fixed between the tops of the two sliding blocks 203, an inclined block 207 is fixed on the front surface of the protective shell 204 near the top, a rain and snow sensor 208 is mounted on the inclined surface of the inclined block 207, two groups of waterproof fans 209 are mounted on the top of the protective shell 204, the number of the waterproof fans 209 in each group is two, a stabilizing frame 211 is mounted between one sides of the two supporting plates 201, a rectangular plate 212 is fixed at the edge of one side, which is close to the interior of the protective shell 204, a threaded rod 213 is rotatably connected with the other side of the stabilizing frame 211, a mounting hole 215 is formed in one side of the connecting block 210, a pressure sensor 216 is mounted in the interior of the mounting hole 215, and a baffle 217 is fixed on one side of the protective shell 204.

According to fig. 2-4, 6 and 7, the bottom of one of the limiting blocks 202 of each group is respectively fixed with the bottoms of the two supporting plates 201, one end of the threaded rod 213 is threaded through the other side of the rectangular plate 212, the other end of the threaded rod 213 is movably threaded through one side of the connecting block 210, and the threaded rod 213 can be ensured to drive the protective shell 204 to horizontally move through the rectangular plate 212 by being conveniently matched with the limiting block 202 and the sliding block 203.

According to the embodiments shown in fig. 2-4, 6 and 7, the synchronous controller 205 is electrically connected with four waterproof fans 209, the rain and snow sensor 208 is electrically connected with the main controller 206, the synchronous controller 205 is electrically connected with the main controller 206, the main controller 206 is electrically connected with the pressure sensor 216, and the main controller 206 is electrically connected with the servo motor 214, so that rainwater or snow which may fall on the top of the protective shell 204 can be blown off from the top of the protective shell 204 under the action of the waterproof fans 209, and the situation that snow is accumulated on the top of the protective shell 204 and the weight of the whole monitoring device is increased is effectively avoided.

According to fig. 1-4, 6 and 7, the monitoring mechanism 1 comprises a mounting plate 101, a bracket 108 is fixed on the other side of the mounting plate 101, two limiting blocks 202 in each group are fixed on the bracket 108, a synchronous controller 205 is installed on the top of the inner wall of the bracket 108, and the main controller 206 can control four waterproof fans 209 to be started or closed simultaneously conveniently under the action of the synchronous controller 205.

According to fig. 2-4, 6 and 7, the main controller 206 is mounted on the top of the inner wall of the bracket 108, the bottom of the connecting block 210 is fixed to the top of the bracket 108, the two supporting plates 201 are both mounted on the bracket 108 through bolts, and the servo motor 214 is mounted on the top of the bracket 108, so that the servo motor 214 can drive the threaded rod 213 to stably rotate under the cooperation of the connecting block 210, the supporting plates 201 and the stabilizing frame 211.

According to the embodiment shown in fig. 2-6, the other side of the bracket 108 is provided with a mounting groove 102, a round head hollow block 103 is arranged in the mounting groove 102, a non-slip sheet 104 is arranged on the rear surface of the round head hollow block 103, a hand-screwed bolt rod 105 is threaded on the front surface of the bracket 108, one end of the hand-screwed bolt rod 105 is movably sleeved in the round head hollow block 103, and the rotary round head hollow block 103 can be extruded and fixed conveniently under the cooperation of the hand-screwed bolt rod 105, the bracket 108, the mounting groove 102 and the non-slip sheet 104.

According to the illustration of fig. 2, fig. 3, fig. 5 and fig. 6, one end of the hand-screwed bolt rod 105 movably penetrates through the front surface of the antiskid sheet 104, one end thread of the hand-screwed bolt rod 105 penetrates through the inner wall of the mounting groove 102, the top of the round head hollow block 103 is fixedly provided with a camera 106, the top of the camera 106 is close to the edge of the other side, a sun shield 107 is fixedly arranged at the edge of the other side, the monitoring of the house construction site can be conveniently carried out in real time under the action of the camera 106, and the situation that the construction material is placed in disorder or the emergency is not known in time is effectively avoided, so that the timely treatment is affected.

According to fig. 1-4 and fig. 6-8, the drying and heat dissipation mechanism 3 comprises a concave block 301, wherein the top of the concave block 301 is in contact with the top of the inner wall of the bracket 108, the front surface and the rear surface of the concave block 301 are both fixed with an L-shaped block 302, the two L-shaped blocks 302 are both installed on the bracket 108 through screws, the bottom of the inner wall of the concave block 301 is fixed with a rectangular shell 303, so that the concave block 301 can be tightly fixed on the bracket 108 under the cooperation of the screws and the L-shaped block 302, and meanwhile, the top of the concave block 301 and the top of the inner wall of the bracket 108 can be tightly attached together.

According to the embodiments shown in fig. 2-4, fig. 7 and fig. 8, a plurality of ventilation holes 304 are uniformly distributed on two sides of the inner wall of the rectangular shell 303, a drying agent bag 305 is arranged in the rectangular shell 303, rectangular grooves 306 are formed in the bottom of the concave block 301 near one side edge, three heat conducting blocks 307 are fixedly distributed and penetrated at equal intervals on the bottom of the inner wall of the concave block 301, the six heat conducting blocks 307 are divided into two groups, one side of one group of heat conducting blocks 307 is contacted with the surface of the main controller 206, the other side of the other group of heat conducting blocks 307 is contacted with the surface of the synchronous controller 205, and heat generated during the operation of the main controller 206 and the synchronous controller 205 can be conveniently guided away under the action of the heat conducting blocks 307, so that the purpose of cooling the main controller 206 and the synchronous controller 205 is achieved.

According to the embodiments shown in fig. 2, 4, 7 and 8, the bottom of the inner wall of the concave block 301 is provided with a rectangular hole 308, and the inlet of the rectangular hole 308 is communicated with the outlet of the rectangular shell 303, and the outlet of the rectangular hole 308 is provided with a rubber plug 309, so that the desiccant bag 305 inside the rectangular shell 303 can be conveniently replaced under the action of the rectangular hole 308, and simultaneously the desiccant bag 305 placed inside the rectangular shell 303 can be prevented from falling out from the rectangular hole 308 under the action of the rubber plug 309.

The whole mechanism achieves the following effects: when the intelligent monitoring equipment is required to be installed on the house construction ground, so that the special situation of the construction ground can be timely known and left, and meanwhile, when timely treatment is convenient, the whole intelligent monitoring device can be installed at a proper position around the house construction ground through the installing plate 101, then the manual screwing bolt rod 105 is loosened, when the manual screwing bolt rod 105 moves in a threaded manner, the camera 106 can drive the round head hollow block 103 to rotate on the manual screwing bolt rod 105, the rotating camera 106 can also drive the sun shield 107 to rotate, when the camera 106 rotates to a proper monitoring angle, the manual screwing bolt rod 105 is directly screwed at the moment, meanwhile, the rotated round head hollow block 103 can be extruded and fixed through the cooperation of the bracket 108, the installing groove 102 and the anti-slip sheet 104, and the camera 106 can monitor the house construction ground at the moment, simultaneously starting the main controller 206, setting the minimum pressure value to be zero on the main controller 206, when the sky starts up snow or rain, at the moment, the rain and snow sensor 208 can directly transmit the acquired data to the inside of the main controller 206 in the form of electric signals, when the main controller 206 receives the data, the main controller 206 can directly simultaneously start up four waterproof fans 209 through the cooperation of the synchronous controller 205, at the moment, the two started waterproof fans 209 can respectively blow in opposite directions, at the moment, the blown wind can directly blow away the rain or snow falling on the protective shell 204, the excessive snow accumulated at the top of the protective shell 204 is avoided, the weight of the whole intelligent monitoring device is increased, at the same time, the main controller 206 can also send a starting instruction to the servo motor 214, at the moment, the started servo motor 214 can be under the cooperation of the connecting block 210 and the stabilizing frame 211, the threaded rod 213 is directly and stably rotated, the rotating threaded rod 213 directly drives the rectangular plate 212 to horizontally move under the cooperation of the two groups of limiting blocks 202 and the two sliding blocks 203, the horizontally moving rectangular plate 212 drives the protective shell 204 to horizontally move at the moment, the horizontally moving protective shell 204 drives the waterproof fan 209 and the inclined block 207 connected with the protective shell 204 to move, the inclined block 207 also drives the rain and snow sensor 208 connected with the inclined block 207 to move at the same time, when the other side of the rectangular plate 212 contacts the pressure sensor 216 and presses the pressure sensor 216 to a certain extent, the pressure sensor 216 transmits the acquired pressure value to the inside of the main controller 206, when the main controller 206 receives the pressure value transmitted by the pressure sensor 216, the main controller 206 analyzes and compares the pressure value through the internal analysis module, however, the collected pressure value is definitely larger than the preset pressure value on the main controller 206, at this time, the main controller 206 directly controls the servo motor 214 to be turned off, at this time, under the action of the protective shell 204, rainwater or snow can be prevented from falling on the camera 106, the monitoring effect of the camera 106 is affected, the weight of the intelligent monitoring device is increased, thereby effectively improving the use efficiency of the intelligent monitoring device, reducing the accident situation of the building construction site, simultaneously, timely acquiring and reserving evidence when the accident happens, facilitating the timely and accurate processing in the later stage, when the rain and snow sensor 208 does not transmit data to the main controller 206, the main controller 206 can analyze through an internal analysis module thereof and give an instruction, on one hand, through the cooperation of the synchronous controller 205, four waterproof fans 209 are directly turned off simultaneously, on the other hand, through starting the servo motor 214 and reversing the output end of the servo motor, the protective shell 204 is driven to reset to the initial position, at this moment, the protective shell 204 can be directly and slowly reset automatically under the cooperation of the transmission structure, when the protective shell 204 is reset to the initial position, at this moment, the main controller 206 can be directly closed to the servo motor 214, at this moment, the camera 106 can be exposed from the inside of the protective shell 204, the operation of possibly carrying out angle adjustment on the camera 106 in the later stage is facilitated, the protection mechanism 2 can carry out intelligent protection on the camera 106, the monitoring effect of the camera 106 is effectively improved, when the use of the main controller 206 and the synchronous controller 205 is influenced by air vapor, at this moment, the concave block 301 is directly arranged outside the main controller 206 and the synchronous controller 205 by utilizing the L-shaped block 302 and screws, then the rubber plug 309 is removed, at the same time, the main controller 206 and the synchronous controller 205 are put in from the outlet of the rectangular hole 308 until the rubber plug 309 moves to the inside of the rectangular shell 303, the inside of the rectangular hole 308 is convenient for carrying out the operation of carrying out angle adjustment on the camera 106 in the later stage, the inner air of the concave block 301, the influence on the main controller 206 and the synchronous controller 205 can be reduced, the service life of the intelligent monitoring device is effectively prolonged.

The camera 106, the synchronization controller 205, the rain and snow sensor 208, the waterproof fan 209, the main controller 206, the servo motor 214, and the pressure sensor 216 are all of the prior art, and the effects generated by the use thereof are not explained herein too much.

The rain and snow sensor 208 is a qualitative measurement device for measuring whether rainfall or snowfall occurs outdoors or in nature, and is also called a "rain and snow transmitter", which uses the conductive characteristic of rainwater, and uses an advanced detection circuit to detect whether there is rain or snow, and can upload the detected data as an electrical signal.

Other techniques of this embodiment employ the prior art.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the spirit and scope of the invention. The invention is not to be limited by the specific embodiments disclosed herein, and other embodiments are within the scope of the invention as defined by the claims of the present application.

Claims (7)

1. The utility model provides a house construction intelligent monitoring device, includes monitoring institution (1), its characterized in that: the upper side of the monitoring mechanism (1) is provided with a protection mechanism (2), and the lower side of the monitoring mechanism (1) is provided with a drying and heat dissipation mechanism (3);

the protection mechanism (2) comprises two support plates (201), a synchronous controller (205), a main controller (206), a connecting block (210) and a servo motor (214), six limiting blocks (202) are arranged at the tops of the two support plates (201), the six limiting blocks (202) are divided into two groups, sliding blocks (203) are slidably connected between the interiors of the two limiting blocks (202) in each group, a protective shell (204) is fixed between the tops of the two sliding blocks (203), an inclined block (207) is fixed on the front surface of the protective shell (204) near the top, a rain and snow sensor (208) is arranged on the inclined surface of the inclined block (207), two groups of waterproof fans (209) are arranged at the top of the protective shell (204), the number of each group of waterproof fans (209) is two, a stabilizing frame (211) is arranged between one sides of the two supporting plates (201), a rectangular plate (212) is fixed at the edge of one side of the inner part of the protective shell (204), the other side of the stabilizing frame (211) is rotatably connected with a threaded rod (213) through a bearing, one side of the connecting block (210) is provided with a mounting hole (215), a pressure sensor (216) is arranged in the mounting hole (215), a baffle (217) is fixed on one side of the protective shell (204);

the drying and heat dissipation mechanism (3) comprises concave blocks (301), the top of each concave block (301) is contacted with the top of the inner wall of the corresponding bracket (108), L-shaped blocks (302) are fixed on the front surface and the rear surface of each concave block (301), the two L-shaped blocks (302) are mounted on the corresponding bracket (108) through screws, and a rectangular shell (303) is fixed at the bottom of the inner wall of each concave block (301);

a plurality of vent holes (304) are uniformly distributed on two sides of the inner wall of the rectangular shell (303), a drying agent bag (305) is arranged in the rectangular shell (303), rectangular grooves (306) are formed in the bottom of the concave block (301) close to one side edge, three heat conducting blocks (307) are fixedly distributed and penetrated at equal intervals on the bottom of the inner wall of the concave block (301), the six heat conducting blocks (307) are divided into two groups, one side of one group of heat conducting blocks (307) is contacted with the surface of the main controller (206), and the other side of the other group of heat conducting blocks (307) is contacted with the surface of the synchronous controller (205);

rectangular holes (308) are formed in the bottoms of the inner walls of the concave blocks (301), the inlets of the rectangular holes (308) are communicated with the outlets of the rectangular shells (303), and rubber plugs (309) are arranged at the outlets of the rectangular holes (308).

2. The intelligent monitoring device for building construction according to claim 1, wherein: the bottom of one of the limiting blocks (202) in each group is fixed with the bottoms of the two supporting plates (201) respectively, one end of the threaded rod (213) penetrates through the other side of the rectangular plate (212) through threads, and the other end of the threaded rod (213) penetrates through one side of the connecting block (210) movably.

3. The intelligent monitoring device for building construction according to claim 1, wherein: the synchronous controller (205) is electrically connected with four waterproof fans (209) respectively, the rain and snow sensor (208) is electrically connected with the main controller (206), the synchronous controller (205) is electrically connected with the main controller (206), the main controller (206) is electrically connected with the pressure sensor (216), and the main controller (206) is electrically connected with the servo motor (214).

4. The intelligent monitoring device for building construction according to claim 1, wherein: the monitoring mechanism (1) comprises a mounting plate (101), a bracket (108) is fixed on the other side of the mounting plate (101), two limiting blocks (202) in each group are fixed on the bracket (108), and the synchronous controller (205) is mounted on the top of the inner wall of the bracket (108).

5. The intelligent monitoring device for building construction according to claim 4, wherein: the main controller (206) is arranged at the top of the inner wall of the bracket (108), the bottom of the connecting block (210) is fixed with the top of the bracket (108), the two supporting plates (201) are arranged on the bracket (108) through bolts, and the servo motor (214) is arranged at the top of the bracket (108).

6. The intelligent monitoring device for building construction according to claim 4, wherein: the mounting groove (102) has been seted up to the opposite side of support (108), the inside of mounting groove (102) is provided with button head hollow block (103), the rear surface of button head hollow block (103) is provided with antiskid sheet (104), the positive surface screw thread of support (108) runs through has hand to twist bolt pole (105), the one end activity of hand to twist bolt pole (105) cup joints in the inside of button head hollow block (103).

7. The intelligent monitoring device for building construction according to claim 6, wherein: one end of the hand-screwed bolt rod (105) movably penetrates through the positive surface of the anti-slip sheet (104), one end thread of the hand-screwed bolt rod (105) penetrates through the inner wall of the mounting groove (102), a camera (106) is fixed at the top of the round head hollow block (103), and a sun shield (107) is fixed at the top of the camera (106) close to the edge of the other side.

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