CN111623832A

CN111623832A - Building engineering monitoring and management device based on transmission of Internet of things and management method thereof

Info

Publication number: CN111623832A
Application number: CN202010662985.XA
Authority: CN
Inventors: 柯文元; 华兴
Original assignee: Hubei Hopai Construction Co ltd
Current assignee: Hubei Hopai Construction Co ltd
Priority date: 2020-07-10
Filing date: 2020-07-10
Publication date: 2020-09-04

Abstract

The invention discloses a building engineering monitoring and management device based on Internet of things transmission and a management method thereof, wherein the device comprises a pedestal, a supporting and fixing component is rotatably connected at the center of the bottom of the pedestal, a rotating component is arranged on the pedestal, the top of the rotating component is connected with a detection column, a dust sensor, a temperature and humidity detector and a decibel detector are sequentially arranged on the detection column from top to bottom, a cleaning component is arranged on the right side of the top of the pedestal, a processor and a signal transmitter are arranged on the top of the pedestal, and a rain shielding component is arranged on the; support fixed subassembly through supporting and support the device fixedly, detect the dust in the air through dust sensor, temperature and humidity detector detects the temperature and humidity in the air, and the decibel detector detects the decibel around, drives through rotating assembly and detects the post rotation, and detection effect is good, sends testing result to long-range receiving terminal through signal transmitter, and when detecting the post rotation, clean subassembly is cleared up the dust of adhesion on detecting the post.

Description

Building engineering monitoring and management device based on transmission of Internet of things and management method thereof

Technical Field

The invention relates to the technical field of monitoring and management of constructional engineering, in particular to a constructional engineering monitoring and management device and a management method thereof based on transmission of the Internet of things.

Background

Construction works can be classified into three types, namely, construction works, civil engineering works and electromechanical engineering works according to natural attributes. The method covers house building engineering, railway engineering, highway engineering, hydraulic engineering, municipal engineering, coal mine engineering, water transportation engineering, ocean engineering, civil aviation engineering, commercial and material engineering, agricultural engineering, forestry engineering, grain engineering, petroleum and gas engineering, ocean petroleum engineering, thermal power engineering, hydroelectric engineering, nuclear industry engineering, building material engineering, metallurgical engineering, nonferrous metal engineering, petrochemical engineering, chemical engineering, medical engineering, mechanical engineering, aerospace and aviation engineering, weapon and ship engineering, light engineering, textile engineering, electronic and communication engineering, broadcast film and television engineering and the like.

Along with the construction and the updating of road networks and roads and bridges, the construction of urban infrastructures and the vigorous development of the house and ground industry are more and more emphasized, at present, during the construction of the construction engineering, the construction environment needs to be monitored, the current monitoring and management device for the construction engineering can only monitor one of the construction engineering environments generally, meanwhile, the monitoring device is very troublesome to fix and generally fixed by pouring cement, although a better fixing effect can be achieved, the dismounting is very troublesome, and during the construction of the construction engineering, more dust is in the air and can be attached to the monitoring device, the use of the monitoring device is affected, the manual cleaning is also needed, and the use is inconvenient.

Based on the above, the invention designs a building engineering monitoring and management device based on transmission of the internet of things and a management method thereof, so as to solve the above-mentioned problems.

Disclosure of Invention

The invention aims to provide a building engineering monitoring and management device based on transmission of the Internet of things and a management method thereof.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a building engineering monitoring management device based on transmission of thing networking, includes the pedestal, pedestal bottom center department rotates to be connected with and supports fixed subassembly, be equipped with runner assembly on the pedestal, the runner assembly top is connected with the detection post, be equipped with dust sensor, temperature and humidity detector and decibel detector on the detection post from last to down in proper order, pedestal top right side fixedly connected with connecting block, the clean subassembly of fixedly connected with on the connecting block, clean subassembly contacts with the detection post, the pedestal top is equipped with treater and signal transmitter, the pedestal top is equipped with hides the rain subassembly.

Preferably, support fixed subassembly including fixed cylinder post and spliced pole, the spiro union between spliced pole and the fixed cylinder post, the spliced pole top is rotated with the pedestal bottom and is connected, be equipped with two sets of wedges in the fixed cylinder post, the spliced pole bottom contacts with the wedge inclined plane, and is two sets of the equal fixedly connected with dead lever in the wedge outside, it is two sets of the dead lever outer end is the taper.

Preferably, two sets of equal fixedly connected with bracing piece in wedge bottom, bracing piece bottom end fixedly connected with first slider, diapire sliding contact in first slider and the fixed cylinder post, the bracing piece is connected with fixed cylinder post inner wall through first spring.

Preferably, the rotating assembly comprises a rotary table and a motor, a placing groove is formed in the pedestal, the rotary table is arranged in the placing groove, a groove is formed in the bottom of the placing groove, the motor is arranged in the groove, the motor is connected with the center of the bottom of the rotary table through a rotating shaft, and the rotary table is fixedly connected with the bottom of the detection column.

Preferably, a circular sliding groove is formed in the outer side of the bottom of the placing groove, a sliding rod is fixedly connected to the bottom of the rotary table, a second sliding block is fixedly connected to the bottom of the sliding rod, and the second sliding block is in sliding contact with the inner wall of the circular sliding groove.

Preferably, pedestal bottom is equipped with battery and switch, electric connection between battery, switch and the motor, electric connection between battery, dust sensor, temperature and humidity detector, decibel detector, treater and the signal transmitter.

Preferably, the cleaning assembly comprises a shell, a second spring is fixedly connected to the inner wall of the shell, the end part of the second spring is abutted to a connecting plate, a connecting rod is connected to the connecting plate and penetrates through the shell, a cleaning brush is fixedly connected to the outer end of the connecting rod, and bristles of the cleaning brush are in contact with the detection column.

Preferably, it includes telescopic link and dash board to hide the rain subassembly, the telescopic link includes outer pole, outer pole and pedestal top fixed connection, outer pole interpolation has interior pole, interior pole top and dash board fixed connection, it has the multiunit thread groove to open on the interior pole, it passes to have the bolt on the outer pole, the bolt cooperatees with the thread groove.

Preferably, the flashing is an arc-shaped plate.

A management method of a building engineering monitoring and management device based on transmission of the Internet of things comprises the following steps:

s1, when the device is used, the device is placed at a building construction position, a foundation pit is dug at the construction position, the fixed cylindrical column is placed in the foundation pit and then buried through soil, the connecting column is rotated and moves towards the inside of the fixed cylindrical column, the connecting column presses the wedge block, the wedge block moves towards the outside, the wedge block drives the fixing rod to move, and the fixing rod is inserted into the soil to fix the fixed cylindrical column;

s2, loosening the bolts, adjusting the height of the telescopic rod, driving the rain shielding plate to move by the telescopic rod, and adjusting the height of the rain shielding plate;

s3, a motor is started through a switch, the motor drives a rotary table to rotate through a rotary shaft, the rotary table drives a second sliding block to rotate through a sliding rod, the second sliding block slides in a circular sliding groove, the stability of the rotary table during rotation is guaranteed, the rotary table drives a detection column to rotate, a dust sensor detects dust in the air, a temperature and humidity detector detects the temperature and humidity in the air, a decibel detector detects surrounding decibels, data detected by the dust sensor, the temperature and humidity detector and the decibel detector are transmitted to a processor, the processor processes the data, the data are transmitted to a remote receiving end through a signal transmitter, and the remote receiving end judges the dust density of a building construction site, the temperature and the humidity of the air and the noise level according to the transmitted data;

s4, when the detection column rotates, the cleaning brush contacts with the detection column to clean dust on the detection column, and under the elastic action of the spring, the cleaning brush can always contact with the detection column, so that the cleaning effect on the detection column is good.

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

1. the device is supported and fixed through the supporting and fixing assembly, the fixing effect of the device is good, the device is very convenient to fix and disassemble, dust in the air is detected through the dust sensor, the temperature and humidity detector detects the temperature and humidity in the air, the decibel detector detects the ambient decibel, the rotating assembly drives the detection column to rotate, the detection effect is good, the detection result is transmitted to the remote receiving end through the signal transmitter, when the detection column rotates, the cleaning assembly cleans the dust adhered to the detection column, the rain shielding assembly can achieve the effect of shielding rain, and the device is very convenient to use.

2. According to the fixing device, the connecting column moves towards the inside of the fixing barrel column through rotating the connecting column, the connecting column presses the wedge block, the wedge block moves towards the outside, the wedge block drives the fixing rod to move, the fixing rod is inserted into soil to fix the fixing barrel column, the fixing effect is good, when the fixing device needs to be disassembled, the connecting column only needs to be reversed, and the fixing rod enters the fixing barrel column under the elastic action of the first spring, so that the fixing device is convenient to disassemble.

3. According to the invention, the motor drives the rotary table to rotate through the rotating shaft, the stability of the rotary table during rotation can be ensured by the second sliding block and the sliding rod, the rotary table drives the detection column to rotate, data detected by the dust sensor, the temperature and humidity detector and the decibel detector are transmitted to the processor, the processor processes the data and transmits the data to the remote receiving end through the signal transmitter, the remote receiving end judges the dust density of a building construction part, the temperature and humidity of air and the noise degree according to the transmitted data, when the detection column rotates, the cleaning brush is in contact with the detection column to clean dust on the detection column, under the elastic action of the spring, the cleaning brush can be always in contact with the detection column, the cleaning effect on the detection column is good, and dust can be prevented from being attached to the detection.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

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

FIG. 2 is a schematic view of the supporting and fixing assembly of the present invention;

FIG. 3 is a schematic view of a rotating assembly according to the present invention;

FIG. 4 is a schematic view of a cleaning assembly of the present invention;

fig. 5 is a schematic view of the telescopic rod structure of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 5, the present invention provides a technical solution of a monitoring and management device for construction engineering based on transmission of internet of things: the device comprises a pedestal 1, wherein a supporting and fixing component 4 is rotatably connected to the center of the bottom of the pedestal 1, the device is supported and fixed through the supporting and fixing component 4, the fixing effect of the device is good, a rotating component 7 is arranged on the pedestal 1, a detection column 9 is driven to rotate through the rotating component 7, the detection effect is good, the top of the rotating component 7 is connected with the detection column 9, a dust sensor 10, a temperature and humidity detector 11 and a decibel detector 12 are sequentially arranged on the detection column 9 from top to bottom, the dust sensor 10 detects dust in the air, the temperature and humidity detector 11 detects the temperature and humidity in the air, the decibel detector 12 detects ambient decibels, a connecting block 14 is fixedly connected to the right side of the top of the pedestal 1, a cleaning component 13 is fixedly connected to the connecting block 14, the cleaning component 13 is in contact with the detection column 9, and the cleaning component 13 cleans dust adhered to, the top of pedestal 1 is equipped with treater 5 and signal transmitter 6, pedestal 1 top is equipped with hides rain subassembly 8, hides rain subassembly and can play the effect of keeping out rain.

Wherein, support fixed subassembly 4 and include fixed cylinder post 41 and spliced pole 42, the spiro union between spliced pole 42 and the fixed cylinder post 41, spliced pole 42 top is rotated with 1 bottom of pedestal through the bearing and is connected (not drawing the bearing in the picture), be equipped with two sets of wedges 43 in the fixed cylinder post 41, spliced pole 42 bottom and wedge 43 inclined plane contact, and two sets of equal fixedly connected with dead lever 44 in the wedge 43 outside, two sets of dead lever 44 outer end are the taper, rotate spliced pole 42, spliced pole 42 to fixed cylinder post 41 internal motion, spliced pole 42 oppression wedge 43, wedge 43 moves to the outside, and wedge 43 drives the motion of dead lever 44, and dead lever 44 inserts in the earth, fixes fixed cylinder post 41, and two sets of equal fixedly connected with bracing piece 47 in wedge 43 bottom, bracing piece 47 bottom fixedly connected with first slider 46, the first sliding block 46 is in sliding contact with the inner bottom wall of the fixed cylinder column 41, the supporting rod 47 is connected with the inner wall of the fixed cylinder column 41 through the first spring 45, when the fixing device needs to be detached, only the connecting column 42 needs to be reversed, and the fixing rod 44 enters the fixed cylinder column 41 under the elastic action of the first spring 45, so that the detachment is convenient.

Wherein, the rotating assembly 7 comprises a rotating disc 71 and a motor 73, the pedestal 1 is provided with a placing groove 78, the rotating disc 71 is arranged in the placing groove 78, the bottom of the placing groove 78 is provided with a groove 74, the motor 73 is arranged in the groove 74, the motor 73 is connected with the center of the bottom of the rotating disc 71 through a rotating shaft 72, the rotating disc 71 is fixedly connected with the bottom of the detection column 9, the outer side of the bottom of the placing groove 78 is provided with a circular sliding groove 76, the bottom of the rotating disc 71 is fixedly connected with a sliding rod 77, the bottom of the sliding rod 77 is fixedly connected with a second sliding block 75, the second sliding block 75 is in sliding contact with the inner wall of the circular sliding groove 76, the motor 73 drives the rotating disc 71 to rotate through the rotating shaft 72, the rotating disc 71 drives the second sliding block 75 to rotate through the sliding rod 77, the second sliding block 75 slides in the circular sliding groove 76 to ensure the, the electric connection between battery 3, switch 2 and motor 73, electric connection between battery 3, dust sensor 10, temperature and humidity detector 11, decibel detector 12, treater 5 and signal transmitter 6, the data transmission that dust sensor 10, temperature and humidity detector 11 and decibel detector 12 detected is for treater 5, and treater 5 is handled data, then transmits to the remote receiving terminal through signal transmitter 6, and the remote receiving terminal judges the dust density of building construction department, the humiture and the noise level of air according to the data that transmit.

Wherein, cleaning assembly 13 includes shell 131, shell 131 inner wall fixedly connected with second spring 132, second spring 132 tip butt has even board 133, be connected with connecting rod 134 on even board 133, connecting rod 134 passes shell 131, connecting rod 134 outer end fixedly connected with cleaning brush 135, cleaning brush 135's brush hair contacts with detection post 9, and when detection post 9 rotated, cleaning brush 135 contacted with detection post 9, cleared up the dust on detecting post 9, and under the spring action of spring, cleaning brush 135 can contact with detection post 9 all the time, and is effectual to the cleanness that detects post 9.

Wherein, it includes telescopic link 82 and dash board 81 to hide rain subassembly 8, telescopic link 82 includes outer pole 821,

outer pole

821 and 1 top fixed connection of pedestal, outer pole 821 interpolation has interior pole 822, interior pole 822 top and dash board 81 fixed connection, it has multiunit thread groove 823 to open on interior pole 822, there is bolt 824 to pass on the outer pole 821, bolt 824 cooperatees with thread groove 823, not hard up bolt 824, highly adjusts telescopic link 82, and telescopic link 82 drives dash board 81 motion, can highly adjust dash board 81, dash board 81 is the arc, the rainwater landing of being convenient for.

The specific working principle is as follows:

when the device is used, the device is placed at a building construction position, a foundation pit is dug at the construction position, the fixed cylindrical column 41 is placed in the foundation pit and then buried through soil, the connecting column 42 is rotated, the connecting column 42 moves towards the inside of the fixed cylindrical column 41, the connecting column 42 presses the wedge-shaped block 43, the wedge-shaped block 43 moves towards the outside, the wedge-shaped block 43 drives the fixing rod 44 to move, and the fixing rod 44 is inserted into the soil to fix the fixed cylindrical column 41;

the bolts 824 are loosened, the height of the telescopic rods 82 is adjusted, the telescopic rods 82 drive the rain shielding plates 81 to move, and the height of the rain shielding plates 81 can be adjusted;

the motor 73 is started through the switch 2, the motor 73 drives the rotary disc 71 to rotate through the rotating shaft 72, the rotary disc 71 drives the second sliding block 75 to rotate through the sliding rod 77, the second sliding block 75 slides in the circular sliding groove 76, the stability of the rotary disc 71 during rotation is ensured, the rotary disc 71 drives the detection column 9 to rotate, the dust sensor 10 detects dust in the air, the temperature and humidity detector 11 detects the temperature and the humidity in the air, the decibel detector 12 detects surrounding decibels, the data detected by the dust sensor 10, the temperature and humidity detector 11 and the decibel detector 12 are transmitted to the processor 5, the processor 5 processes the data, the data are transmitted to a remote receiving end through the signal transmitter 6, and the remote receiving end judges the dust density at the building construction site, the temperature and the humidity of the air and the noise degree according to the transmitted;

when detecting post 9 and rotating, cleaning brush 135 contacts with detecting post 9, clears up the dust on detecting post 9, and under the elastic force effect of spring, cleaning brush 135 can contact with detecting post 9 all the time, and is effectual to the cleanness that detects post 9.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims

1. The utility model provides a building engineering monitoring management device based on transmission of thing networking, includes pedestal (1), its characterized in that: pedestal (1) bottom center department rotates to be connected with and supports fixed subassembly (4), be equipped with rotating assembly (7) on pedestal (1), rotating assembly (7) top is connected with and detects post (9), it is equipped with dust sensor (10), temperature and humidity detector (11) and decibel detector (12) to go up to last down in proper order to detect post (9), pedestal (1) top right side fixedly connected with connecting block (14), clean subassembly (13) of fixedly connected with on connecting block (14), clean subassembly (13) contact with detection post (9), pedestal (1) top is equipped with treater (5) and signal transmitter (6), pedestal (1) top is equipped with hides rain subassembly (8).

2. The building engineering monitoring and management device based on transmission of the internet of things according to claim 1, wherein: support fixed subassembly (4) including fixed barrel post (41) and spliced pole (42), the spiro union between spliced pole (42) and fixed barrel post (41), spliced pole (42) top is rotated with pedestal (1) bottom and is connected, be equipped with two sets of wedge (43) in fixed barrel post (41), spliced pole (42) bottom contacts with wedge (43) inclined plane, and is two sets of equal fixedly connected with dead lever (44) in wedge (43) outside, and is two sets of dead lever (44) outer end is the taper.

3. The building engineering monitoring and management device based on transmission of the internet of things according to the claims 1-2, wherein: two sets of equal fixedly connected with bracing piece (47) in wedge (43) bottom, the first slider (46) of bracing piece (47) bottom fixedly connected with, first slider (46) and fixed cylinder post (41) inner wall sliding contact, bracing piece (47) are connected with fixed cylinder post (41) inner wall through first spring (45).

4. The building engineering monitoring and management device based on transmission of the internet of things according to claim 1, wherein: the rotating assembly (7) comprises a rotating disc (71) and a motor (73), a placing groove (78) is formed in the pedestal (1), the rotating disc (71) is placed in the placing groove (78), a groove (74) is formed in the bottom of the placing groove (78), the motor (73) is placed in the groove (74), the motor (73) is connected with the center of the bottom of the rotating disc (71) through a rotating shaft (72), and the rotating disc (71) is fixedly connected with the bottom of the detection column (9).

5. The building engineering monitoring and management device based on transmission of the internet of things according to claim 4, wherein: circular spout (76) are opened to standing groove (78) bottom outside, carousel (71) bottom fixedly connected with slide bar (77), slide bar (77) bottom fixedly connected with second slider (75), second slider (75) and circular spout (76) inner wall sliding contact.

6. The building engineering monitoring and management device based on transmission of the internet of things according to claim 4, wherein: pedestal (1) bottom is equipped with battery (3) and switch (2), electric connection between battery (3), switch (2) and motor (73), electric connection between battery (3), dust sensor (10), moisture detector (11), decibel detector (12), treater (5) and signal transmitter (6).

7. The building engineering monitoring and management device based on transmission of the internet of things according to claim 1, wherein: clean subassembly (13) include shell (131), shell (131) inner wall fixedly connected with second spring (132), second spring (132) tip butt has even board (133), be connected with connecting rod (134) on even board (133), shell (131) is passed in connecting rod (134), connecting rod (134) outer end fixedly connected with cleaning brush (135), the brush hair of cleaning brush (135) contacts with detection post (9).

8. The building engineering monitoring and management device based on transmission of the internet of things according to claim 1, wherein: hide rain subassembly (8) including telescopic link (82) and dash board (81), telescopic link (82) are including outer pole (821), outer pole (821) and pedestal (1) top fixed connection, it has interior pole (822) to peg graft in outer pole (821), interior pole (822) top and dash board (81) fixed connection, it has multiunit thread groove (823) to open on interior pole (822), it has bolt (824) to pass on outer pole (821), bolt (824) cooperate with thread groove (823).

9. The building engineering monitoring and management device based on transmission of the internet of things according to claim 8, wherein: the rain shielding plate (81) is an arc-shaped plate.

10. A management method of a building engineering monitoring and management device based on transmission of the Internet of things is characterized by comprising the following steps:

s1, when the device is used, the device is placed at a building construction position, a foundation pit is dug at the construction position, the fixed cylindrical column (41) is placed in the foundation pit and then buried through soil, the connecting column (42) is rotated, the connecting column (42) moves towards the inside of the fixed cylindrical column (41), the connecting column (42) presses the wedge-shaped block (43), the wedge-shaped block (43) moves towards the outside, the wedge-shaped block (43) drives the fixing rod (44) to move, and the fixing rod (44) is inserted into the soil to fix the fixed cylindrical column (41);

s2, loosening the bolts (824), adjusting the height of the telescopic rod (82), driving the rain shielding plate (81) to move by the telescopic rod (82), and adjusting the height of the rain shielding plate (81);

s3, a motor (73) is started through a switch (2), the motor (73) drives a turntable (71) to rotate through a rotating shaft (72), the turntable (71) drives a second sliding block (75) to rotate through a sliding rod (77), the second sliding block (75) slides in a circular sliding groove (76), stability of the turntable (71) during rotation is guaranteed, the turntable (71) drives a detection column (9) to rotate, a dust sensor (10) detects dust in the air, a temperature and humidity detector (11) detects temperature and humidity in the air, a decibel detector (12) detects surrounding decibels, data detected by the dust sensor (10), the temperature and humidity detector (11) and the decibel detector (12) are transmitted to a processor (5), the processor (5) processes the data, the data are transmitted to a remote receiving end through a signal transmitter (6), and the remote receiving end judges dust density, moisture density and humidity of a building construction position according to the transmitted data, The temperature, humidity and noise level of the air;

s4, when the detection column (9) rotates, the cleaning brush (135) contacts with the detection column (9) to clean dust on the detection column (9), and under the action of the elastic force of the spring, the cleaning brush (135) can always contact with the detection column (9), so that the cleaning effect on the detection column (9) is good.