CN113654597A

CN113654597A - Multifunctional Internet of things sensor

Info

Publication number: CN113654597A
Application number: CN202111122938.7A
Authority: CN
Inventors: 陈欣; 陈林; 陈弘毅
Original assignee: Shenzhen Junjia Technology Development Co ltd
Current assignee: Shenzhen Junjia Technology Development Co ltd
Priority date: 2021-09-24
Filing date: 2021-09-24
Publication date: 2021-11-16
Anticipated expiration: 2041-09-24
Also published as: CN113654597B

Abstract

The invention discloses a multifunctional sensor of the Internet of things, which relates to the technical field of sensors, and adopts the technical scheme that: the multifunctional Internet of things sensor comprises a base device, a first probe device, a second probe device, a top cover device and a screwing device, wherein one side of the base device is fixedly connected with a first extension plate, a first limiting hole is formed in the outer surface of the top of the first extension plate, an L-shaped inserting plate is arranged at the top of one side of the base device, a fixing screw is arranged on the inner wall of the first limiting hole, one side of the first probe device is fixedly connected with a first conducting block, and the side edge of one side of the first probe device is provided with a first L-shaped clamping plate; when being suitable for outdoor use and maintenance, the novel outdoor water heater has the advantages of convenience in quick assembly and disassembly, strong practicability and low cost.

Description

Multifunctional Internet of things sensor

Technical Field

The invention relates to the technical field of sensors, in particular to a multifunctional sensor of the Internet of things.

Background

The internet of things is also called as a sensor network, and the definition of the internet of things is as follows: the intelligent network system is characterized in that any article is connected with the Internet according to an agreed protocol through information sensing equipment such as radio frequency identification, an infrared sensor, a global positioning system and a laser scanner, so that information exchange and communication are performed, and intelligent identification, positioning, tracking, monitoring and management are realized.

The prior art has the following defects: the air monitoring sensor in the existing Internet of things is single in function, the probe is inconvenient to replace to monitor other air contents, the air monitoring sensor does not have a waterproof function, when the air monitoring sensor is used outdoors, the air monitoring sensor is easily permeated by rainwater, short circuits of internal electronic devices are caused, damage is caused, the air monitoring sensor is inconvenient to detach when maintenance is needed, the maintenance time is long, and the air monitoring sensor is not suitable for being used in an outdoor environment.

Therefore, the invention is necessary to invent a multifunctional internet of things sensor.

Disclosure of Invention

Therefore, the invention provides a multifunctional sensor of the internet of things, which is provided with a base device, a first probe device, a second probe device, a top cover device and a screwing device, wherein the inner wall of a gap of an L-shaped plug board is clamped with the part, which is not provided with a groove, of a board extended from two sides of the top cover device, a fixing screw is used for fixing the first limiting hole and the second limiting hole, the first L-shaped clamp board and the second L-shaped clamp board are clamped with the screwing groove to assemble and disassemble the first probe device and the second probe device, a first water leakage hole and a second water leakage hole are formed in the side waterproof board, the partition board, the top of the side waterproof board, a first water leakage hole and a third water leakage hole which are formed in the bottom of the base device, and a second water leakage hole and a third water leakage hole which are connected with a water leakage pipe are used for water leakage, so as to solve the problems in the background technology.

In order to achieve the above purpose, the invention provides the following technical scheme: a multifunctional Internet of things sensor comprises the multifunctional Internet of things sensor, and further comprises a base device, a first probe device, a second probe device, a top cover device and a screwing device, wherein one side of the base device is fixedly connected with a first extension plate, a first limiting hole is formed in the outer surface of the top of the first extension plate, an L-shaped plug board is installed at the top of one side of the base device, and a fixing screw is arranged on the inner wall of the first limiting hole;

one side of the first probe device is fixedly connected with a first conducting block, one side edge of one side of the first probe device is provided with a first L-shaped clamping plate, one side of the second probe device is fixedly connected with a second conducting block, and one side edge of the second probe device is provided with a second L-shaped clamping plate;

the water leakage prevention device is characterized in that a first conductive spring base is installed on one side of the top of the screwing device, a conductive spring is installed on one side of the conductive spring base, a second conductive spring base is installed on one end of the conductive spring, a side waterproof board is installed on the inner wall of one side of the base device, and a second water leakage hole is formed in the outer surface of the top of the side waterproof board.

Preferably, control center, air detector, battery and power source are installed to probe unit bottom inner wall, display screen and anemoscope are installed at top cover device top, signal transceiver is installed to base device one side.

Preferably, the base device bottom fixed connection end arris strip, base device sets up the hole that leaks one in the bottom, the cushion is installed to end arris strip bottom, base device one side surface mounting has the direction suggestion piece, the quantity of direction suggestion piece sets up to two sets of, two sets of direction suggestion piece sets up respectively at the top and one side in cover groove.

Preferably, the slot is seted up at top cap device bottom edge, spacing is installed to top cap device bottom, spacing sand grip of spacing bottom fixed connection, spacing sand grip and inserted rail are at same vertical water flat line, spacing sand grip equals with the width of inserted rail.

Preferably, one side of the top cover device is fixedly connected with a second extension plate, the outer surface of the top of the second extension plate is provided with a second limiting hole, the bottom of the side face of the top cover device and the top of the side face of the base device are uniformly provided with sleeve grooves, and the inner wall of each sleeve groove is provided with a first probe device and a second probe device.

Preferably, the inner wall of the bottom of the base device is provided with a partition plate, one side of the partition plate is fixedly connected with the rotary connection device, the outer surface of the top of the partition plate is provided with a third water leakage hole, the bottoms of the third water leakage hole and the second water leakage hole are respectively and fixedly connected with water leakage pipes, and the number of the water leakage pipes is set to be multiple groups.

Preferably, the top and the bottom of the rotary connection device are respectively provided with a rotary connection groove, one side of the rotary connection device is provided with a conductive base, one side of the conductive base is fixedly connected with the partition plate, and the width of the rotary connection groove is greater than the width of the L-shaped clamping plate I and the L-shaped clamping plate II.

Preferably, connect device top one side soon and install electrically conductive spring base one, electrically conductive spring base installs electrically conductive spring one side, electrically conductive spring base two is installed to electrically conductive spring one end, the side waterproof board is installed to base device one side inner wall, the hole of leaking two is seted up to side waterproof board top surface.

Preferably, the first water leakage holes are uniformly formed in the bottom of the base device and are fixedly connected with the water leakage pipes respectively, the sleeve plate is mounted at the top of one side of the base device, and the insertion rails are formed in the outer surface of the top of the sleeve plate.

Preferably, the number of the water leakage pipes is set to be a plurality of groups, the number of the sleeve plates and the number of the inserting rails are set to be two groups, and the two groups of the sleeve plates and the inserting rails are respectively arranged at the tops of the two sides of the base device.

The invention has the beneficial effects that:

1. the sleeve groove at one side of the bottom of the top cover device is aligned with the upper side of the first probe device and the second probe device, the slots arranged at two sides are aligned with the L-shaped inserting plate, because the length of the L-shaped inserting plate is less than the distance between the inner sides of two ends of the slot, the slot is aligned with the L-shaped inserting plate, the top cover device is pressed down, the L-shaped inserting plate is arranged in the middle of the slot until the top cover device and the base device are closed, the limiting convex strips arranged at the bottoms of the limiting strips at the bottom of the top cover device are arranged in the sleeve plate and the inserting rail to limit left and right, then the top cover device is pushed in the opposite direction of the direction pointed by the L shape of the L-shaped inserting plate, the bottom gap of the L-shaped inserting plate enters the non-grooved part of the plates extended from two sides of the top cover device at two ends of the slot until the limiting hole I is aligned with the limiting hole II, and the inner wall of the gap of the L-shaped inserting plate is clamped with the non-grooved part of the plates extended from two sides of the top cover device, at the moment, the top cover device is not pushed any more, and the fixing screws are inserted into the first limiting hole and the second limiting hole and are rotationally fixed, so that the effect of quick installation is achieved;

2. the fixing screws are rotationally drawn out from the first limiting hole and the second limiting hole which are formed in the outer surfaces of the first bottom extending plate and the second top extending plate, and then the top cover device is pushed towards the direction pointed by the L shape of the L-shaped inserting plate, so that the L-shaped inserting plate is not inserted into the inserting groove any more, the top cover device is lifted upwards at the moment, and the top cover device is detached, and the maintenance is convenient;

3. the partition plate and the side waterproof plate on the inner wall of the bottom of the base device are used for containing rainwater, the partition plate and the top of the side waterproof plate are similar to a U shape similar to a sewer, the top surface of the partition plate and the top of the side waterproof plate are provided with a second water leakage hole and a third water leakage hole, the rainwater is guided by the partition plate and the side waterproof plate, the water can also dissipate heat for the base device and the top cover device, flows into the water leakage pipe at the bottom through the second water leakage hole and the third water leakage hole and finally flows out of the base device through the first water leakage hole, the water leakage pipe similar to the nature of the bearing column is made of aluminum alloy, the rigidity of the aluminum alloy is high due to the good heat conduction effect of the aluminum alloy, the rigidity of the multifunctional internet-of-things sensor can be enhanced, hot air generated by the operation of an electronic element inside the multifunctional internet-of-things sensor can be fully contacted with the water leakage pipe to absorb part of the hot air, and the rainwater continuously flows through the water leakage pipe, therefore, when raining, rainwater can be prevented from entering electronic elements on the inner wall of the bottom of the base device to cause short circuit, heat can be dissipated, and the waterproofness of the multifunctional internet of things sensor is improved;

4. the first L-shaped clamping plate and the second L-shaped clamping plate at one ends of the first probe device and the second probe device are inserted into the sleeve groove in an aligning mode, the first probe device and the second probe device are inserted into the sleeve groove in an abutting mode and rotate, the first probe device and the second probe device are rotated, when the first probe device and the second probe device at one ends of the first probe device and the second probe device rotate to reach the positions of the spin-on grooves, gaps of the first L-shaped clamping plate and the second L-shaped clamping plate are clamped on the inner wall of the spin-on device due to the fact that the width of the spin-on grooves is larger than the width of the first L-shaped clamping plate and the width of the second L-shaped clamping plate, the first L-shaped clamping plate and the second L-shaped clamping plate slide into the spin-on grooves at the moment, the first probe device and the second probe device are fixed to complete installation, the direction prompting block is used for providing reference when the first probe device and the second probe device rotate by 90 degrees, and the first probe device and the second probe device rotate by 90 degrees, the farther the distance between the L-shaped clamping plate I and the L-shaped clamping plate II and the rotary connection groove is, the higher the stability is, the conductive base is used for connecting and conducting the partition plate and the rotary connection device, the conductive spring base I and the conductive spring base II are used for fixing the conductive spring and conducting electricity, the elastic force of the conductive spring is used for enabling the inner walls of the L-shaped clamping plate I and the L-shaped clamping plate II on one sides of the probe device I and the probe device II to be in friction with the rotary connection device, the stability of clamping connection between the L-shaped clamping plate I and the L-shaped clamping plate II and the rotary connection device is improved, and the conductive block II is always in contact with the conductive spring base II and conducts electricity;

5. the original first probe device and the original second probe device are respectively pulled out while rotating in the sleeving groove, when the first L-shaped clamping plate and the second L-shaped clamping plate are not clamped on the rotary connection device any more, the first probe device and the second probe device can be quickly pulled out from the sleeving groove, and the first probe device and the second probe device are detached.

Drawings

Fig. 1 is a schematic diagram of a split structure of a multifunctional internet of things sensor provided by the invention;

fig. 2 is a schematic top view of a multifunctional internet of things sensor provided by the invention;

FIG. 3 is a schematic top view of a base device according to the present invention;

FIG. 4 is an enlarged view of area A provided by the present invention;

FIG. 5 is a schematic bottom view of the base device of the present invention;

FIG. 6 is a schematic bottom view of the cover assembly of the present invention;

FIG. 7 is a schematic view of a probe apparatus according to the present invention;

FIG. 8 is a schematic structural view of a second probe apparatus provided in the present invention;

FIG. 9 is a schematic structural view of a screw connection device according to the present invention;

fig. 10 is a schematic view of a disassembly structure of the screwing device provided by the present invention.

In the figure: the system comprises a multifunctional Internet of things sensor 100, a control center 101, an air detector 102, a storage battery 103, a power interface 104, a display screen 107, a base device 110, a first extension plate 111, a first limiting hole 112, an L-shaped inserting plate 113, a bottom rib 114, a first water leakage hole 115, a fixing screw 116, a signal transceiver 117, a cushion block 118, a direction prompting block 119, a first probe device 120, a first conducting block 121, a first L-shaped clamping plate 122, a second probe device 130, a second conducting block 131 and a second L-shaped clamping plate 132, the top cover device 200, the slot 201, the limit strip 202, the limit convex strip 203, the second extension plate 204, the second limit hole 205, the sleeve groove 206, the anemoscope 207, the screwing device 400, the screwing groove 401, the conductive base 402, the first conductive spring base 403, the conductive spring 404, the second conductive spring base 405, the side waterproof plate 500, the second water leakage hole 501, the partition plate 510, the third water leakage hole 511, the water leakage pipe 512, the sleeve plate 600 and the insert rail 601.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

Referring to fig. 1 to 10, in order to achieve the above object, the invention provides the following technical solutions: a multifunctional sensor of the Internet of things comprises a multifunctional sensor of the Internet of things 100, wherein the multifunctional sensor of the Internet of things 100 further comprises a base device 110, a first probe device 120, a second probe device 130, a top cover device 200 and a screwing device 400, one side of the base device 110 is fixedly connected with a first extension plate 111, a first limiting hole 112 is formed in the outer surface of the top of the first extension plate 111, an L-shaped inserting plate 113 is installed at the top of one side of the base device 110, and a fixing screw 116 is arranged on the inner wall of the first limiting hole 112;

one side of the first probe device 120 is fixedly connected with a first conducting block 121, the edge of one side of the first probe device 120 is provided with a first L-shaped clamping plate 122, one side of the second probe device 130 is fixedly connected with a second conducting block 131, and the edge of one side of the second probe device 130 is provided with a second L-shaped clamping plate 132;

one side of the top of the screwing device 400 is provided with a first conductive spring base 403, one side of the first conductive spring base 403 is provided with a conductive spring 404, one end of the conductive spring 404 is provided with a second conductive spring base 405, the inner wall of one side of the base device 110 is provided with a side waterproof board 500, and the outer surface of the top of the side waterproof board 500 is provided with a second water leakage hole 501.

Further, a control center 101, an air detector 102, a storage battery 103 and a power interface 104 are installed on the inner wall of the bottom of the first probe device 120, a display screen 107 and a wind direction meter 207 are installed on the top of the top cover device 200, a signal transceiver 117 is installed on one side of the base device 110, specifically, the multifunctional internet of things sensor 100 is controlled through the control center 101, the storage battery 103 supplies power, the signal transceiver 117 performs real-time monitoring data transmission, the display screen 107 is used for performing mode selection and content display through touch control, the first probe device 120 and the second probe device 130 are two groups of probes with different models, but the shells of the first probe device 120 and the second probe device 130 are the same, the wind direction meter 207 is used for monitoring wind speed and direction data, the air detector 102 is used for monitoring various parameters such as temperature and humidity in the air, and the power interface 104 is used for charging the storage battery 103.

Further, the bottom of the base device 110 is fixedly connected with a bottom ridge 114, the bottom of the base device 110 is provided with a first water leakage hole 115, the bottom of the bottom ridge 114 is provided with a cushion block 118, the outer surface of one side of the base device 110 is provided with direction prompting blocks 119, the number of the direction prompting blocks 119 is two, the two groups of the direction prompting blocks 119 are respectively arranged at the top and one side of the sleeve groove 206, the edge of the bottom of the top cover device 200 is provided with a slot 201, the bottom of the top cover device 200 is provided with a limiting strip 202, the bottom of the limiting strip 202 is fixedly connected with a limiting convex strip 203, the limiting convex strip 203 and the inserted rail 601 are arranged at the same vertical horizontal line, the width of the limiting convex strip 203 is equal to that of the inserted rail 601, one side of the top cover device 200 is fixedly connected with a second extension plate 204, the outer surface of the top of the extension plate 204 is provided with a second limiting hole 205, the bottom of the side of the top cover device 200 and the top of the side of the base device 110 are uniformly provided with sleeve grooves 206, the inner wall of the sleeve groove 206 is provided with a first probe device 120 and a second probe device 130, specifically, when the multifunctional internet of things sensor 100 is installed, firstly, the sleeve groove 206 on one side of the bottom of the top cover device 200 is aligned above the first probe device 120 and the second probe device 130, the slots 201 formed on two sides are aligned with the L-shaped insertion plate 113, because the length of the L-shaped insertion plate 113 is smaller than the distance between the inner sides of two ends of the slot 201, the top cover device 200 is pressed down by aligning the slot 201 with the L-shaped insertion plate 113, the L-shaped insertion plate 113 should be in the middle of the slot 201 until the top cover device 200 and the base device 110 are closed, at this time, the limiting convex strip 203 installed at the bottom of the limiting strip 202 at the bottom of the top cover device 200 should be in the sleeve plate 600 and the insertion rail 601 for limiting left and right, and then the top cover device 200 is pushed in the direction opposite to the direction indicated by the L shape of the L-shaped insertion plate 113, so that the bottom gap of the L-shaped insertion plate 113 enters two sides of the top cover device 200 at two ends of the slot 201 to extend out, and the unopened gaps are not opened The groove part is formed until the first limiting hole 112 is aligned with the second limiting hole 205, the inner wall of the notch of the L-shaped inserting plate 113 is clamped with the part, which is not grooved, of the extended plate at the two sides of the top cover device 200, at the moment, the top cover device 200 is not pushed any more, and the fixing screw 116 is inserted into the first limiting hole 112 and the second limiting hole 205 and is fixed in a rotating mode, so that installation is completed;

when the multifunctional internet of things sensor 100 needs to be disassembled for maintenance, because the fixing screw 116 is in threaded connection with the first limiting hole 112 and the second limiting hole 205, the fixing screw 116 is rotationally drawn out from the first limiting hole 112 and the second limiting hole 205 which are formed in the outer surfaces of the first extension plate 111 at the bottom and the second extension plate 204 at the top, and then the top cover device 200 is pushed towards the direction pointed by the L shape of the L-shaped inserting plate 113, so that the L-shaped inserting plate 113 is not inserted into the slot 201 any more, the top cover device 200 is lifted upwards at the moment, and the top cover device 200 is disassembled, and maintenance is facilitated.

Further, a partition plate 510 is installed on the inner wall of the bottom of the base device 110, a screwing device 400 is fixedly connected to one side of the partition plate 510, a third water leakage hole 511 is formed in the outer surface of the top of the partition plate 510, the bottoms of the third water leakage hole 511 and the second water leakage hole 501 are respectively and fixedly connected to a water leakage pipe 512, the number of the water leakage pipes 512 is set to be multiple, a side waterproof plate 500 is installed on the inner wall of one side of the base device 110, a second water leakage hole 501 is formed in the outer surface of the top of the side waterproof plate 500, the number of the water leakage pipes 512 is set to be multiple, two sets of the sheathing plate 600 and the insertion rail 601 are respectively installed on the tops of two sides of the base device 110, a first water leakage hole 115 is uniformly formed in the bottom of the base device 110, and a first water leakage hole 115 is respectively and fixedly connected to the water leakage pipe 512, in particular, when rainwater enters the multifunctional sensor 100 through the joint between the top cover device 200 and the base device 110 of the multifunctional sensor 100, at this time, the partition plate 510 and the side waterproof plate 500 on the inner wall of the bottom of the base device 110 are used for containing rainwater, the top of the partition plate 510 and the side waterproof plate 500 are similar to a U shape similar to a sewer, the top surface of the partition plate 510 and the side waterproof plate 500 is provided with a water leakage hole II 501 and a water leakage hole III 511, the rainwater is guided by the partition plate 510 and the side waterproof plate 500, the water can also dissipate heat for the base device 110 and the top cover device 200, the rainwater flows into the water leakage pipe 512 at the bottom through the water leakage hole II 501 and the water leakage hole III 511, and finally flows out of the base device 110 through the water leakage hole I115, the water leakage pipe 512 similar to the bearing column property is made of aluminum alloy, the aluminum alloy has good heat conduction effect and high hardness, not only can the rigidity of the multifunctional internet of things sensor 100 be enhanced, but also the hot air generated by the operation of electronic components inside the multifunctional internet of the internet of things sensor 100 can be in full contact with the water leakage pipe 512, the hot air is partially absorbed, and the rainwater continuously flows through the water leakage pipe 512, so that when raining, the rainwater can be prevented from entering electronic elements on the inner wall of the bottom of the base device 110 to cause short circuit, heat can be dissipated, and the waterproofness of the multifunctional internet of things sensor 100 is improved.

Furthermore, the top and the bottom of the screwing device 400 are respectively provided with a screwing groove 401, one side of the screwing device 400 is provided with a conductive base 402, one side of the conductive base 402 is fixedly connected with a partition 510, the width of the screwing groove 401 is larger than the width of the first L-shaped clamping plate 122 and the second L-shaped clamping plate 132, one side of the top of the screwing device 400 is provided with a first conductive spring base 403, one side of the first conductive spring base 403 is provided with a conductive spring 404, one end of the conductive spring 404 is provided with a second conductive spring base 405, when the first probe device 120 and the second probe device 130 need to be replaced by other monitoring probes, the original first probe device 120 and the original second probe device 130 are respectively sleeved in the groove 206 and are rotated and pulled out at the same time, when the first L-shaped clamping plate 122 and the second L-shaped clamping plate 132 are not clamped on the screwing device 400, the first probe device 120 and the second probe device 130 can be quickly pulled out from the groove 206, detaching the first probe device 120 and the second probe device 130;

when other probes are installed, the ends of the first L-shaped clamping plate 122 and the second L-shaped clamping plate 132 at one ends of the first probe device 120 and the second probe device 130 are aligned with the sleeve groove 206 to be inserted, the screwing device 400 is inserted to abut against the end, the first probe device 120 and the second probe device 130 are rotated, the rotation is kept, when the first probe device 120 and the second L-shaped clamping plate 132 at one end of the second probe device 130 rotate to reach the position of the screwing groove 401, because the width of the screwing groove 401 is larger than that of the first L-shaped clamping plate 122 and the second L-shaped clamping plate 132, the first L-shaped clamping plate 122 and the second L-shaped clamping plate 132 slide into the screwing groove 401, the first probe device 120 and the second probe device 130 are rotated to 90 degrees again, the notches of the first L-shaped clamping plate 122 and the second L-shaped clamping plate 132 are clamped on the inner wall of the screwing device 400, and the first probe device 120 and the second probe device 130 are fixed to finish the installation, the direction prompting block 119 is used for providing reference when the first probe device 120 and the second probe device 130 rotate by 90 degrees, after the first probe device 120 and the second probe device 130 rotate by 90 degrees, the farther the distances between the first L-shaped clamping plate 122 and the second L-shaped clamping plate 132 and the screwing groove 401 are, the higher the stability is, the conductive base 402 is used for connecting and conducting the partition 510 and the screwing device 400, the first conductive spring base 403 and the second conductive spring base 405 are used for fixing and conducting the conductive spring 404, the elastic force of the conductive spring 404 is used for enabling the inner walls of the first L-shaped clamping plate 122 and the second L-shaped clamping plate 132 on one sides of the first probe device 120 and the second probe device 130 to be in friction with the screwing device 400, the stability of the clamping between the first L-shaped clamping plate 122 and the second L-shaped clamping plate 132 and the screwing device 400 is improved, and the second conductive block 131 is always in contact with the second conductive spring base 405 and conducts electricity.

The using process of the invention is as follows: when workers in the field need to disassemble the multifunctional internet of things sensor 100 for maintenance, because the fixing screw 116 is in threaded connection with the first limiting hole 112 and the second limiting hole 205, the fixing screw 116 is rotationally drawn out from the first limiting hole 112 and the second limiting hole 205 which are formed in the outer surfaces of the first extension plate 111 at the bottom and the second extension plate 204 at the top, and then the top cover device 200 is pushed towards the direction pointed by the L shape of the L-shaped inserting plate 113, so that the L-shaped inserting plate 113 is not inserted into the slot 201 any more, the top cover device 200 is lifted upwards at the moment, and the top cover device 200 is disassembled, and maintenance is facilitated;

when rainwater enters the multifunctional internet-of-things sensor 100 through a joint between the top cover device 200 and the base device 110 of the multifunctional internet-of-things sensor 100, the partition plate 510 and the side waterproof plate 500 on the inner wall of the bottom of the base device 110 are used for containing rainwater, the top parts of the partition plate 510 and the side waterproof plate 500 are similar to a U shape similar to a sewer, and the top surface is provided with a second water leakage hole 501 and a third water leakage hole 511, at this time, the rainwater is guided through the partition plate 510 and the side waterproof plate 500, the water can also dissipate heat for the base device 110 and the top cover device 200, flows into the water leakage pipe 512 at the bottom through the second water leakage hole 501 and the third water leakage hole 511, and finally flows out of the base device 110 through the first water leakage hole 115, because the water leakage pipe 512 similar to the property of the bearing column is made of aluminum alloy, because the aluminum alloy has a good heat conduction effect and high hardness, the rigidity of the multifunctional internet-of-things sensor 100 can be enhanced, hot air generated by the operation of electronic components in the multifunctional internet-of-things sensor 100 can fully contact with the water leakage pipe 512 to absorb a part of the hot air, and the hot air flows through the water leakage pipe 512 along with continuous rainwater, so that when raining, the rainwater can be prevented from entering the electronic components on the inner wall of the bottom of the base device 110 to cause short circuit, and heat can be dissipated;

when the first probe device 120 and the second probe device 130 need to be replaced by other monitoring probes, the original first probe device 120 and the original second probe device 130 are sleeved in the groove 206 and are rotated and pulled out at the same time, when the L-shaped clamping plate 122 and the L-shaped clamping plate 132 are not clamped on the rotary connection device 400, the first probe device 120 and the second probe device 130 can be quickly pulled out of the groove 206, and the first probe device 120 and the second probe device 130 are detached;

The above is only a preferred embodiment of the present invention, and any person skilled in the art may modify the present invention or modify it into an equivalent technical solution by using the technical solution described above. Therefore, any simple modifications or equivalent substitutions made in accordance with the technical solution of the present invention are within the scope of the claims of the present invention.

Claims

1. The utility model provides a multi-functional thing networking sensor, includes multi-functional thing networking sensor (100), multi-functional thing networking sensor (100) still include base device (110), probe device (120), probe device two (130), top cap device (200) and connect device (400) soon, its characterized in that: one side of the base device (110) is fixedly connected with a first extension plate (111), a first limiting hole (112) is formed in the outer surface of the top of the first extension plate (111), an L-shaped inserting plate (113) is installed at the top of one side of the base device (110), and a fixing screw (116) is arranged on the inner wall of the first limiting hole (112);

one side of the first probe device (120) is fixedly connected with a first conducting block (121), the edge of one side of the first probe device (120) is provided with a first L-shaped clamping plate (122), one side of the second probe device (130) is fixedly connected with a second conducting block (131), and the edge of one side of the second probe device (130) is provided with a second L-shaped clamping plate (132);

connect device (400) top one side soon and install electrically conductive spring base (403), electrically conductive spring (404) are installed to electrically conductive spring base (403) one side, electrically conductive spring base two (405) are installed to electrically conductive spring (404) one end, side waterproof board (500) are installed to base device (110) one side inner wall, side waterproof board (500) top surface is seted up and is leaked hole two (501).

2. The multifunctional internet of things sensor as claimed in claim 1, wherein: control center (101), air detector (102), battery (103) and power source (104) are installed to probe device (120) bottom inner wall, display screen (107) and anemoscope (207) are installed at top cover device (200) top, signal transceiver (117) are installed to base device (110) one side.

3. The multifunctional internet of things sensor as claimed in claim 2, wherein: base device (110) bottom fixed connection end rib (114), base device (110) bottom is seted up and is leaked water hole one (115), cushion (118) are installed to end rib (114) bottom, base device (110) one side surface mounting has direction suggestion piece (119), the quantity of direction suggestion piece (119) sets up to two sets ofly, two sets of direction suggestion piece (119) set up top and one side at trepanning (206) respectively.

4. The multifunctional internet of things sensor as claimed in claim 1, wherein: slot (201) are seted up to top cap device (200) bottom edge, spacing (202) are installed to top cap device (200) bottom, spacing sand grip (203) of spacing (202) bottom fixed connection, spacing sand grip (203) are at same vertical water flat line with inserted rail (601), spacing sand grip (203) are equal with the width of inserted rail (601).

5. The multifunctional internet of things sensor as claimed in claim 1, wherein: one side of the top cover device (200) is fixedly connected with a second extension plate (204), the outer surface of the top of the second extension plate (204) is provided with a second limiting hole (205), the bottom of the side face of the top cover device (200) and the top of the side face of the base device (110) are uniformly provided with a sleeve groove (206), and the inner wall of the sleeve groove (206) is provided with a first probe device (120) and a second probe device (130).

6. The multifunctional internet of things sensor as claimed in claim 1, wherein: the base device (110) bottom inner wall is installed baffle (510), baffle (510) one side fixed connection connects device (400) soon, three (511) of the hole that leaks are seted up to baffle (510) top surface, three (511) of the hole that leaks and two (501) bottoms of the hole that leaks fixed connection water leakage pipe (512) respectively, the quantity of water leakage pipe (512) sets up to the multiunit.

7. The multifunctional internet of things sensor as claimed in claim 1, wherein: the top and the bottom of the rotary connection device (400) are respectively provided with a rotary connection groove (401), one side of the rotary connection device (400) is provided with a conductive base (402), one side of the conductive base (402) is fixedly connected with a partition plate (510), and the width of the rotary connection groove (401) is larger than the width of the L-shaped clamping plate I (122) and the L-shaped clamping plate II (132).

8. The multifunctional internet of things sensor as claimed in claim 1, wherein: connect device (400) top one side soon and install electrically conductive spring base (403), electrically conductive spring (404) are installed to electrically conductive spring base (403) one side, electrically conductive spring base two (405) are installed to electrically conductive spring (404) one end, side waterproof board (500) are installed to base device (110) one side inner wall, side waterproof board (500) top surface is seted up and is leaked hole two (501).

9. The multifunctional internet of things sensor as claimed in claim 1, wherein: the water leakage hole I (115) is uniformly arranged at the bottom of the base device (110), the water leakage hole I (115) is fixedly connected with the water leakage pipe (512) respectively, a sleeve plate (600) is installed at the top of one side of the base device (110), and an inserting rail (601) is arranged on the outer surface of the top of the sleeve plate (600).

10. The multifunctional internet of things sensor as claimed in claim 9, wherein: the quantity of water leakage pipe (512) sets up to the multiunit, the quantity of lagging (600) and inserted rail (601) sets up to two sets ofly, two sets of lagging (600) and inserted rail (601) are installed respectively at base device (110) both sides top.