CN217543387U

CN217543387U - Radar wave water and soil loss automatic monitoring device

Info

Publication number: CN217543387U
Application number: CN202220738597.XU
Authority: CN
Inventors: 鞠俊杰; 赵方莹; 柳斌; 巩萧; 钱坤洁
Original assignee: Jiangsu Yunuo Electronic Technology Co ltd
Current assignee: Jiangsu Yunuo Electronic Technology Co ltd
Priority date: 2022-03-31
Filing date: 2022-03-31
Publication date: 2022-10-04
Anticipated expiration: 2032-03-31

Abstract

The utility model discloses an automatic monitoring device for radar wave water and soil loss, which comprises a sealed box body, wherein the bottom of the sealed box body is provided with a fixed rod; the sealing box is characterized in that a sleeve is transversely installed on the left side wall of the upper end in the sealing box body, the sleeve extends towards the right side and is arranged in a suspending mode, a loop bar is correspondingly installed in the sleeve, the loop bar can be unfolded or contracted towards the right side in the sleeve, a radar wave emitting assembly is further installed at the right end of the loop bar, a sealing plate is further installed at the right end of the loop bar, and a sealing groove corresponding to the sealing plate is formed in the right side wall of the sealing box body. Sealed box is sealed the setting in this device, only when measuring, just can stretch out radar wave emission subassembly, and all the other times are sealed, consequently have better leakproofness and waterproof nature, under the outdoor bad weather's the condition, equipment can not destroy, soak etc. rational in infrastructure.

Description

Radar wave water and soil loss automatic monitoring device

Technical Field

The utility model relates to the technical field of water and soil monitoring, in particular to an automatic monitoring device for water and soil loss by radar waves.

Background

In the prior art, most of water and soil loss monitoring equipment adopts simulation for monitoring, and the simulated equipment inevitably has errors during monitoring; for example: publication (bulletin) no: CN211740958U discloses a simulation test device for monitoring soil erosion and water loss, in the technical scheme, the water spray of a faucet is used to simulate the rain scene for simulating the soil erosion and water loss, which is obviously different from the real outdoor situation, so the data of the simulation monitoring is not ideal.

The soil erosion monitoring device really installed outdoors needs to ensure the safety of the monitoring equipment on one hand, because the outdoor environment is severe and the monitoring is required after rain, the device can be frequently subjected to rain, and the requirements on the sealing property and the waterproofness of the whole device are high.

Moreover, even if the requirement of waterproofing or sealing performance is made, the natural monitoring conditions are usually damaged, for example, after the sealing box body is arranged, the sealing box body may block rainwater above the sealing box body, so that soil at the monitoring position is only affected by water flow and cannot be impacted by raindrops, and thus, the monitoring data is not accurate enough.

Therefore, in order to solve the above problems, an automatic monitoring device for water and soil loss by radar waves is needed, which has better sealing performance and more accurate monitoring data.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an automatic monitoring device for radar wave water and soil loss aiming at the defects of the prior art; the technical scheme is as follows:

an automatic monitoring device for radar wave water and soil loss comprises a sealed box body, wherein a fixed rod is arranged at the bottom of the sealed box body; a sleeve is transversely installed on the left side wall of the upper end in the sealing box body, the sleeve extends towards the right side and is arranged in a suspended mode, a loop bar is correspondingly installed in the sleeve, the loop bar can be unfolded or contracted towards the right side in the sleeve, a radar wave emitting assembly is further installed at the right end of the loop bar, a sealing plate is further installed at the right end of the loop bar, a sealing groove corresponding to the sealing plate is formed in the right side wall of the sealing box body, the size and the shape of the sealing groove are matched with those of the sealing plate, the size of the sealing groove is correspondingly set to be larger than those of the radar wave emitting assembly, when the whole loop bar moves towards the right side, the radar wave emitting assembly can be driven to penetrate through the sealing groove and extend out of the right side of the sealing box body, when the loop bar retracts towards the left side, the radar wave emitting assembly is correspondingly retracted into the sealing box body, and the sealing plate is embedded in the sealing groove; and a driving device for driving the loop bar to move is also arranged in the sealed box body.

Furthermore, the driving device comprises a fixed support arranged below the sleeve and a driving motor arranged at the end part of the fixed support, the lower end of the sleeve is also provided with an open groove, the lower end part of the loop bar is provided with a rack, a downward bulge of the rack is embedded in the open groove, the driving motor is correspondingly provided with a driving gear, and the driving gear is meshed with the rack from the lower part so as to drive the loop bar to move.

Furthermore, the fixed support is mounted on the left side wall of the sealed box body in a suspended mode, the driving motor is mounted at the right side end of the fixed support, and the driving motor is located below the right side of the sleeve.

Furthermore, a processor and a power supply are further arranged in the sealed box body, the processor is correspondingly connected with the driving motor and the radar wave transmitting assembly, and a wireless communication module is further arranged in the processor.

Further, the sealing plate and the sealing groove are both of circular structures, the vertical sections of the sealing plate and the sealing groove are of trapezoidal structures, the trapezoidal structures are narrow inside and wide outside, and the sealing plate can be embedded into the sealing groove when moving from outside to inside.

Furthermore, a rotary adjusting seat is further installed at the connecting position of the loop bar and the radar wave transmitting assembly, and the rotating angle of the radar wave transmitting assembly can be correspondingly adjusted.

Furthermore, the upper end of the sleeve is embedded with a ball.

Has the beneficial effects that: the utility model discloses following beneficial effect has:

(1) The sealing box body in the device is arranged in a sealing manner, only when in measurement, the radar wave transmitting assembly can be stretched out, and the other time is sealed, so that the device has better sealing property and waterproofness, can not be damaged, soaked and the like under the condition of outdoor severe weather, and has a reasonable structure; the monitoring accuracy cannot be influenced after the whole device is placed, the soil area on the right side of the sealed box body is monitored during monitoring, the installation position of the sealed box body cannot hinder raindrop impact, water flow impact and the like in the area, the monitoring is carried out under the real natural condition, the data is very accurate, the specific driving structure of the cutting blade on the lifting platform in the device is completed through the matching of the gear, the rack and the driving wheel, the synchronous cutting of all the cutting blades can be displayed, and the structure is reasonable;

(2) Install the loop bar with the sleeve in this device, install radar wave emission subassembly on the loop bar, set up the drive arrangement of loop bar again, can drive the loop bar and remove and stretch out radar wave emission subassembly outside and measure, overall structure is very reasonable, and still install the closing plate at the right side end of loop bar in this device, set up corresponding seal groove on the right side wall of sealed box, and the corresponding shape and the structure that sets up closing plate and seal groove, when radar wave emission part stretches out, closing plate and seal groove separation, and when retrieving, the closing plate clamps in the seal groove just in time, sealed whole box, structural design is comparatively ingenious, the leakproofness is strong, can not leak.

Drawings

FIG. 1 is a structural diagram of the present invention;

FIG. 2 is a schematic view of the radar wave transmitting assembly of FIG. 1 extending out of the sealed housing;

fig. 3 isbase:Sub>A sectional view taken along linebase:Sub>A-base:Sub>A of fig. 1.

Detailed Description

The present invention will be further clarified by the following embodiments with reference to the attached drawings, which are implemented on the premise of the technical solution of the present invention, and it should be understood that these embodiments are only used for illustrating the present invention and are not used for limiting the scope of the present invention.

As shown in fig. 1, 2 and 3, an automatic monitoring device for water and soil loss by radar waves comprises a sealed box body 1, wherein a fixing rod 2 is arranged at the bottom of the sealed box body 1; a sleeve 3 is transversely installed on the left side wall of the upper end inside the sealed box body 1, the sleeve 3 extends towards the right side and is arranged in a suspended mode, a loop bar 4 is correspondingly installed inside the sleeve 3, the loop bar 4 can be unfolded or contracted towards the right side inside the sleeve 3, a radar wave emitting assembly 5 is further installed at the right end of the loop bar 4, a sealing plate 6 is further installed at the right end of the loop bar 4, a sealing groove 7 corresponding to the sealing plate 6 is formed in the right side wall of the sealed box body 1, the size and the shape of the sealing groove 7 are matched with those of the sealing plate 6, the size of the sealing groove 7 is correspondingly set, the size of the sealing groove 7 is larger than that of the radar wave emitting assembly 5, when the whole loop bar 4 moves towards the right side, the radar wave emitting assembly 5 can be driven to penetrate through the sealing groove 7 and extend out of the right side of the sealed box body 1, and when the loop bar 4 is recovered towards the left side, the radar wave emitting assembly 5 is correspondingly recovered into the sealed box body 1, and the sealing plate 6 is embedded in the sealing groove 7; the sealed box body 1 is also internally provided with a driving device for driving the loop bar 4 to move.

The driving device comprises a fixed support 8 arranged below the sleeve 3 and a driving motor 9 arranged at the end part of the fixed support 8, the lower end of the sleeve 3 is also provided with an open groove 10, the lower end part of the loop bar 4 is provided with a rack 11, the rack 11 protrudes downwards and is embedded in the open groove 10, the driving motor 9 is correspondingly provided with a driving gear 12, and the driving gear 12 is meshed with the rack 11 from the lower part so as to drive the loop bar 4 to move.

The fixed support 8 is mounted on the left side wall of the sealed box body 1 in a suspended mode, the driving motor 9 is mounted at the right side end of the fixed support 8, and the driving motor 9 is located below the right side of the sleeve 3.

When the device is used, the whole device can be firmly installed on a slope or on a river bank on the road surface through the fixing rod at the bottom; the radar wave transmitting assembly inside the device is integrally hidden in the sealed box body, and can extend out of the box body only when measurement is carried out, the radar wave transmitting assembly can extend out of the sealed box body before raining or in a fixed time period every day, soil on the right side is monitored, information such as height and position of the soil below can be determined through echo positioning of radar waves, and then the radar wave transmitting assembly retracts into the sealed box body to be sealed; and after raining and stopping raining, extending out of the sealed box, and performing radar wave echo positioning measurement on soil at the same position to obtain the water and soil loss amount after raining.

The sealing box body in the device is arranged in a sealing way, only when in measurement, the radar wave transmitting assembly can be extended out, and the other time is sealed, so that the device has better sealing property and waterproofness, the device can not be damaged, soaked and the like under the condition of outdoor severe weather, and the structure is reasonable; the monitoring accuracy is not affected after the whole device is placed, the soil area on the right side of the sealed box body is monitored during monitoring, the installation position of the sealed box body does not hinder raindrop impact, water flow impact and the like in the area, the monitoring is carried out under the real natural condition, and the data is very accurate.

Install the loop bar with the sleeve in this device, install radar wave emission subassembly on the loop bar, set up the drive arrangement of loop bar again, can drive the loop bar and remove and stretch out the outside with radar wave emission subassembly and measure, overall structure is very reasonable, and still install the closing plate at the right side end of loop bar in this device, set up corresponding seal groove on the right side wall of seal box, and the corresponding shape and the structure that sets up closing plate and seal groove, when radar wave emission part stretches out, closing plate and seal groove separation, and in the time of retrieving, the closing plate clamps in the seal groove just in time, sealed whole box, structural design is comparatively ingenious, the leakproofness is strong, can not leak.

A processor 13 and a power supply 14 are also arranged in the sealed box body 1, the processor 13 is correspondingly connected with the driving motor 9 and the radar wave transmitting assembly 5, and a wireless communication module 15 is also arranged in the processor 13; the sealing plate 6 and the sealing groove 7 are both of circular structures, the vertical sections of the sealing plate 6 and the sealing groove 7 are of trapezoidal structures, the trapezoidal shapes are narrow inside and wide outside, and the sealing plate 6 can be embedded in the sealing groove 7 when moving from outside to inside.

The device can send monitored data to a mobile phone of an operator through the wireless communication module, the monitored data are obtained in real time, the device is correspondingly provided with the sealing plate and the sealing groove in the shape structure, the sealing plate and the sealing groove can be perfectly matched, and the size of the sealing groove is set, so that the radar wave transmitting assembly can normally enter and exit.

A rotary adjusting seat 16 is further arranged at the connecting position of the loop bar 4 and the radar wave transmitting assembly 5, and the rotating angle of the radar wave transmitting assembly 5 can be correspondingly adjusted; the upper end of the sleeve 3 is also embedded with balls 17.

The rotation angle of the radar wave transmitting assembly can be correspondingly adjusted through the rotation adjusting seat in the device, so that the radar wave transmitting assembly can be opposite to the soil below the radar wave transmitting assembly during monitoring, and the upper end of the sleeve is embedded with the ball, so that the sleeve rod can move more smoothly.

The above-mentioned embodiments are only preferred embodiments of the present invention, and are not intended to limit the scope of the invention and the appended claims, and all equivalent changes and modifications made according to the claims should be included in the scope of the present invention.

Claims

1. The utility model provides a radar wave soil erosion and water loss automatic monitoring device which characterized in that: comprises a sealed box body (1), wherein the bottom of the sealed box body (1) is provided with a fixed rod (2); a sleeve (3) is transversely installed on the left side wall of the upper end in the sealing box body (1), the sleeve (3) extends towards the right side and is arranged in a suspended mode, a sleeve rod (4) is correspondingly installed in the sleeve (3), the sleeve rod (4) can be unfolded or contracted towards the right side in the sleeve (3), a radar wave emitting assembly (5) is further installed at the right end of the sleeve rod (4), a sealing plate (6) is further installed at the right end of the sleeve rod (4), a sealing groove (7) corresponding to the sealing plate (6) is formed in the right side wall of the sealing box body (1), the size and shape of the sealing groove (7) are matched with those of the sealing plate (6), the size of the sealing groove (7) is correspondingly set, so that the size of the sealing groove (7) is larger than that of the radar wave emitting assembly (5), when the whole sleeve rod (4) moves towards the right side, the radar wave emitting assembly (5) can be driven to penetrate through the sealing groove (7) and extend out of the right side of the sealing box body (1), and when the sleeve rod (4) returns towards the left side, the radar wave emitting assembly (5) is embedded in the sealing groove (6), and the sealing groove (7) and the sealing plate (7) and the sealing box body (1) is correspondingly recovered; and a driving device for driving the loop bar (4) to move is also arranged in the sealed box body (1).

2. The automatic radar wave water and soil loss monitoring device according to claim 1, wherein: the driving device comprises a fixing support (8) arranged below the sleeve (3) and a driving motor (9) arranged at the end part of the fixing support (8), an open groove (10) is further formed in the lower end of the sleeve (3), a rack (11) is arranged at the lower end part of the loop bar (4), the rack (11) protrudes downwards and is embedded in the open groove (10), a driving gear (12) is correspondingly arranged on the driving motor (9), and the driving gear (12) is meshed with the rack (11) from the lower part to be installed, so that the loop bar (4) can be driven to move.

3. The automatic radar wave water and soil loss monitoring device according to claim 2, wherein: fixed bolster (8) unsettled install at the left side wall of sealed box (1), driving motor (9) install the right side end at fixed bolster (8), driving motor (9) are located the right side below of sleeve (3).

4. The automatic radar wave water and soil loss monitoring device according to claim 2, wherein: the sealed box body (1) in still be provided with treater (13) and power (14), treater (13) are corresponding to link to each other with driving motor (9) and radar wave emission subassembly (5), just treater (13) in still be provided with wireless communication module (15).

5. The automatic radar wave water and soil loss monitoring device according to claim 1, wherein: the sealing plate (6) and the sealing groove (7) are both correspondingly set to be of a circular structure, the vertical sections of the sealing plate and the sealing groove are set to be of a trapezoidal structure, the trapezoidal shape is set to be narrow inside and wide outside, and the sealing plate (6) can be embedded in the sealing groove (7) when moving from outside to inside.

6. The device of claim 1, wherein the device comprises: and a rotary adjusting seat (16) is further installed at the connecting position of the loop bar (4) and the radar wave transmitting assembly (5), and the rotating angle of the radar wave transmitting assembly (5) can be correspondingly adjusted.

7. The automatic radar wave water and soil loss monitoring device according to claim 1, wherein: the upper end of the sleeve (3) is also embedded with a ball (17).