CN213121913U - Energy-saving type water and soil conservation multi-index dynamic real-time monitoring device - Google Patents

Abstract

The utility model provides an energy-saving soil and water conservation keeps dynamic real-time supervision device of many indexes relates to soil and water conservation monitoring field, including fixed plate and fixed establishment, be equipped with fixed establishment on the fixed plate, be equipped with standing groove and mounting panel on the fixed plate, the standing groove is connected through the pivot with the mounting panel bottom, be equipped with the sensor on the mounting panel, be equipped with rainfall monitoring mechanism and soil and water loss monitoring mechanism on the fixed plate, rainfall monitoring mechanism is connected with soil and water loss monitoring mechanism, soil and water loss monitoring mechanism includes the protective housing, laser head B, sliding guide mechanism, the slip hole, clamp plate and pull rod, rainwater monitoring mechanism includes the guide bar, the lifter plate, supporting spring, the rain measuring bucket, the stay cord, the pulley, slide mechanism, laser head A and displacement plate. This monitoring devices can real-time automatic monitoring rainfall amount and soil erosion and water loss condition to through a plurality of sensor monitoring environment condition on the mounting panel, realize many indexes dynamic automated inspection, practiced thrift the input of manpower, improved the efficiency and the degree of accuracy of monitoring.

Description

Energy-saving type water and soil conservation multi-index dynamic real-time monitoring device

Technical Field

The utility model relates to a soil and water conservation monitoring field especially relates to an energy-saving soil and water conservation multi-index dynamic real-time monitoring device.

Background

The water and soil conservation monitoring refers to long-term investigation, observation and analysis work on water and soil loss occurrence, development, harm and water and soil conservation benefit. By monitoring soil and water conservation, the soil and water loss type, strength and distribution characteristics, damage and influence thereof, occurrence and development rules and dynamic change trends are discovered, and the method has important significance for comprehensive soil and water loss treatment, ecological environment construction macro decision, and scientific, reasonable and systematic arrangement of various soil and water conservation measures. The existing soil and water conservation monitoring device can only detect one or two of soil and water loss conditions, rainfall monitoring and the like, and can not detect various factors in the environment, so that the detection data is relatively comprehensive, and the surrounding environment conditions can not be comprehensively evaluated. In addition, the current soil and water conservation detects and needs artifical the detection, and operating personnel need wait near check-out test set to be convenient for control supervisory equipment, artifical the input is big, can't satisfy current society to intelligent requirement.

SUMMERY OF THE UTILITY MODEL

In order to solve the above problem, the utility model adopts the following technical scheme: an energy-saving dynamic real-time monitoring device for soil and water conservation with multiple indexes comprises a fixed plate and a fixing mechanism, wherein the fixing mechanism is arranged on the fixed plate, a placing groove and a mounting plate are arranged on the fixed plate, the placing groove is connected with the bottom of the mounting plate through a rotating shaft, a sensor is arranged on the mounting plate, a rainfall monitoring mechanism and a soil and water loss monitoring mechanism are arranged on the fixed plate, the rainfall monitoring mechanism is connected with the soil and water loss monitoring mechanism, the soil and water loss monitoring mechanism comprises a protective shell, a laser head B, a sliding guide mechanism, a sliding hole, a pressing plate and a pull rod, the protective shell is arranged on the fixed plate, the laser head B is arranged on the top wall of the protective shell, the sliding guide mechanism is arranged in the protective shell, the sliding guide mechanism is connected with the pull rod, the top end of the pull rod, rainfall monitoring mechanism includes the guide bar, the lifter plate, supporting spring, rain bucket, the stay cord, the pulley, slide mechanism, laser head A and displacement plate, the guide bar is established on the fixed plate, the guide bar is connected with the lifter plate and both are sliding connection, be equipped with rain bucket on the lifter plate, lifter plate bottom and supporting spring's one end fixed connection, supporting spring's the other end and fixed plate are connected, the lifter plate is connected with the one end of stay cord, the other end of stay cord inserts the protective housing and is connected with slide mechanism, slide mechanism establishes in the protective housing, the last displacement plate that is equipped with of slide mechanism, the displacement plate is located laser head A under, laser head A establishes at the protective housing top, the stay cord is around on the pulley, the pulley is established at the protective housing top.

Preferably, the number of the sensors is not less than two.

Preferably, two are no less than to fixed establishment's quantity, and every fixed establishment all includes draws piece, locking spring, locking hole, check lock lever, perforation, jack, inserted bar and locking groove, the perforation is established on the fixed plate, and the inserted bar has been inserted in the perforation, is equipped with the jack of being no less than two on the inserted bar, is equipped with the locking groove on the perforation inner wall, and the locking groove is located fenestrate both sides respectively with the locking hole corresponding and locking groove in position of locking hole, draws the piece to be located the locking hole outside, draws the piece to be connected with the one end of check lock lever, and the other end of check lock lever passes the locking hole in proper order, and the jack inserts the locking inslot, and the cover has locking spring on the check lock lever, and locking spring is located between draw piece and the fixed.

Preferably, the fixing mechanism further comprises an inclined strut mechanism, the inclined strut mechanism comprises an inclined strut, a movable block and a tightening bolt, the movable block is sleeved on the inserted bar and is in sliding connection with the inserted bar, the movable block is fixed on the inserted bar through the tightening bolt, the movable block is provided with the inclined strut, the number of the inclined strut is not less than two, and an included angle between the inclined strut and the inserted bar is an acute angle.

Preferably, the number of the sliding guide mechanisms is two, and the two sliding guide mechanisms are respectively positioned on two sides of the pull rod.

Preferably, the sliding guide mechanism comprises a connecting rod, a movable wheel, a guide groove and a guide vertical plate, the guide vertical plate is arranged in the protective shell, the guide groove is formed in the guide vertical plate, the guide groove is connected with the movable wheel and is in sliding connection with the movable wheel, the movable wheel is rotatably connected with the connecting rod, and the connecting rod is arranged on the pull rod.

Preferably, the number of the moving wheels is two, the two moving wheels are connected with the same guide groove in a sliding mode, and each moving wheel is connected with the pull rod through a connecting rod.

Preferably, slide mechanism includes spout and slider, the spout is established on the protective housing inner wall, and the spout is connected and both are sliding connection with the slider, and the slider is connected with the stay cord, is equipped with the displacement board on the slider.

The utility model has the advantages that: (1) this monitoring devices can real-time automatic monitoring rainfall amount and soil erosion and water loss condition to through a plurality of sensor monitoring environment condition on the mounting panel, for example the condition such as humiture, atmospheric pressure, wind speed, realize many index dynamic automated inspection, practiced thrift the input of manpower and the input of equipment quantity, improved the efficiency and the degree of accuracy of monitoring, satisfy energy-concerving and environment-protective demand. (2) The device can strengthen the fixed plate of fixed establishment through bracing mechanism, and when avoiding bad weather such as rainstorm or storm wind, the device slope or empty and unable accurate measured data. (3) The mounting panel in the device can be accomodate and put into the standing groove when removing this detection device, avoids bumping and damaging the sensor when removing.

Drawings

The figures further illustrate the invention, but the embodiments in the figures do not constitute any limitation of the invention.

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

Fig. 2 is a partially enlarged view of a portion a in fig. 1 according to the present invention.

Fig. 3 is a partial enlarged view of the point B in fig. 1 according to the present invention.

Detailed Description

The following will combine the drawings of the embodiments of the present invention to further describe the technical solution of the present invention, and the present invention is not limited to the following specific embodiments. It should be noted that, in the present invention, the embodiments and features of the embodiments may be combined with each other without conflict.

Referring to each figure, an energy-saving dynamic real-time soil and water conservation monitoring device with multiple indexes comprises a fixing plate 6 and a fixing mechanism, wherein the fixing mechanism is arranged on the fixing plate 6, the device is fixed on the soil to be measured through the fixing mechanism, a placing groove 1 and a mounting plate 2 are arranged on the fixing plate 6, the placing groove 1 is connected with the bottom of the mounting plate 2 through a rotating shaft, when the device needs to be moved, the mounting plate 2 can be rotated to rotate the mounting plate 2 to the placing groove 1, and the situation that a sensor on the mounting plate 2 is damaged or destroyed when the device is moved is avoided. A cover plate can be arranged on the placing groove 1, and the cover plate is inserted into the placing groove 1, so that the sensor can be further prevented from being damaged. In addition, when needs use, through rotating mounting panel 2, rotate the sensor on the mounting panel 2 to the standing groove 1 outside, can be through the resistance of bolt locking or pivot itself to avoid mounting panel 2 to rock in the storm or torrential rain and influence the stability of sensor survey data. The mounting plate 2 is provided with a plurality of sensors, and the sensors can be any combination of temperature sensors, humidity sensors, air pressure sensors, wind speed sensors and the like, so that the detection of the surrounding environment of the monitoring device is realized, and the dynamic real-time monitoring of multiple indexes is realized. Data measured by various sensors can be processed by a processor and then stored and transmitted, and the processor is an MCU (microprogrammed control Unit) processor or a PLC (programmable logic controller) and other integrated processors in the prior art. The device is characterized in that a rainfall monitoring mechanism and a soil erosion monitoring mechanism are arranged on the fixed plate 6, the rainfall monitoring mechanism is connected with the soil erosion monitoring mechanism, the soil erosion monitoring mechanism comprises a protective shell 22, a laser head B32, a sliding guide mechanism, a sliding hole 26, a pressure plate 7 and a pull rod 31, the protective shell 22 is arranged on the fixed plate 6, a laser head B32 is arranged on the top wall of the protective shell 22, the sliding guide mechanism is arranged in the protective shell 22 and connected with the pull rod 31, the top end of the pull rod 31 is positioned under the laser head B32, the bottom end of the pull rod 31 penetrates through the sliding hole 26 in the fixed plate 6 to extend to the lower part of the fixed plate 6 to be rotatably connected with the pressure plate 7, when rainwater is lost, the pressure plate 7 can slide down to be in contact with soil due to gravity, when the pressure plate 7 slides down, the pull rod 31 can slide down under the guiding action of the sliding guide mechanism, at the moment, the distance between the laser head B32 and the, the processor or the laser range finder main body can be installed or embedded in the fixing plate 6, and the laser range finder main body is in the prior art, so that the water and soil loss condition can be calculated. Rainfall monitoring mechanism includes guide bar 3, lifter plate 5, supporting spring 8, rain measuring bucket 4, stay cord 21, pulley 20, slide mechanism, laser head A33 and displacement plate 25, guide bar 3 establishes on fixed plate 6, guide bar 3 is connected and both are sliding connection with lifter plate 5, be equipped with rain measuring bucket 4 on lifter plate 5, 5 bottoms of lifter plate and supporting spring 8's one end fixed connection, supporting spring 8's the other end is connected with fixed plate 6, lifter plate 5 is connected with the one end of stay cord 21, the other end of stay cord 21 inserts protective housing 22 and is connected with slide mechanism, slide mechanism establishes in protective housing 22, the last displacement plate 25 that is equipped with of slide mechanism, displacement plate 25 is located laser head A33 under, laser head A33 establishes at protective housing 22 top, stay cord 21 winds on pulley 20, pulley 20 establishes at protective housing 22 top. This rainfall monitoring mechanism is when using, at first the rainwater can fall into rain measuring barrel 4 in, rain measuring barrel 4 is the transparent plastic material, the scale is being carved with to the higher authority, can read scale record scale data through the people, the rainwater in the rain measuring barrel 4 can increase rain measuring barrel 4's weight, rain measuring barrel 4 drives lifter plate 5 and moves down and compression spring at the in-process that moves down, can upwards slide in protecting sheathing 22 through stay cord 21 pulling slide mechanism when lifter plate 5 moves down, slide mechanism drives displacement plate 25 and shifts up, laser head A33 surveys the distance that displacement plate 25 shifted up and with the data transmission of survey to laser range finder main part or treater, also can directly replace laser head A33 and laser head B32 for laser range finder, laser range finder can handle and store measured data transmission to the treater.

The number of the sensors is not less than two.

Two are no less than to fixed establishment's quantity, and every fixed establishment all includes draws piece 14, locking spring 15, locking hole 16, check lock lever 17, perforation 18, jack 13, inserted bar 9 and locking groove 19, perforation 18 is established on fixed plate 6, and the inserted bar 9 has been inserted in perforation 18, is equipped with the jack 13 of no less than two on the inserted bar 9, is equipped with locking groove 19 on the perforation 18 inner wall, and locking groove 19 is corresponding and locking groove 19 and locking hole 16's position is located perforation 18's both sides respectively with check lock hole 16, draws piece 14 to be located the locking hole 16 outside, draws piece 14 and locking lever 17's one end to be connected, and locking hole 16 is passed in proper order to the other end of check lock lever 17, and jack 13 inserts in the locking groove 19, and the cover has locking spring 15 on the check lock lever 17, and locking spring 15 is located and draws between piece 14 and fixed plate 6 and locking spring 15 embedding in check lock hole.

The fixing mechanism further comprises an inclined strut mechanism, the inclined strut mechanism comprises an inclined strut 10, a movable block 11 and a tightening bolt 12, the movable block 11 is sleeved on the inserted rod 9, the movable block 11 is in sliding connection with the inserted rod 9, the movable block 11 is fixed on the inserted rod 9 through the tightening bolt 12, the inclined strut 10 is arranged on the movable block 11, the number of the inclined strut 10 is not less than two, and an included angle between the inclined strut 10 and the inserted rod 9 is an acute angle. When the fixing mechanism is used, the inserting rod 9 is firstly inserted into soil to be fixed, after the inserting rod 9 is fixed, the locking rod 17 penetrates through the inserting hole 13 to be inserted into the locking groove 19, at the moment, the fixing of the fixing mechanism is completed, the number of the fixing mechanisms can be four, and the four fixing mechanisms are respectively positioned at four corners of the fixing plate 6. The number of the fixing mechanisms can be three, and the three fixing mechanisms are arranged in a triangular mode. After the inserted bar 9 is fixed, the movable block 11 is pressed downwards, the movable block 11 drives the inclined supporting rods 10 to be inserted into soil, and the plurality of inclined supporting rods 10 can further strengthen the fixation of the inserted bar 9, so that the device is prevented from toppling or inclining in rainstorm or storm. After the inclined strut 10 is inserted into soil, the movable block 11 is fixed on the inserted bar 9 by screwing and screwing the bolt 12, so that the inserted bar 9 and the inclined strut 10 are prevented from shaking.

The number of the sliding guide mechanisms is two, and the two sliding guide mechanisms are respectively positioned on two sides of the pull rod 31.

The sliding guide mechanism comprises a connecting rod 27, a moving wheel 28, a guide groove 29 and a guide vertical plate 30, the guide vertical plate 30 is arranged in the protective shell 22, the guide groove 29 is arranged on the guide vertical plate 30, the guide groove 29 is connected with the moving wheel 28 and is in sliding connection with the moving wheel 28, the moving wheel 28 is in rotating connection with the connecting rod 27, and the connecting rod 27 is arranged on a pull rod 31. When the pull rod 31 moves downwards, the pull rod 31 drives the moving wheel 28 to slide in the moving groove through the connecting rod 27, the insertion rod 9 can move downwards vertically through the sliding of the moving wheel 28, and the situation that the data measured by the laser head B32 is inaccurate due to the fact that the insertion rod 9 tilts during moving downwards is avoided.

The number of the moving wheels 28 is two, the two moving wheels 28 are slidably connected with the same guide groove 29, and each moving wheel 28 is connected with the pull rod 31 through a connecting rod 27.

The sliding mechanism comprises a sliding groove 23 and a sliding block 24, the sliding groove 23 is arranged on the inner wall of the protective shell 22, the sliding groove 23 is connected with the sliding block 24, the sliding groove 23 and the sliding block 24 are in sliding connection, the sliding block 24 is connected with the pull rope 21, and a displacement plate 25 is arranged on the sliding block 24. The sliding block 24 and the sliding groove 23 are in sliding fit with each other, so that the displacement plate 25 can be driven to move upwards stably, and inaccurate distance measurement of the laser head A33 caused by deviation of the displacement plate 25 during movement is avoided.

In addition, a sensor can be arranged in the rain measuring barrel 4 for detecting the depth of the rainwater in the rain measuring barrel 4 and mutually verifying the displacement with the displacement plate 25, so that the accuracy of rainwater measurement is further improved.

This monitoring devices can real-time automatic monitoring rainfall amount and soil erosion and water loss condition to through a plurality of sensor monitoring environment condition on the mounting panel 2, for example the condition such as humiture, atmospheric pressure, wind speed, realize many indexes dynamic automated inspection, practiced thrift the input of manpower, improved the efficiency and the degree of accuracy of monitoring. The device can strengthen the fixed establishment to fixed plate 6 through bracing mechanism, and when avoiding heavy weather such as rainstorm or storm wind, the device slope or empty and unable accurate measurement data. The mounting plate 2 in the device can be stored in the placing groove 1 when the detection device is moved, so that the sensor is prevented from being damaged due to collision when the detection device is moved.

As described above, the above embodiments are not limiting embodiments of the present invention, and modifications or equivalent variations made by those skilled in the art based on the substance of the present invention are within the technical scope of the present invention.

Claims (8)

1. The utility model provides an energy-saving soil and water conservation multi-index dynamic real-time monitoring device, includes fixed plate and fixed establishment, is equipped with fixed establishment on the fixed plate, its characterized in that: the device is characterized in that a placing groove and a mounting plate are arranged on the fixed plate, the placing groove is connected with the bottom of the mounting plate through a rotating shaft, a sensor is arranged on the mounting plate, a rainfall monitoring mechanism and a soil erosion monitoring mechanism are arranged on the fixed plate, the rainfall monitoring mechanism is connected with the soil erosion monitoring mechanism, the soil erosion monitoring mechanism comprises a protective shell, a laser head B, a sliding guide mechanism, a sliding hole, a pressing plate and a pull rod, the protective shell is arranged on the fixed plate, the laser head B is arranged on the top wall of the protective shell, the sliding guide mechanism is arranged in the protective shell and connected with the pull rod, the top end of the pull rod is positioned under the laser head B, the bottom end of the pull rod penetrates through the sliding hole in the fixed plate to extend to the lower part of the fixed plate to be rotatably connected with the pressing plate, and the rainfall monitoring mechanism comprises, the guide bar is established on the fixed plate, and the guide bar is connected and both are sliding connection with the lifter plate, is equipped with the rain bucket on the lifter plate, lifter plate bottom and supporting spring's one end fixed connection, and supporting spring's the other end is connected with the fixed plate, and the lifter plate is connected with the one end of stay cord, and the other end of stay cord inserts the protective housing and is connected with slide mechanism, and slide mechanism establishes in the protective housing, is equipped with the displacement board on the slide mechanism, and the displacement board is located laser head A under, and laser head A establishes at the protective housing top, the stay cord is around on the pulley, and the pulley is established at the.

2. The energy-saving soil and water conservation multi-index dynamic real-time monitoring device according to claim 1, characterized in that: the number of the sensors is not less than two.

3. The energy-saving soil and water conservation multi-index dynamic real-time monitoring device according to claim 1, characterized in that: two are no less than to fixed establishment's quantity, and every fixed establishment all includes draws piece, locking spring, locking hole, check lock lever, perforation, jack, inserted bar and locking groove, the perforation is established on the fixed plate, and the inserted bar has been inserted in the perforation, is equipped with the jack of being no less than two on the inserted bar, is equipped with the locking groove on the perforation inner wall, and the locking groove is located fenestrate both sides respectively with the locking hole corresponding and locking groove in position in locking hole, draws the piece to be located the locking hole outside, draws the piece to be connected with the one end of check lock lever, and the other end of check lock lever passes the locking hole in proper order, and the jack inserts the locking inslot, and the cover has locking spring on the check lock lever, and locking spring is located between draw piece and the.

4. The energy-saving soil and water conservation multi-index dynamic real-time monitoring device according to claim 3, characterized in that: the fixing mechanism further comprises an inclined strut mechanism, the inclined strut mechanism comprises an inclined strut rod, a movable block and a tightening bolt, the movable block is sleeved on the inserted bar and is in sliding connection with the inserted bar, the movable block is fixed on the inserted bar through the tightening bolt, the movable block is provided with the inclined strut rod, the number of the inclined strut rods is not less than two, and an included angle between the inclined strut rod and the inserted bar is an acute angle.

5. The energy-saving soil and water conservation multi-index dynamic real-time monitoring device according to claim 1, characterized in that: the number of the sliding guide mechanisms is two, and the two sliding guide mechanisms are respectively positioned on two sides of the pull rod.

6. The energy-saving soil and water conservation multi-index dynamic real-time monitoring device according to claim 1, characterized in that: the sliding guide mechanism comprises a connecting rod, a movable wheel, a guide groove and a guide vertical plate, the guide vertical plate is arranged in the protective shell, the guide groove is formed in the guide vertical plate, the guide groove is connected with the movable wheel, the movable wheel and the movable wheel are in sliding connection, the movable wheel is connected with the connecting rod in a rotating mode, and the connecting rod is arranged on the pull rod.

7. The energy-saving soil and water conservation multi-index dynamic real-time monitoring device according to claim 6, characterized in that: the number of the moving wheels is two, the two moving wheels are connected with the same guide groove in a sliding mode, and each moving wheel is connected with the pull rod through a connecting rod.

8. The energy-saving soil and water conservation multi-index dynamic real-time monitoring device according to claim 1, characterized in that: the sliding mechanism comprises a sliding groove and a sliding block, the sliding groove is formed in the inner wall of the protective shell, the sliding groove is connected with the sliding block, the sliding groove and the sliding block are in sliding connection, the sliding block is connected with the pull rope, and a displacement plate is arranged on the sliding block.

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