JP6606753B1 - Rapid water quality online monitoring equipment - Google Patents

Abstract

The present invention discloses a rapid water quality online monitoring facility. A dam body and a bank body fixed to the groove wall and blocking the groove wall are included, and the bank body is higher than a top portion of the groove wall and a left extension block is integrated with a top portion of a left end surface of the bank body. A guide plate installed on the left side of the left extension block is fixedly connected to the left extension block, and an opening groove is installed on the top end surface of the groove ridge on the left end surface of the dam body. The drainage groove is installed on the left end surface under the top end surface of the trough, and the present invention is simple in structure, easy to operate and convenient, and automatically discharges and monitors water according to the rise or fall of the water level. The entire device can protect the environment, occupies a small area, is suitable for modern agricultural irrigation, avoids water overflowing outside the trough, extends the service life of this device, The effect of monitoring is remarkable, Against to satisfy the use demand. [Selection] Figure 1

Description

  The present invention relates to the field of water utilization, and more particularly to a rapid water quality online monitoring facility.

  At present, many small water bodies in the country are not equipped with water quality monitoring equipment, which means that most of the current water quality monitoring is concentrated in the main water areas, and the price is high in small rivers or irrigation trenches. Due to the huge type of equipment, no equipment has been installed. Especially in the irrigation ditch, the contamination of irrigation water leads to the death of crops, leading to crops from crops to disasters. For this reason, the current water quality monitoring equipment cannot satisfy the use of irrigation troughs, and a rapid water quality online monitoring equipment is needed.

Chinese Patent Application No. 105974081

  An object of the present invention is to provide a rapid water quality on-line monitoring facility for solving the problems submitted to the background art described above.

In order to achieve the above object, the present invention includes a groove wall and a bank body fixed to the groove wall and blocking the groove wall , the bank body being higher than a top of the groove wall and the bank body A left extension block that extends to the left of the left end surface of the left extension block is integrally installed, and a guide plate that is installed to be inclined to the left is fixedly connected to the left side of the left extension block , and is flush with the left end of the dam body In addition, an open groove is installed on the top end surface of the groove body , a drainage groove is installed on the same surface as the left end of the bank body and below the top end surface of the groove body, and is located at the bottom position of the right end surface of the bank body. An outflow groove is installed in the vicinity, a sinking groove is installed in the bottom end wall of the outflow groove, an inclined groove is communicated between the drainage groove and the outflow groove, and extends upward to the top end wall of the outflow groove. A vertical chute is installed, and the top of the vertical chute is placed on the right end wall of the opening groove. A lateral chute that communicates with the closed channel is connected between the drain groove and the lateral chute, and a closed card groove facing the closed chute is installed on the bottom end wall of the drain groove, A closed slide block that slides up and down is installed on the chute, and a push plate that penetrates the open groove to the left and extends to the outside of the open groove is fixedly installed at the top of the left end surface of the closed slide block, and the push A balance weight block is fitted and installed on the top end surface of the plate, a toothed tooth is fitted and installed on the right end surface of the closed slide block, a first transmission set is installed on the bottom of the left end of the lateral chute, and the vertical A second transmission set is installed at the top end of the chute, and a monitoring device that is inserted from the third transmission set and the vertical chute is installed at the bottom end of the vertical chute. A partition plate is installed between the monitoring device and the third transmission set, a through hole is installed in the middle of the partition plate, a pointing component is installed on the top end wall of the lateral chute, and the left end of the dam body A tow hook is installed on the surface, a long line is connected to the tow hook, a float is connected to one end of the long line far from the tow hook, a filtration net is installed at the left end opening of the drainage groove, and the levee body A protective part is installed on the top.

As a preferred technical plan, the indicated part includes an extrusion groove installed on a top end wall of the lateral chute and a lamp holding groove installed on a top end surface of the dam body, and between the extrusion groove and the lamp holding groove. A right slide groove is communicated, a spring groove is installed on the top end wall of the push groove, a push spring is installed on the spring groove, a right slide block that can be moved up and down is installed on the right slide groove, An extrusion block fixedly connected to the bottom end of the right slide block is installed, and an LED indicator lamp fixedly connected to the top end of the right slide block is installed in the lamp holding groove, and the top end of the extrusion spring There fixedly connected to the top end wall of the spring groove, the bottom end of the extruded spring is fixedly connected to the top end surface of the extrusion block, the extrusion spring presses down the extruded block Wherein the left end of the extrusion block is positioned on the closed slide block, and the protective component includes a canopy hood and convex ears installed on the left and right ends of the canopy hood, and the convex ears are screws. The canopy hood is fixedly connected to the top of the bank body through a nail, and is attached to the outside of the lamp holding groove.

As a preferred technical plan, the bottom end surface of the guide plate is in the same horizontal plane as the top end surface of the groove, the outflow groove is lower than the drainage groove, and the opening area of the bottom end of the closing chute is the top end of the closing card groove As with the opening area, the closed slide block is integrated with the push plate.

As a preferred technical plan, the first transmission set rotates and engages with the front and rear top end walls of the lateral chute, and is fixedly installed on the first rotation shaft, and the toothpick The first belt pulley is fixedly installed at the front end of the first gear on the first rotating shaft, and the diameter of the first belt pulley is smaller than the diameter of the first gear; A second rotating shaft in which two transmission sets are rotated and engaged with and connected to the front and rear top end walls of the longitudinal chute, and a second belt fixedly installed on the second rotating shaft and opposed to the first belt pulley A rotating drum is fixedly installed at the rear end of the second belt pulley, and the third transmission set is rotated and engaged with both front and rear end walls of the vertical chute. comprises a third rotation axis that, the solid guide wheels to the third rotating shaft And it is installed, the Hikinawa is coupled rotary drum and between the monitoring device, the Hikinawa is passed through and the transmural hole for contact with the guide wheel to avoid the guide wheel, and the first belt pulley A transmission belt is engaged and connected between the second belt pulleys.

As a preferred technical plan, the first belt pulley and the second belt pulley have the same diameter, the second belt pulley and the guide wheel have the same diameter, and the rotating drum is a rope winding drum.

As a preferred technical plan, the monitoring device includes a PH monitor, a heavy metal monitor, a bacteria monitor and a turbidity monitor, and the PH monitor, heavy metal monitor, bacteria monitor and turbidity monitor are all monitored and calculated. It is connected to the main machine, and the information on the water in the trench that has been monitored is transmitted to the monitoring calculation main machine for calculation and processing.

The beneficial effects of the present invention are:

1. with increasing water level in the ditch, the float also rises, the float is press plate bottom edge abuts the elevated rises continuously water level, thereby sliding the press float gradually push plate, The push plate slides up and slides up with the closing slide block, and the closing slide block slides up and the first rotating shaft rotates under the meshing transmission of the toothed tooth and the first gear, One rotation shaft rotates to drive and rotate the first belt pulley, the first belt pulley rotates to rotate the second belt pulley under the transmission of the transmission belt, and the second belt pulley rotates. The second rotating shaft is driven to rotate, the second rotating shaft rotates to drive and rotate the rotating drum, thereby extending the rope through the rotating drum, and the push plate slides upward and the bottom of the left extension block end surface and the monitoring until the abutment The device moves to the sinking groove, and at this time, the drainage groove is completely opened, and the water in the trough is drained through the drainage groove and discharged from the outflow trough through the sloping groove, and in the process of draining the trough water, Concentrate, monitor the water quality through a monitoring device, send the monitored water quality information to the monitoring computer, perform calculation and processing, find the water quality problem quickly, improve and process it.

  2. While the closing slide block slides upward, the extrusion block is pushed up to the extrusion groove, and the LED indicator lamp is pushed up to the outside of the lamp holding groove, so that the drainage groove intuitively through the LED indicator lamp A drainage operation is instructed, and the monitoring device monitors the quality of the discharged water.

3. The present invention is simple in structure, easy and convenient to operate, automatically controls the discharge and monitoring of water according to the rise or fall of the water level, the entire device can protect the environment, It occupies a small area and is suitable for the use of modern agricultural irrigation, avoids water overflowing outside the trough, prolongs the service life of this device, and has a remarkable effect of monitoring the water, satisfying the current demand for the trough.

For ease of explanation, the present invention will be described in detail with reference to the following specific embodiments and accompanying drawings.

FIG. 1 is a schematic diagram of the overall structure of a rapid water quality online monitoring facility according to the present invention. FIG. 2 is a schematic diagram of the overall structure of the rapid water quality online monitoring facility according to the present invention in use.

As shown in FIG. 1 and FIG. 2, the rapid water quality online monitoring facility of the present invention includes a trough 1 and a dam body 10 that is fixedly installed on the trough 1 and blocks the trough 1 ; Further, a left extension block 11 that is higher than the top of the groove ridge 1 and extends to the left of the left end surface of the bank body 10 is integrally installed, and a guide that is installed to be inclined to the left on the left side of the left extension block 11 Plate 12 is fixedly connected , and an open groove 22 is installed on the same surface as the left end of the bank body 10 and on the top end surface of the groove body 1, and on the same surface as the left end of the bank body 10 and the groove wall 1 A drainage groove 16 is installed under the top end surface of the sunk body, an outflow groove 18 is installed in the vicinity of the bottom position of the right end surface of the dam body 10, and a sinking groove 19 is installed in the bottom end wall of the outflow groove 18. In addition, an inclined groove 17 is communicated between the drainage groove 16 and the outflow groove 18, and a vertical chute 20 extending upward is formed on the top end wall of the outflow groove 18. Installed, a lateral chute 21 communicating with the top end of the vertical chute 20 is installed on the right end wall of the opening groove 22, and a closing chute 24 is communicated between the drain groove 16 and the horizontal chute 21, A closing card groove 25 facing the closing chute 24 is installed in the bottom end wall of the drainage groove 16, a closing slide block 26 sliding up and down is installed on the closing chute 24, and the top of the left end surface of the closing slide block 26 A push plate 28 that passes through the open groove 22 to the left and extends to the outside of the open groove 22 is fixedly installed, and a balance weight block 29 is fitted and installed on the top end surface of the push plate 28. A toothed hook 27 is fitted and installed on the right end surface of the block 26, a first transmission set is installed at the bottom of the left end of the lateral chute 21, a second transmission set is installed at the top end of the vertical chute 21, The bottom edge of the vertical chute 20 A monitoring device 40 extending from the third transmission set and the vertical chute 20 is installed, and a partition plate 41 is installed in the vertical chute 20 between the monitoring device 40 and the third transmission set. A through hole 42 is installed in the middle of the plate 41, a pointing part is installed on the top end wall of the lateral chute 21, a traction hook 13 is installed on the left end surface of the dam body 10, and a long line 14 is provided on the traction hook 13. The float 15 is connected to one end of the long wire 14 that is far away from the traction hook 13, a filtration net 23 is installed at the left end opening of the drainage groove 16, and a protective component is installed at the top of the dam body 10. The

Beneficially, the indicated part includes an extrusion groove 44 installed in the top end wall of the lateral chute 21 and a lamp holding groove 43 installed in the top end surface of the dam body 10, and the extrusion groove 44 and the lamp A right slide groove 47 communicates with the holding groove 43, a spring groove 51 is installed on the top end wall of the push groove 44, a push spring 50 is placed on the spring groove 51, and the right slide groove 47 is moved up and down. A right slide block 46 is installed, an extrusion block 48 fixedly connected to the bottom end of the right slide block 46 is installed in the extrusion groove 44, and a top end of the right slide block 46 is installed in the lamp holding groove 43. An LED indicator lamp 45 which is fixedly connected is installed, the top end of the push spring 50 is fixedly connected to the top end wall of the spring groove 51, and the bottom end of the push spring 50 is the top end surface of the push block 48. fixedly connected to the said extruded spring 50 the extrusion Bed And the left end of the push block 48 is positioned on the closing slide block 26, and the protective parts are installed on the left and right ends of the canopy hood 85 and the canopy hood 85. comprises ears 87, the convex ear 87 is fixedly connected with the top of the dam body 10 through compression screw 86, the canopy hood 85 is attached to the outside of the lamp holders groove 43, thereby the canopy hood It serves as a protection for the LED indicator lamp 45 through 85 and increases the service life of the apparatus.

Beneficially, the bottom end surface of the guide plate 12 is in the same horizontal plane as the top end surface of the groove rod 1 , the outflow groove 18 is lower than the drainage groove 16, and the opening area of the bottom end of the closing chute 24 is Similar to the opening area of the top end of the closing card groove 25, the closing slide block 26 is integrated with the push plate 28.

Beneficially, the first transmission set is fixedly installed on the first rotary shaft 30 and the first rotary shaft 30 that are rotated and engaged with the front and rear top end walls of the lateral chute 21, and the first rotary shaft 30; A first gear 31 that meshes with the toothed tooth 27, and a first belt pulley 32 is fixedly installed at the front end of the first gear 31 on the first rotating shaft 30, and the diameter of the first belt pulley 32 is It is smaller than the diameter of one gear 31, and the second transmission set is fixedly installed on the second rotary shaft 33 and the second rotary shaft 33, which are engaged with and connected to the front and rear top end walls of the longitudinal chute 20. And a second belt pulley 35 facing the first belt pulley 32, and a rotary drum 34 is fixedly installed on the second rotating shaft 33 at the rear end of the second belt pulley 35, and the third transmission The set includes a third rotating shaft 37 that rotates and engages and is connected to both front and rear end walls of the vertical chute 20, and the third rotating shaft A guide wheel 38 is fixedly installed at 37, and a rope 39 is connected between the rotary drum 34 and the monitoring device 40, and the rope 39 avoids the guide wheel and comes into contact with the guide wheel and A transmission belt 36 is engaged and connected between the first belt pulley 32 and the second belt pulley 35 through the through hole 42.

Beneficially, the first belt pulley 32 and the second belt pulley 35 have the same diameter, the second belt pulley 35 and the guide wheel 38 have the same diameter, and the rotary drum 34 is a rope winding drum.

Beneficially, the monitoring device includes a PH monitor 73, a heavy metal monitor 74, a bacteria monitor 75 and a turbidity monitor 76, the PH monitor 73, the heavy metal monitor 74, the bacteria monitor 75 and the turbidity. All of the monitoring devices 76 are connected to the monitoring calculation main unit, and the information on the water in the groove is monitored and transmitted to the monitoring calculation main unit for calculation and processing.

When the float 15 is in the groove 1 and the water in the groove 1 is not filled in the drainage groove 16, the closing slide block 26 is automatically lowered due to the gravity of the push plate 28 and the balance weight 29. And slides into the closing card groove 25, closes the drainage groove 16 through the closing slide block 26, the monitoring device 40 returns to the vertical chute, and under the influence of the elastic force of the push spring 50, The pushing block 48 is pushed out of the pushing groove 44 and inserted into the lateral chute, and the LED indicator lamp 45 is accommodated in the lamp holding groove 43.

As the water level of the groove 1 rises, the float 15 also rises, the float 15 rises and comes into contact with the bottom end surface of the push plate 28, and the water level continuously rises, whereby the float 15 gradually becomes Push the push plate 28 and slide it up, the push plate 28 slides up and slides up with the closing slide block 26, and the closing slide block 26 slides up and slides the toothed teeth 27 and the The first rotating shaft 30 rotates under meshing transmission of the first gear 31, the first rotating shaft 30 rotates to drive and rotate the first belt pulley 32, and the first belt pulley 32 rotates. Rotates, the second belt pulley 35 rotates under the transmission of the transmission belt 36, the second belt pulley 35 rotates to drive and rotate the second rotating shaft 33, and the second belt pulley 35 rotates. The rotating shaft 33 rotates to drive and rotate the rotating drum 34. Thereby stretching the rope through the rotary drum 34, the bottom end face and the monitoring device 40 until the abutment of the push plate 28 is the slide in the upper left extension block 11 is movement to the submerged groove 19, at this time, The drainage groove 16 is completely opened, the water in the groove 1 flows out through the drainage groove 16, is discharged from the outflow groove 18 through the inclined groove 17, and the water sinks in the process of discharging the water in the groove 1 Consolidate in the groove 19, monitor the water quality through the monitoring device 40, send the monitored water quality information to the monitoring calculation main machine, perform calculation and processing, quickly discover and improve the water quality problem and process it Conveniently, while the closing slide block 26 slides up, the push block 48 is pushed up to the push groove 44, and the LED indicator lamp 45 is pushed up to the outside of the lamp holding groove, thereby LED instruction run Intuitively the drainage groove is instructed to perform a drainage operation, the monitoring device 40 is monitoring the status of the quality of water discharged through 45.

  After the water level drops, the device returns to the initial position under the action of the push plate 28 and the balance weight 29.

Claims (1)

A rapid water quality on-line monitoring facility, comprising a trough and a dam body fixed to the trough and blocking the trough, the levee body being higher than a top of the trough and from a left end surface of the dam body also left extension block extending to the left is installed in integral, the left guide plate installed tilted to the left on the left side of the extension block is fixedly connected to, the left and the same surface of the dam and the ditch An opening groove is installed on the top end surface of the dam body , a drainage groove is installed on the same plane as the left end of the levee body and below the top end surface of the groove basin, and is close to the bottom position of the right end surface of the dam body. An outflow groove is installed, a sinking groove is installed in the bottom end wall of the outflow groove, an inclined groove is communicated between the drainage groove and the outflow groove, and a vertical chute extending upward is formed on the top end wall of the outflow groove. Installed, the top end of the vertical chute on the right end wall of the opening groove A side-like chute is installed, a closing chute is communicated between the drainage groove and the side-like chute, a closing card groove facing the closing chute is installed on the bottom end wall of the drainage groove, and the closing chute A closed slide block that slides up and down is installed, and a push plate that penetrates the open groove to the left and extends to the outside of the open groove is fixedly installed at the top of the left end surface of the closed slide block, and the push plate A balance weight block is fitted and installed on the top end surface, a toothed tooth is fitted and installed on the right end surface of the closed slide block, a first transmission set is installed on the bottom of the left end of the lateral chute, and the vertical chute A second transmission set is installed at the top end of the vertical-type chute, and a monitoring device is installed at the bottom end of the vertical-type chute to be inserted from the third transmission set and the vertical-type chute. A partition plate is installed between the monitoring device and the third transmission set, a through hole is installed in the middle of the partition plate, a pointing part is installed on the top end wall of the lateral chute, and the left end surface of the dam body A tow hook is installed, a long line is connected to the tow hook, a float is connected to one end of the long line away from the tow hook, a filtration net is installed at the left end opening of the drainage groove, A protective part is installed on the top, and the indicated part includes an extrusion groove installed on the top end wall of the lateral chute and a lamp holding groove installed on the top end surface of the levee body, the extrusion groove and the lamp holding groove A right slide groove is communicated, a spring groove is installed on the top end wall of the push groove, a push spring is installed in the spring groove, and a right slide block that can be moved up and down is installed in the right slide groove, The right slide block in the extrusion groove An extrusion block fixedly connected to the bottom end of the lock is installed, an LED indicator lamp fixedly connected to the top end of the right slide block is installed in the lamp holding groove, and the top end of the extrusion spring is the spring fixedly connected to the top end wall of the groove, the connected bottom end of the extrusion spring fixed to the top end surface of the extrusion block, used in said extrusion spring presses down the extrusion block, said extrusion block The left end of the dam body is located on the closed slide block, the protective component includes a canopy hood and convex ears installed on both left and right ends of the canopy hood, and the convex ears are connected to the top of the levee body through screw nails. fixedly connected to the canopy hood is attached to the outside of the lamp holders groove, a bottom end face of the guide plate is in the same horizontal plane and the top end face of the ditch, the outlet There lower than the drainage groove, the same opening area of the bottom end of the closure chute and opening area of the top end of the closed card groove, a said closure slide blocks the push plate and monolithic construction, the first transmission set is A first rotating shaft that rotates and engages and is connected to the front and rear top end walls of the lateral-like chute, and a first gear that is fixedly installed on the first rotating shaft and meshes with the toothed tooth, A first belt pulley is fixedly installed on the shaft at the front end of the first gear, the diameter of the first belt pulley is smaller than the diameter of the first gear, and the second transmission set is at the front and rear top ends of the vertical chute. A second rotating shaft that rotates and engages and is connected to the wall; and a second belt pulley that is fixedly installed on the second rotating shaft and is opposed to the first belt pulley; is the rotating drum to the rear end of the second belt pulley Placed constant to include a third rotating shaft, wherein the third transmission set is rotated engaged connected to front and rear end wall of the longitudinal-like chute, guide wheels to the third rotation shaft is fixedly installed on A rope is connected between the rotating drum and the monitoring device, the rope avoiding the guide wheel and contacting the guide wheel and through the through hole, the first belt pulley and the second belt A transmission belt is engaged and connected between the pulleys, the diameters of the first belt pulley and the second belt pulley are the same, the diameters of the second belt pulley and the guide wheel are the same, and the rotating drum is a rope winding drum. And the monitoring device includes a PH monitor, a heavy metal monitor, a bacteria monitor and a turbidity monitor, and the PH monitor, heavy metal monitor, bacteria monitor and turbidity monitor are all monitoring computer main units. Connected and supervised information on water in the trench And calculating processed and transmitted to the computing main engine, water-line monitoring facilities.

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