CN115669514B - Field water level monitoring device - Google Patents

Abstract

The invention discloses a field water level monitoring device, and belongs to the technical field of water level monitoring equipment; the invention comprises a mounting platform, a water tank, a monitoring mechanism and an alarm adjusting mechanism, wherein the monitoring mechanism comprises a floating mark plate, an indicating assembly is arranged above the floating mark plate, and the indicating assembly is used for displaying the change of water level. The alarm adjusting mechanism comprises a trigger assembly, two symmetrically arranged high water level alarm assemblies and two symmetrically arranged low water level alarm assemblies, wherein the trigger assembly comprises two symmetrically arranged first trapezoid blocks which are slidably mounted on a mounting platform, and two sides of each first trapezoid block are respectively connected with one high water level alarm assembly and one low water level alarm assembly. The invention monitors the water level in the farmland through the monitoring mechanism and the alarm adjusting mechanism and timely processes the water level when the water level changes, and has simple structure and convenient operation.

Description

Field water level monitoring device

Technical Field

The invention belongs to the technical field of water level monitoring equipment, and particularly relates to a field water level monitoring device.

Background

In the course of farmland planting, it is necessary to monitor and regulate the water level in the farmland. When the water level in the farmland is too high, the permeability of the farmland soil is reduced, the temperature of the ground is also reduced, and if the permeability of the soil is reduced, the root of crops is easy to rot; when the water level in the farmland is too low, the roots of crops can be directly exposed to the sun, and drought and crop death can occur in the farmland when the water level is severe. Therefore, neither too high a water level nor too low a water level affects the growth of the crop, which requires monitoring and regulation of the water level in the farmland.

The Chinese patent with the bulletin number of CN108896136B discloses farmland water utilization farmland water level monitoring equipment, which comprises a base plate, support rods, cross rods, a fixing mechanism and a monitoring mechanism, wherein the support rods are symmetrically arranged on the left side and the right side of the top of the base plate, the fixing mechanism is arranged on the support rods on the left side and the right side, the cross rods are arranged between the upper parts of the inner side surfaces of the support rods on the left side and the right side, and the middle part of the front side of the cross rods is provided with the monitoring mechanism. Although the invention can monitor the water level, the water level which is changed cannot be processed and alarmed in time. The invention provides a field water level monitoring device aiming at the problems.

Disclosure of Invention

Aiming at the technical problems, the invention adopts the following technical scheme: a field water level monitoring device comprises an installation platform, a water tank, a monitoring mechanism and an alarm adjusting mechanism; the water tank is arranged above the mounting platform.

The monitoring mechanism comprises a buoy plate, the buoy plate is placed on the water surface, an indicating assembly is arranged above the buoy plate, and the indicating assembly is used for displaying the change of the water level.

The alarm adjusting mechanism comprises a trigger assembly, two symmetrically arranged high water level alarm assemblies and two symmetrically arranged low water level alarm assemblies, the trigger assembly comprises two symmetrically arranged first trapezoid blocks, the first trapezoid blocks are slidably mounted on a mounting platform, a first reset spring is arranged between the first trapezoid blocks and the mounting platform, three inclined planes on the first trapezoid blocks are slidably matched with the side faces of an isosceles triangle, and each of the two sides of the first trapezoid blocks is connected with one high water level alarm assembly and one low water level alarm assembly respectively.

Further, the indicating assembly comprises a scale plate, the scale plate is fixedly arranged above the mounting platform, a scale is arranged on one end face on the scale plate, a large gear is rotatably arranged on one side face opposite to the end face where the scale is arranged, a pointer is fixedly arranged on the large gear, the large gear is meshed with a cylindrical gear II, the cylindrical gear II is fixedly arranged at one end of a connecting shaft, the other end of the connecting shaft is fixedly provided with a cylindrical gear I, the connecting shaft penetrates through a water tank and is in running fit with the water tank, the cylindrical gear I is meshed with a vertical rack, the vertical rack is arranged above the floating scale plate, and the vertical rack is connected with the floating scale plate through a driving assembly.

Further, the drive assembly include translation frame, translation frame one end and buoy board fixed connection, translation frame other end and vertical rack fixed connection, just translation frame slidable mounting on mounting platform, translation frame on fixed mounting have isosceles triangle, isosceles triangle cross-section shape be isosceles triangle.

Further, high water level alarm assembly include trapezoidal piece two, remove frame, gong, trapezoidal piece two fixed mounting on trapezoidal piece one, trapezoidal piece two on be provided with inclined plane one, remove frame slidable mounting on mounting platform, just remove the frame and be provided with inclined plane two towards trapezoidal piece two's top, inclined plane one with inclined plane two the slope the same, remove frame below fixed mounting have deflector and reset spring two's one end, reset spring two's the other end and mounting platform fixed connection, the deflector on slidable mounting have horizontal rack, horizontal rack on fixed mounting have the ball pole, just horizontal rack and deflector between be provided with reset spring three, reset spring three keep away from horizontal rack's one end be provided with the bulb, gong fixed mounting on mounting platform, the bulb be located between gong and the horizontal rack, when trapezoidal piece one side of being close to trapezoidal piece one is slided always, trapezoidal piece two make remove the frame drive the deflector along the installation when upwards sliding, horizontal rack and drive the horizontal rack and make the warning on the drive assembly touch on the horizontal rack through the drive assembly.

Further, the drive assembly include incomplete gear, incomplete gear be located the top of deflector, and incomplete gear and gear shaft fixed connection, the gear shaft rotate and install on mounting platform, the output shaft fixed connection of gear shaft and motor, motor fixed mounting on mounting platform.

Further, low water level alarm assembly include square board, bee calling organ, square board slidable mounting on mounting platform, and be provided with reset spring five between square board and the mounting platform, the one side of square board on towards trapezoidal piece two is provided with signal transmitter, bee calling organ fixed mounting on mounting platform, when trapezoidal piece one side gliding of being close to square board in one direction, trapezoidal piece one touch signal transmitter, signal transmitter control bee calling organ send the police dispatch newspaper.

Further, alarm adjustment mechanism still include two symmetrical arrangement's subassembly that draws water, two subassemblies that draw water are connected with two high water level alarm assemblies respectively, the subassembly that draws water include the right-angle plate, the right-angle plate pass through reset spring four and remove the frame and be connected, right-angle plate and mounting platform sliding fit, the right-angle plate on rotate and install the intermediate gear, the intermediate gear be located between edge gear and the driving gear, edge gear rotate and install on mounting platform, and edge gear and impeller coaxial coupling, the impeller be located inside the drinking-water pipe, just the one end and the water tank intercommunication of drinking-water pipe.

Further, alarm adjustment mechanism still include two symmetrical arrangement's moisturizing subassembly, two moisturizing subassemblies are connected with two low water level alarm components respectively, moisturizing subassembly include the push rod, the push rod be located the top of square board, and push rod and mounting platform sliding fit, be provided with reset spring six between push rod and the mounting platform, the push rod on fixed mounting have the breakwater, breakwater and water supply pipe sliding fit, the one end of water supply pipe install on the water tank and with the water tank intercommunication, the other end of water supply pipe be located the outside of water tank and be located the below of mounting platform, the water supply pipe is connected with the water pump in the water tank.

Compared with the prior art, the invention has the beneficial effects that: (1) The invention monitors the water level in the farmland through the monitoring mechanism and the alarm adjusting mechanism and processes the water level in time when the water level changes, and has simple structure and convenient operation; (2) The alarm adjusting mechanism comprises a high water level alarm assembly and a low water level alarm assembly, can carry out targeted alarm on various forms of water level change, has comprehensive monitoring function and strong practicability; (3) The high water level alarm assembly and the low water level alarm assembly are respectively connected with the water pumping assembly and the water supplementing assembly, namely, when the water level rises or falls, the water level in the farmland can be regulated in different modes, so that the water level of the farmland is kept stable.

Drawings

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

Fig. 2 is a schematic view of another angle structure of fig. 1.

Fig. 3 is a schematic view of the rest of the structure of the present invention with the water tank omitted.

Fig. 4 is a schematic view of a partial enlarged structure at B in fig. 3.

Fig. 5 is a schematic diagram of a portion of the structure of the present invention.

Fig. 6 is a schematic view of another angle structure of fig. 5.

Fig. 7 is a schematic view of a partial enlarged structure at a in fig. 6.

Fig. 8 is a cross-sectional view of a portion of the structure of the present invention.

Fig. 9 is a schematic view of a partially enlarged structure at C in fig. 8.

Fig. 10 is a cross-sectional view of a portion of the structure of the present invention.

FIG. 11 is a schematic diagram of a portion of a second embodiment of the present invention.

Reference numerals: 1-a mounting platform; 2-a water tank; 3-a monitoring mechanism; 301-floating mark plate; 302-a translation frame; 303-isosceles triangle; 304-vertical racks; 305-first cylindrical gear; 306-a connecting shaft; 307-cylindrical gear two; 308-large gear; 309-pointer; 310-scale plate; 4-an alarm adjusting mechanism; 401-trapezoidal block one; 402-return spring one; 403-trapezoidal block two; 404-moving a rack; 405-slope one; 406-slope two; 407-reset spring two; 408-a guide plate; 409-horizontal rack; 410-a club head; 411-reset spring three; 412-gong; 413-incomplete gear; 414-gear shaft; 415-a drive gear; 416-motor; 417-edge gear; 418—an intermediate gear; 419-right angle plates; 420-reset spring four; 421-impeller; 422-a water suction pipe; 423-square plate; 424-a signal transmitter; 425-a return spring five; 426—push rod; 427-reset spring six; 428-water baffle; 429-a water supply pipe; 430-buzzer.

Detailed Description

The technical scheme of the invention is further described below by the specific embodiments with reference to the accompanying drawings.

In which the drawings are schematic representations, not physical drawings, and are not to be construed as limiting the present patent, and in which certain elements are omitted, enlarged or reduced in order to better illustrate the embodiments of the present invention, and not to represent the actual product dimensions, it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

Examples: the field water level monitoring device as shown in fig. 1-11 comprises a mounting platform 1, a water tank 2, a monitoring mechanism 3 and an alarm adjusting mechanism 4; the water tank 2 is installed above the installation platform 1.

The monitoring mechanism 3 comprises a buoy plate 301, wherein the buoy plate 301 is placed on the water surface, and an indicating component is arranged above the buoy plate 301 and used for displaying the change of the water level.

The alarm adjusting mechanism 4 comprises a trigger assembly, two symmetrically arranged high water level alarm assemblies and two symmetrically arranged low water level alarm assemblies, the trigger assembly comprises two symmetrically arranged first trapezoid blocks 401, the first trapezoid blocks 401 are slidably mounted on the mounting platform 1, a first reset spring 402 is arranged between the first trapezoid blocks 401 and the mounting platform 1, three inclined planes on the first trapezoid blocks 401 are in sliding fit with the side faces of the isosceles triangle 303, and two sides of each first trapezoid block 401 are respectively connected with one high water level alarm assembly and one low water level alarm assembly.

The indicating assembly comprises a scale plate 310, the scale plate 310 is fixedly arranged above the mounting platform 1, a scale is arranged on one end face of the scale plate 310, a large gear 308 is rotatably arranged on one side face opposite to the end face where the scale is arranged, a pointer 309 is fixedly arranged on the large gear 308, the large gear 308 is meshed with a cylindrical gear II 307, the cylindrical gear II 307 is fixedly arranged at one end of a connecting shaft 306, a cylindrical gear I305 is fixedly arranged at the other end of the connecting shaft 306, the connecting shaft 306 penetrates through a water tank 2 and is in rotary fit with the water tank 2, the cylindrical gear I305 is meshed with a vertical rack 304, the vertical rack 304 is arranged above the floating mark plate 301, and the vertical rack 304 is connected with the floating mark plate 301 through a driving assembly.

The driving assembly comprises a translation frame 302, one end of the translation frame 302 is fixedly connected with a buoy plate 301, the other end of the translation frame 302 is fixedly connected with a vertical rack 304, the translation frame 302 is slidably mounted on the mounting platform 1, an isosceles triangle 303 is fixedly mounted on the translation frame 302, and the section of the isosceles triangle 303 is isosceles triangle.

The high water level alarm assembly comprises a second trapezoid block 403, a moving frame 404 and a gong 412, wherein the second trapezoid block 403 is fixedly arranged on the first trapezoid block 401, an inclined plane I405 is arranged on the second trapezoid block 403, the moving frame 404 is slidably arranged on the mounting platform 1, an inclined plane II 406 is arranged above the second trapezoid block 403 towards the moving frame 404, the inclined planes of the inclined plane I405 and the inclined plane II 406 are the same, a guide plate 408 and one end of a return spring II 407 are fixedly arranged below the moving frame 404, the other end of the return spring II 407 is fixedly connected with the mounting platform 1, a horizontal rack 409 is slidably arranged on the guide plate 408, a ball rod 410 is fixedly arranged on the horizontal rack 409, a return spring III 411 is arranged between the horizontal rack 409 and the guide plate 408, one end of the return spring III is provided with a ball head, the gong 412 is fixedly arranged on the mounting platform 1, the ball head is positioned between the gong 412 and the horizontal rack 409, when the first trapezoid block 401 slides towards one side close to the first trapezoid block 401, the second trapezoid block 403 enables the moving frame 404 to drive the guide plate 408 to slide upwards along the mounting platform 1, the horizontal rack 409 is connected with the horizontal rack 409 to drive the horizontal rack to touch the guide plate 408, and the horizontal rack 408 is driven to touch the guide plate 410, and the horizontal rack 408 is driven to touch the horizontal rack 408, and the warning assembly is enabled to touch the horizontal rack 409.

The driving assembly comprises an incomplete gear 413, the incomplete gear 413 is located above the guide plate 408, the incomplete gear 413 is fixedly connected with a gear shaft 414, the gear shaft 414 is rotatably installed on the installation platform 1, the gear shaft 414 is fixedly connected with an output shaft of a motor 416, and the motor 416 is fixedly installed on the installation platform 1.

The low water level alarm assembly comprises a square plate 423 and a buzzer 430, wherein the square plate 423 is slidably mounted on the mounting platform 1, a reset spring five 425 is arranged between the square plate 423 and the mounting platform 1, a signal emitter 424 is arranged on one face, facing to the second trapezoid block 403, of the square plate 423, the buzzer 430 is fixedly mounted on the mounting platform 1, when the first trapezoid block 401 slides towards one side, close to the square plate 423, the first trapezoid block 401 touches the signal emitter 424, and the signal emitter 424 controls the buzzer 430 to give an alarm.

The alarm adjusting mechanism 4 further comprises two symmetrically arranged water pumping assemblies, the two water pumping assemblies are respectively connected with the two high water level alarm assemblies, each water pumping assembly comprises a right-angle plate 419, the right-angle plates 419 are connected with the movable frame 404 through four return springs 420, the right-angle plates 419 are in sliding fit with the mounting platform 1, the middle gears 418 are rotatably mounted on the right-angle plates 419, the middle gears 418 are located between the edge gears 417 and the driving gears 415, the edge gears 417 are rotatably mounted on the mounting platform 1, the edge gears 417 are coaxially connected with the impellers 421, the impellers 421 are located inside the water pumping pipes 422, and one ends of the water pumping pipes 422 are communicated with the water tank 2.

The alarm adjusting mechanism 4 further comprises two symmetrically arranged water supplementing assemblies, the two water supplementing assemblies are respectively connected with the two low water level alarm assemblies, the water supplementing assemblies comprise push rods 426, the push rods 426 are located above the square plates 423, the push rods 426 are in sliding fit with the mounting platform 1, reset springs six 427 are arranged between the push rods 426 and the mounting platform 1, water baffles 428 are fixedly mounted on the push rods 426, the water baffles 428 are in sliding fit with water delivery pipes 429, one ends of the water delivery pipes 429 are mounted on the water tank 2 and are communicated with the water tank 2, the other ends of the water delivery pipes 429 are located outside the water tank 2 and below the mounting platform 1, and the water delivery pipes 429 are connected with a water pump in the water tank 2.

Working principle: the installation platform 1 is fixed in the farmland, and then the floating mark plate 301 is placed on the water surface in the farmland, so that the water level is monitored.

When the water level in the farmland rises, the floating mark plate 301 moves upwards under the pushing of the buoyancy of water, and at the moment, the translation frame 302 fixedly connected with the floating mark plate 301 slides upwards along the mounting platform 1, so that the isosceles triangle 303 and the vertical rack 304 above the translation frame 302 move upwards.

In the process of moving the vertical rack 304 upwards, the first cylindrical gear 305 meshed with the vertical rack 304 rotates, the first cylindrical gear 305 drives the connecting shaft 306 to rotate on the mounting platform 1, the second cylindrical gear 307 fixed at one end, far away from the first cylindrical gear 305, of the connecting shaft 306 rotates, the second cylindrical gear 307 enables the large gear 308 positioned on the outer side of the mounting platform 1 to rotate on the scale plate 310, and along with the anticlockwise rotation of the large gear 308 (as shown in fig. 3 and 4), the pointer 309 rotates, so that the pointer 309 rotates to the left on the scale of the scale plate 310 by a certain angle and points to a certain scale, and the change amount of the water level can be reflected.

Meanwhile, in the process that the isosceles triangle 303 moves upwards along with the translation frame 302, two side faces of the isosceles triangle 303 gradually move upwards (as shown in fig. 5), so that the two side faces of the isosceles triangle 303 slide along the two inclined faces III of the first trapezoid block 401 and push the first trapezoid block 401 to a direction away from each other, the first reset spring 402 is compressed in the process, and the first reset spring 402 is used for assisting the reset of the first trapezoid block 401. In the sliding process of the first trapezoid block 401, the first trapezoid block 401 drives the second trapezoid block 403 to slide towards the side close to the moving frame 404, the first inclined plane 405 on the second trapezoid block 403 and the second inclined plane 406 on the moving frame 404 slide relatively, the second trapezoid block 403 gradually lifts the moving frame 404 upwards, the moving frame 404 slides upwards along the mounting platform 1, the second return spring 407 is compressed in the process, and the second return spring 407 is used for assisting in resetting of the moving frame 404. During the upward movement of the moving frame 404, the guide plate 408 fixedly installed on the moving frame 404 moves upward together with the horizontal rack 409 and eventually the horizontal rack 409 moves to a place where it is engaged with the incomplete gear 413, and in addition, during the upward movement of the moving frame 404, the moving frame 404 pushes the right angle plate 419 upward by the return spring four 420 so that the intermediate gear 418 rotatably installed on the right angle plate 419 moves between the edge gear 417 and the driving gear 415 and the three are engaged with each other. At this time, the motor 416 is started, the gear shaft 414 fixedly connected to the output shaft of the motor 416 drives the driving gear 415 and the incomplete gear 413 to rotate, and in the process of rotating the incomplete gear 413, only a part of circumference of the incomplete gear 413 is provided with teeth, so that when the part with teeth rotates to be meshed with the horizontal rack 409, the horizontal rack 409 is driven by the incomplete gear 413 to slide on the guide plate 408, and meanwhile, the ball head 410 slides along with the horizontal rack 409, so that the ball head on the ball head 410 touches the gong 412, thereby making the gong 412 make a sound, and prompting the monitoring personnel. When the driving gear 415 rotates, the driving gear 415 rotates the edge gear 417 through the intermediate gear 418, and the edge gear 417 is coaxially connected with the impeller 421 positioned in the water pumping pipe 422, so that water in the farmland can be pumped into the water tank 2 for storage through the impeller 421, and not only is the redundant water collected, but also damage caused by overhigh water level in the farmland is avoided.

When the water level in the farmland gradually drops, the height of the buoy plate 301 drops, and then the buoy plate 301 drives the isosceles triangle 303 and the vertical rack 304 to drop together through the translation frame 302.

In the process of descending the vertical rack 304, the vertical rack 304 rotates the cylindrical gear two 307 and the large gear 308 through the cylindrical gear one 305 and the connecting shaft 306, so that the large gear 308 drives the pointer 309 to rotate on the side opposite to the direction at the time of high water level, and the water level change amount is displayed.

In the process of downward movement of the isosceles triangle 303, the first trapezoidal block 401 moves towards the direction approaching to each other, so that the first trapezoidal block 401 moves towards one side approaching to the horizontal rack 409 with the second trapezoidal block 403, at this time, the first trapezoidal block 401 touches the signal emitter 424 on the square plate 423, the square plate 423 slides on the mounting platform 1, the signal emitter 424 transmits the touching signal of the first trapezoidal block 401 to the buzzer 430 through processing, so that the buzzer 430 sends out an alarm, the fifth return spring 425 is compressed, and the fifth return spring 425 functions as an auxiliary signal emitter 424 to reset. Meanwhile, when the second trapezoid block 403 moves along with the first trapezoid block 401, the second trapezoid block 403 touches the push rod 426 located above the second trapezoid block 403, the push rod 426 slides along the mounting platform 1, the reset spring six 427 is compressed in the process, the reset spring six 427 is used for assisting the push rod 426 to reset, when the push rod 426 slides, the water baffle 428 fixedly installed on the push rod 426 slides out of the water supply pipe 429, the inside of the water supply pipe 429 is not blocked, a water pump is started at the moment, water stored in the water tank 2 can be discharged from the water supply pipe 429 by the water pump, and water flows into a farmland from the lower end of the water supply pipe 429 to supplement water in the farmland. It should be noted that, the signal transmitter 424 is capable of acquiring a signal and then converting the signal by the control system, so as to finally make the buzzer 430 sound an alarm, which is known and implemented by those skilled in the art.

Claims (2)

1. The utility model provides a field water level monitoring devices, includes mounting platform (1), water tank (2), its characterized in that: the device also comprises a monitoring mechanism (3) and an alarm adjusting mechanism (4); the water tank (2) is arranged above the mounting platform (1);

the monitoring mechanism (3) comprises a buoy plate (301), wherein the buoy plate (301) is placed on the water surface, an indication component is arranged above the buoy plate (301) and is used for displaying the change of the water level;

the alarm adjusting mechanism (4) comprises a trigger assembly, two symmetrically arranged high water level alarm assemblies and two symmetrically arranged low water level alarm assemblies, the trigger assembly comprises two symmetrically arranged trapezoid blocks I (401), the trapezoid blocks I (401) are slidably arranged on the mounting platform (1), a reset spring I (402) is arranged between the trapezoid blocks I (401) and the mounting platform (1), an inclined plane III on the trapezoid blocks I (401) is in sliding fit with the side face of the isosceles triangle (303), and two sides of each trapezoid block I (401) are respectively connected with one high water level alarm assembly and one low water level alarm assembly;

the indicating assembly comprises a scale plate (310), wherein the scale plate (310) is fixedly arranged above the mounting platform (1), a scale is arranged on one end face of the scale plate (310), a large gear (308) is rotatably arranged on one side face opposite to the end face where the scale is arranged, a pointer (309) is fixedly arranged on the large gear (308), the large gear (308) is meshed with a cylindrical gear II (307), the cylindrical gear II (307) is fixedly arranged at one end of a connecting shaft (306), a cylindrical gear I (305) is fixedly arranged at the other end of the connecting shaft (306), the connecting shaft (306) penetrates through a water tank (2) and is in rotary fit with the water tank (2), the cylindrical gear I (305) is meshed with a vertical rack (304), the vertical rack (304) is arranged above a floating mark plate (301), and the vertical rack (304) is connected with the floating mark plate (301) through a driving assembly;

the driving assembly comprises a translation frame (302), one end of the translation frame (302) is fixedly connected with the buoy plate (301), the other end of the translation frame (302) is fixedly connected with the vertical rack (304), the translation frame (302) is slidably mounted on the mounting platform (1), an isosceles triangle (303) is fixedly mounted on the translation frame (302), and the cross section of the isosceles triangle (303) is isosceles triangle;

the high water level alarm assembly comprises a trapezoid block II (403), a movable frame (404) and a gong (412), wherein the trapezoid block II (403) is fixedly arranged on the trapezoid block I (401), an inclined plane I (405) is arranged on the trapezoid block II (403), the movable frame (404) is slidably arranged on the mounting platform (1), an inclined plane II (406) is arranged above the movable frame (404) towards the trapezoid block II (403), the inclined plane I (405) has the same gradient with the inclined plane II (406), a guide plate (408) and one end of a return spring II (407) are fixedly arranged below the movable frame (404), the other end of the return spring II (407) is fixedly connected with the mounting platform (1), a horizontal rack (409) is slidably arranged on the guide plate (408), a ball head rod (410) is fixedly arranged on the horizontal rack (409), a return spring III (411) is arranged between the horizontal rack (409) and the guide plate (406), and when the horizontal rack III (405) is arranged on one side, which is close to the one end of the trapezoid block (401), which is arranged on the horizontal rack (401) and is close to the mounting platform (401), when the trapezoid block II (403) enables the moving frame (404) to drive the guide plate (408) to slide upwards along the mounting platform (1), the horizontal rack (409) is connected with the driving assembly, and the driving assembly pushes the horizontal rack (409) to slide on the guide plate (408) so that a ball head on the ball head rod (410) touches the gong (412) to give an alarm;

the driving assembly comprises an incomplete gear (413), the incomplete gear (413) is positioned above the guide plate (408), the incomplete gear (413) is fixedly connected with a gear shaft (414), the gear shaft (414) is rotatably arranged on the mounting platform (1), the gear shaft (414) is fixedly connected with an output shaft of a motor (416), and the motor (416) is fixedly arranged on the mounting platform (1);

the low water level alarm assembly comprises a square plate (423) and a buzzer (430), wherein the square plate (423) is slidably arranged on the mounting platform (1), a return spring five (425) is arranged between the square plate (423) and the mounting platform (1), a signal emitter (424) is arranged on one surface, facing to the second trapezoid block (403), of the square plate (423), the buzzer (430) is fixedly arranged on the mounting platform (1), and when the first trapezoid block (401) slides to one side, close to the square plate (423), the first trapezoid block (401) touches the signal emitter (424), and the signal emitter (424) controls the buzzer (430) to give an alarm;

alarm adjustment mechanism (4) still include two symmetrical arrangement's subassembly that draws water, two subassemblies that draw water are connected with two high water level alarm assemblies respectively, the subassembly that draws water include right-angle plate (419), right-angle plate (419) be connected with movable frame (404) through return spring four (420), right-angle plate (419) and mounting platform (1) sliding fit, right-angle plate (419) on rotate and install intermediate gear (418), intermediate gear (418) be located between edge gear (417) and driving gear (415), edge gear (417) rotate and install on mounting platform (1), and edge gear (417) and impeller (421) coaxial coupling, impeller (421) be located inside of drinking-water pipe (422), one end and water tank (2) intercommunication of drinking-water pipe (422).

2. A field water level monitoring apparatus as defined in claim 1, wherein: alarm adjustment mechanism (4) still include two symmetrical arrangement's moisturizing subassembly, two moisturizing subassemblies are connected with two low water level alarm subassembly respectively, moisturizing subassembly include push rod (426), push rod (426) be located the top of square board (423), and push rod (426) and mounting platform (1) sliding fit, be provided with reset spring six (427) between push rod (426) and mounting platform (1), push rod (426) on fixed mounting have breakwater (428), breakwater (428) and water supply pipe (429) sliding fit, the one end of water supply pipe (429) install on water tank (2) and communicate with water tank (2), the other end of water supply pipe (429) be located the outside of water tank (2) and be located the below of mounting platform (1), water supply pipe (429) are connected with the water pump in water tank (2).