CN215525760U - Lake water level and hydrological environment integrated self-propelled buoy detection sensing equipment - Google Patents

Abstract

The utility model provides an integrated self-propelled buoy detection sensing device for lake water level and hydrological environment, which relates to the technical field of water quality detection and comprises a buoy body, the buoy body is internally provided with an instrument bin, the bottom of the buoy body is provided with a detection device, the detection device comprises a connecting channel, one side in the connecting channel is provided with a wire arranging hole, the bottom of the connecting channel is provided with a protective disc, and the protection disc is connected with one end of the connecting channel through a flange, a sound wave measuring instrument is arranged in the protection disc, the protection disc is internally provided with a monitoring probe, the monitoring head and the surface of the sound wave measuring instrument are fixed with sealing rings, the protection disc and the sound wave measuring instrument are adopted, the increase of the functionality of the equipment is realized, the device can be used for installing a plurality of groups of different monitoring probes and equipment, obtaining different data, rapidly measuring the depth of the lake and protecting an effective equipment detection device.

Description

Lake water level and hydrological environment integrated self-propelled buoy detection sensing equipment

Technical Field

The utility model relates to the technical field of water quality detection, in particular to integrated self-propelled buoy detection sensing equipment for lake water level and hydrological environment.

Background

According to patent number CN201921690864.5, a quality of water environmental monitoring buoy, including the quality of water environmental monitoring buoy pump body, be equipped with the buoy body on the quality of water environmental monitoring buoy pump body, the buoy mesa, the buoy pole connector, the buoy pole, the wind direction flag, anchor fixing connecting rod mounting groove, anchor fixing, the solar energy electroplax, the circulation basin, the sealed cabin, control circuit board, anchor fixing is equipped with at the buoy body bottom of the quality of water environmental monitoring buoy pump body, make the stable aquatic of floating in the waters of certain limit of the quality of water environmental monitoring buoy pump body through anchor fixing, the inside of buoy body is equipped with the circulation basin, supersonic generator and ultrasonic receiver are equipped with respectively to the both ends port of circulation basin and are used for detecting the water turbidity, this device reasonable in design, moreover, the steam generator is simple in structure, can be stable stop in certain waters scope, real-time monitoring water environment.

The existing equipment is single in functionality, corresponding probes need to be replaced when conditions of other aspects of a water source are monitored, the working difficulty is increased for workers, a plurality of probes cannot be simultaneously installed in a sealing mode, and the probes cannot be protected when immersed underwater.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the defects in the prior art and provides integrated self-propelled buoy detection sensing equipment for lake water levels and hydrological environments.

In order to achieve the purpose, the utility model adopts the following technical scheme: the utility model provides a lake water level, integrated self-navigation formula buoy of hydrological environment detect sensing equipment, includes the buoy body, this internal instrument storehouse that is equipped with of buoy, buoy body bottom is equipped with detecting device, detecting device includes interface channel, the winding displacement hole has been seted up to the one side in the interface channel, the interface channel bottom is equipped with the protection disc, and the protection disc passes through the flange and is connected with interface channel one end, be equipped with the sound wave measuring apparatu in the protection disc, be equipped with monitoring probe in the protection disc, monitoring head and sound wave measuring instrument surface are fixed with the sealing ring.

Preferably, the connecting channel is connected with the bottom of the buoy body through a flange.

Preferably, the cable arranging hole penetrates through the connecting channel, and the cable arranging hole penetrates through the bottom surface of the buoy body at the same time.

Preferably, the protection disc bottom circumferential array is provided with grooves, the sound wave measuring instrument and the monitoring probe are respectively located in the grooves in the protection disc bottom, and the sound wave measuring instrument and the monitoring probe are respectively in threaded connection with the grooves in the protection disc bottom.

Preferably, the sealing ring is abutted against one inner surface of the protection disc and fixed with the protection disc through a bolt, and spiral pushing devices are arranged on the circumferential array of the surface of the buoy body.

Preferably, a sliding rail is fixed on the inner wall of the connecting channel, a sliding plate is arranged in the sliding rail, and a suspension head is fixed in a groove on the top surface of the sliding plate.

Preferably, the sliding plate is embedded in the sliding rail, an alarm button is arranged on the top surface in the sliding rail, and the alarm button is positioned right above the sliding plate.

Advantageous effects

In the utility model, a protection disc and a sound wave measuring instrument are adopted, different monitoring probes are arranged in grooves of a circumferential array at the bottom of the protection disc, a ring at the bottom of the protection disc is longer than the monitoring probes, three groups of spiral pushing devices are arranged on the surface of a buoy body, the buoy body can move, when the buoy body moves, the monitoring probes easily collide with objects such as fish sundries and the like due to the fact that the monitoring probes are arranged at the bottom of the water, the monitoring probes are easily damaged, the protection disc directly contacts with the sundries or the fishes through the ring at the bottom of the protection disc, the damage caused by the fact that the monitoring probes directly contact with the objects is avoided, when the depth of a lake needs to be measured, the sound wave measuring instrument is started, the sound wave is sent out from the bottom of a sound wave measuring instrument box, the sound wave rebounds when reaching the bottom, signals are received by corresponding instruments in the instrument bin and are transmitted to terminals of working personnel for storing and recording, the device comprises a speed sensor, a buoy body, a water flow sensor, a monitoring probe, a water flow sensor, a water outlet flow speed sensor, a water flow speed sensor, a water flow monitoring device and a water flow monitoring device.

According to the utility model, the suspension head is fixed on the inner wall of the connecting channel through the sliding rail, when the sealing problem in the equipment is damaged and the equipment fails, liquid enters the connecting channel, and as the monitoring probe and the connecting wire of the acoustic wave measuring instrument enter the instrument bin through the wire arranging hole of the connecting channel, the suspension head rises along with the height of entering water after water enters the connecting channel until the water rises to the position where the sliding plate is abutted against the alarm button, a signal is sent to a worker to take measures in time, and the worker is rapidly informed to take corresponding measures when the equipment enters water.

Drawings

FIG. 1 is an isometric view of the present invention;

FIG. 2 is a perspective view of the present invention;

FIG. 3 is a cross-sectional view of the present invention;

fig. 4 is an enlarged view of a in fig. 3.

Illustration of the drawings:

1. a buoy body; 2. an instrument bin; 3. a detection device; 301. a connecting channel; 302. a protective disk; 303. a wire arranging hole; 304. an acoustic wave meter; 305. monitoring the probe; 306. a seal ring; 4. a screw pushing device; 5. a sliding track; 6. a sliding plate; 7. a suspension head; 8. an alarm button.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the utility model easily understood, the utility model is further described below with reference to the specific embodiments and the attached drawings, but the following embodiments are only the preferred embodiments of the utility model, and not all embodiments. Based on the embodiments in the implementation, other embodiments obtained by those skilled in the art without any creative efforts belong to the protection scope of the present invention.

Specific embodiments of the present invention are described below with reference to the accompanying drawings.

The specific embodiment is as follows:

referring to fig. 1-4, an integrated self-propelled buoy detection sensing device for lake water level and hydrological environment comprises a buoy body 1, an instrument bin 2 is arranged in the buoy body 1, a detection device 3 is arranged at the bottom of the buoy body 1, the detection device 3 comprises a connecting channel 301, a wiring hole 303 is formed in one side of the connecting channel 301, a protection disc 302 is arranged at the bottom of the connecting channel 301, the protection disc 302 is connected with one end of the connecting channel 301 through a flange, a sound wave measuring instrument 304 is arranged in the protection disc 302, a monitoring probe 305 is arranged in the protection disc 302, sealing rings 306 are fixed on the surfaces of the monitoring head and the sound wave measuring instrument 304, the connecting channel 301 is connected with the bottom of the buoy body 1 through a flange, the wiring hole 303 penetrates through the connecting channel 301, the wiring hole 303 simultaneously penetrates through the bottom surface of the buoy body 1, grooves are formed in a circumferential array at the bottom of the protection disc 302, the sound wave measuring instrument 304 and the monitoring probe are respectively located in the grooves at the bottom of the protection disc 302, the acoustic wave measuring instrument 304 and the monitoring probe 305 are respectively in threaded connection with a groove at the bottom of the protection disc 302, the sealing ring 306 is abutted against one inner surface of the protection disc 302, the sealing ring 306 is fixed with the protection disc 302 through bolts, the circumferential array on the surface of the buoy body 1 is provided with the spiral pushing devices 4, different monitoring probes 305 are installed in the groove of the circumferential array at the bottom of the protection disc 302, the ring at the bottom of the protection disc 302 is longer than the monitoring probe 305, the buoy body 1 can move through the three groups of spiral pushing devices 4 installed on the surface of the buoy body 1, when the buoy body 1 moves, the monitoring probe 305 is easy to collide with objects such as fish sundries and the like, the monitoring probe 305 is easy to damage, through the ring at the bottom of the protection disc 302, the protection disc 302 is directly contacted with the sundries or the fish, and the damage caused by the direct contact of the monitoring probe 305 with the objects is avoided, when the depth of the lake needs to be measured, the acoustic wave measuring instrument 304 is started, the acoustic wave measuring instrument 304 sends out acoustic waves at the bottom of the water tank, the acoustic waves rebound to the bottom, signals are received by corresponding instruments in the instrument bin 2 and transmitted to a terminal of a worker for storage and recording, the water in the lake can be sequentially detected according to the installed monitoring probe 305, as the buoy body 1 can move, the speed sensor is installed on the surface of the buoy body 1, when the water speed needs to be measured, the relative movement between the buoy body 1 and the water flow can obtain the water flow outlet flow rate through calculation, the water inlet flow rate of the water flow can be measured by the movement of the buoy body 1 and the water flow in the same direction, the liquid is fixed on the inner wall of the connecting channel 301 through the sliding track 5, when the sealing problem in the equipment is damaged and failed, the liquid enters the connecting channel 301, as the connecting lines of the monitoring probe 305 and the acoustic wave measuring instrument 304 enter the instrument bin 2 through the wire arranging hole 303 of the connecting channel 301, after water enters the connecting channel 301, the suspension head 7 rises along with the height of entering water until the water rises to the position that the sliding plate 6 is abutted to the alarm button 8, then signals are sent to workers to take measures in time, the micro water pump can be installed with the buoy body 1, when the water level in the connecting channel 301 reaches a certain degree, the micro water pump is started to pump out liquid in the connecting channel 301, and the time for rescuing equipment by the workers is prolonged.

The inner wall of the connecting channel 301 is fixed with a sliding rail 5, a sliding plate 6 is arranged in the sliding rail 5, a suspension head 7 is fixed in a groove on the top surface of the sliding plate 6, the sliding plate 6 is embedded in the sliding rail 5, an alarm button 8 is arranged on the top surface in the sliding rail 5, the alarm button 8 is positioned right above the sliding plate 6 and is fixed on the inner wall of the connecting channel 301 through the sliding rail 5, when the sealing problem in the equipment is damaged and fails, liquid enters the connecting channel 301, as the connecting line of the monitoring probe 305 and the acoustic wave measuring instrument 304 enters the instrument bin 2 through the wire arranging hole 303 of the connecting channel 301, the suspension head 7 rises along with the height of entering water after water enters the connecting channel 301 until the connecting line is abutted against the alarm button 8 by the sliding plate 6, signals are sent to workers to take measures in time, the micro water pump can be installed on the buoy body 1, and when the water level in the connecting channel 301 reaches a certain degree, the micro water pump is started to pump out the liquid in the connecting channel 301 And the time for rescuing the equipment by the workers is increased.

The working principle of the utility model is as follows: different monitoring probes 305 are arranged in grooves of a circumferential array at the bottom of the protection disc 302, a ring at the bottom of the protection disc 302 is longer than the monitoring probes 305, three groups of spiral pushing devices 4 are arranged on the surface of the buoy body 1, the buoy body 1 can move, when the buoy body 1 moves, the monitoring probes 305 are easily collided with objects such as fish sundries and the like and the monitoring probes 305 are easily damaged, the protection disc 302 is directly contacted with the sundries or the fishes through the ring at the bottom of the protection disc 302, the damage caused by the direct contact of the monitoring probes 305 and the objects is avoided, when the depth of a lake needs to be measured, the sound wave measuring instrument 304 is started, the sound wave is emitted from the water bottom of the sound wave measuring instrument 304 box, the sound wave reaches the bottom and rebounds, and signals are received by corresponding instruments in the instrument box 2 and are transmitted to terminals of workers for storing and recording, the water in the lake can be detected according to the installed monitoring probe 305 in turn, the buoy body 1 can move, the speed sensor is arranged on the surface of the buoy body 1, the relative movement of the buoy body 1 and water flow can obtain the water flow outlet flow rate through calculation when the water speed needs to be measured, the water inlet flow rate of the water flow can be measured by moving the buoy body 1 and the water flow in the same direction, the water inlet flow rate is fixed on the inner wall of the connecting channel 301 through the sliding rail 5, when the sealing problem in the device is damaged and fails, liquid enters the connecting channel 301, as the connecting line of the monitoring probe 305 and the acoustic wave measuring instrument 304 enters the instrument chamber 2 through the cable hole 303 of the connecting channel 301, the suspension head 7 rises along with the height of the entering water after the water enters the connecting channel 301 until the connecting line rises to the sliding plate 6 and is abutted against the alarm button 8, a signal is sent to a worker to take measures in time, can install miniature pump and buoy body 1, start miniature pump and take out the liquid in connecting channel 301 when water level reaches certain degree in connecting channel 301, increase staff's rescue equipment's time.

In the present invention, unless otherwise expressly stated or limited, "above" or "below" a first feature means that the first and second features are in direct contact, or that the first and second features are not in direct contact but are in contact with each other via another feature therebetween. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

The foregoing shows and describes the general principles, essential features, and advantages of the utility model. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the preferred embodiments of the present invention are described in the above embodiments and the description, and are not intended to limit the present invention. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (7)

1. The utility model provides a lake water level, integrated self-propelled buoy of hydrology environment detect sensing equipment, includes buoy body (1), its characterized in that: be equipped with instrument storehouse (2) in buoy body (1), buoy body (1) bottom is equipped with detecting device (3), detecting device (3) are including interface channel (301), winding displacement hole (303) have been seted up to one side in interface channel (301), interface channel (301) bottom is equipped with protection disc (302), and protection disc (302) pass through the flange and be connected with interface channel (301) one end, be equipped with sound wave measuring apparatu (304) in protection disc (302), be equipped with monitor probe (305) in protection disc (302), monitoring head and sound wave measuring apparatu (304) fixed surface have sealing ring (306).

2. The integrated self-propelled buoy detection sensing equipment for the lake water level and the hydrological environment as claimed in claim 1, wherein: the connecting channel (301) is connected with the bottom of the buoy body (1) through a flange.

3. The integrated self-propelled buoy detection sensing equipment for the lake water level and the hydrological environment as claimed in claim 1, wherein: the line arranging holes (303) penetrate through the connecting channel (301), and the line arranging holes (303) penetrate through the bottom surface of the buoy body (1) simultaneously.

4. The integrated self-propelled buoy detection sensing equipment for the lake water level and the hydrological environment as claimed in claim 1, wherein: grooves are formed in the circumferential array of the bottom of the protection disc (302), the sound wave measuring instrument (304) and the monitoring probe (305) are respectively located in the grooves in the bottom of the protection disc (302), and the sound wave measuring instrument (304) and the monitoring probe (305) are respectively in threaded connection with the grooves in the bottom of the protection disc (302).

5. The integrated self-propelled buoy detection sensing equipment for the lake water level and the hydrological environment as claimed in claim 1, wherein: the sealing ring (306) is abutted to one inner surface of the protection disc (302), the sealing ring (306) is fixed with the protection disc (302) through a bolt, and spiral pushing devices (4) are arrayed on the circumference of the surface of the buoy body (1).

6. The integrated self-propelled buoy detection sensing equipment for the lake water level and the hydrological environment as claimed in claim 1, wherein: a sliding rail (5) is fixed on the inner wall of the connecting channel (301), a sliding plate (6) is arranged in the sliding rail (5), and a suspension head (7) is fixed in a groove in the top surface of the sliding plate (6).

7. The integrated self-propelled buoy detection sensing equipment for the lake water level and the hydrological environment as claimed in claim 6, wherein: the sliding plate (6) is embedded in the sliding rail (5), the top surface in the sliding rail (5) is provided with an alarm button (8), and the alarm button (8) is positioned right above the sliding plate (6).

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