CN214843216U - Network hydrology information acquisition device - Google Patents

Abstract

The utility model belongs to the technical field of hydrology information acquisition, especially, relate to a network hydrology information acquisition device, including pond, fixed loop bar, liquid level detection mechanism and liquid level pole, the top left side fixed mounting in pond has detection mechanism, and detection mechanism's left side fixed mounting has data transmission ware. This network hydrology information acquisition device, when the liquid level of liquid level rose, the liquid level can make progress the jack-up lifter plate and slide in liquid level intracavity portion, the atmospheric pressure of liquid level intracavity portion rose this moment, can discharge into sealed intracavity portion through communicating pipe, the atmospheric pressure of magnetic slide bottom rose the back, can promote the inside upwards slip of magnetic slide at sealed chamber, the magnetic slide is at the gliding in-process that makes progress, the magnetic slide promotes the piston rod jack-up, the top of piston rod can show the height of liquid level at the surface of liquid level pole, slide through two-way drive magnetic slide, make the detection of liquid level more accurate.

Description

Network hydrology information acquisition device

Technical Field

The utility model relates to a hydrology information acquisition technical field specifically is a network hydrology information acquisition device.

Background

Hydrologic information collection, also known as hydrologic testing, refers to the collective name of technical work for systematically collecting and organizing hydrologic data, and hydrologic information collection in the narrow sense refers to the observation of hydrologic elements, which is the basis of hydrology.

Hydrology information acquisition's information type is more, and current hydrology information acquisition device's functionality is comparatively single, can't the all information to the hydrology of full aspect collect.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a network hydrology information acquisition device to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a network hydrology information acquisition device, includes pond, fixed loop bar, liquid level detection mechanism and liquid level pole, fixed loop bar fixed mounting is on the inner wall right side in pond, liquid level detection mechanism sliding connection is in the inside of fixed loop bar, liquid level pole fixed mounting is on the top right side in pond.

Liquid level detection mechanism comprises test tube, sealed chamber, magnetism slider, magnet, kickboard, communicating pipe, liquid level chamber, lifter plate, piston rod and flow detection meter, piston rod sliding connection is in the inside of fixed loop bar, test tube sliding connection is in the surface of piston rod, the inside top of test tube is seted up in sealed chamber, magnetism slider sliding connection is in the inside in sealed chamber, magnet sets up in the surface of test tube, one side of test tube is kept away from to kickboard fixed connection in magnet.

Preferably, communicating pipe fixed connection is in the bottom of test tube, the inside bottom of test tube is seted up in the liquid level chamber, lifter plate sliding connection is in the inside in liquid level chamber, flow detection meter fixed mounting is in the surface bottom of test tube, and when the liquid level of liquid level rose, the liquid level can upwards jack-up the lifter plate and slide in liquid level intracavity portion, and the atmospheric pressure of liquid level intracavity portion rose this moment, can arrange into sealed intracavity portion through communicating pipe, and the atmospheric pressure of magnetic slider bottom rose the back, can promote the inside up slip of magnetic slider in sealed chamber, and magnetic slider is at the gliding in-process that makes progress, and magnetic slider promotes the piston rod jack-up that makes progress.

Preferably, one side that magnetism slider and magnet are close to attracts each other, the top and the test tube intercommunication of communicating pipe, the bottom and the liquid level chamber intercommunication of communicating pipe, the surface that fixed loop bar and extended to the liquid level pole is run through at the top of piston rod, the quantity of flow detection meter is two, two the measurement meter symmetry fixed mounting is in the surface bottom of test tube, and the rising of liquid level can make the high rising of kickboard, and the kickboard drives magnet rebound, because one side that magnetism slider and magnet are close to attracts each other, so the inside of magnetism slider at sealed chamber upwards slides, and magnetism slider promotes the piston rod and upwards jacks up, and the top of piston rod can show the height of liquid level at the surface of liquid level pole, and the flow detection meter can detect the flow in aqueous, sends the data that detect to data transmission ware.

Preferably, the top left side fixed mounting in pond has detection mechanism, detection mechanism's right side fixedly connected with drinking-water pipe, detection mechanism's left side fixed mounting has data transmission ware, and data transmission ware passes through the network and is connected with the computer of distal end, sends the hydrology information that detects through the network.

Preferably, detection mechanism comprises water pump, inlet tube, detection chamber, water quality testing meter, temperature detection meter, biological quality testing meter, data collection station and drain pipe, water pump fixed mounting is in detection mechanism's top, detect chamber fixed mounting in detection mechanism's inside, inlet tube fixed connection is in the right side in detection chamber, data collection station fixed mounting is in the inside top in detection chamber, the equal fixed mounting in data collection station of water quality testing meter, temperature detection meter and biological quality testing meter, water pipe fixed connection is in the positive bottom in detection chamber, and the start water pump is taken out water to the inlet tube through the drinking-water pipe, flows in and detects the chamber, and water quality testing meter, temperature detection meter and biological quality testing meter in the detection chamber can detect out the corresponding data in the aquatic in proper order.

Preferably, the inlet tube communicates with the drinking-water pipe, data collection station and data transmission ware electric connection, water quality testing meter, temperature detection meter and biological quality testing meter all with data collection station electric connection, through with data collection station electric connection, with the data transmission who detects to data collection station in, data collection station with data integration back, send for data transmission ware, data transmission ware sends the hydrology information that detects through the network.

Preferably, the data transmitter is electrically connected with the flow rate detection meter.

Compared with the prior art, the beneficial effects of the utility model are that:

1. this network hydrology information acquisition device, when the liquid level at the liquid level rose, the liquid level can make progress the jack-up lifter plate and slide in liquid level intracavity portion, the atmospheric pressure of liquid level intracavity portion rose this moment, can discharge sealed intracavity portion through communicating pipe, the atmospheric pressure of magnetic slider bottom rose the back, can promote the inside up-sliding of magnetic slider at sealed cavity, magnetic slider is at the gliding in-process that makes progress, magnetic slider promotes the piston rod jack-up that makes progress, the rise of liquid level can make the high rising of kickboard, the kickboard drives magnet rebound, because one side that magnetic slider and magnet are close to attracts each other, so magnetic slider upwards slides in the inside of sealed cavity, magnetic slider promotes the jack-up of piston rod, the top of piston rod can show the height of liquid level at the surface of liquid level pole, slide through two-way drive magnetic slider, make the detection of liquid level more accurate.

2. This network hydrology information acquisition device, the flow detection meter can detect the flow of aquatic, send the data that detect to data transmission ware, start the water pump and take out water to the inlet tube through the drinking-water pipe, flow in and detect in the chamber, detect the water quality testing meter in the chamber, temperature detect meter and biological quality testing meter can detect out the corresponding data of aquatic in proper order, through with data collection station electric connection, data transmission to data collection station that will detect, data collection station is with data integration back, send for data transmission ware, data transmission ware sends the hydrology information that detects through the network.

Drawings

FIG. 1 is an overall side view of the present invention;

fig. 2 is a cross-sectional view of the detecting mechanism of the present invention;

FIG. 3 is a schematic structural view of the liquid level detecting mechanism of the present invention;

fig. 4 is a top view of the fixing loop bar of the present invention.

In the figure: 1 water pool, 2 detection mechanisms, 201 water pump, 202 water inlet pipe, 203 detection cavity, 204 water quality detector, 205 temperature detector, 206 biological quality detector, 207 data collector, 208 water outlet pipe, 3 water pumping pipe, 4 data transmitter, 5 fixed loop bar, 6 liquid level detection mechanism, 601 detection pipe, 602 sealed cavity, 603 magnetic slide block, 604 magnet, 605 floating plate, 606 communicating pipe, 607 liquid level cavity, 608 lifting plate, 609 piston rod, 610 flow detector and 7 liquid level rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: the utility model provides a network hydrology information acquisition device, including pond 1, fixed loop bar 5, liquid level detection mechanism 6 and liquid level pole 7, 5 fixed mounting in the inner wall right side in pond 1 of fixed loop bar, 6 sliding connection in the inside of fixed loop bar 5 of liquid level detection mechanism, 7 fixed mounting in the top right side in pond 1 of liquid level pole, the top left side fixed mounting in pond 1 has detection mechanism 2, the right side fixedly connected with drinking-water pipe 3 of detection mechanism 2, the left side fixed mounting of detection mechanism 2 has data transmission ware 4.

The detection mechanism 2 comprises a water pump 201, a water inlet pipe 202, a detection cavity 203, a water quality detector 204, a temperature detector 205, a biological quality detector 206, a data collector 207 and a drain pipe 208, the water pump 201 is fixedly arranged at the top of the detection mechanism 2, the detection cavity 203 is fixedly arranged inside the detection mechanism 2, the water inlet pipe 202 is fixedly connected with the right side of the detection cavity 203, the data collector 207 is fixedly arranged at the top end inside the detection cavity 203, the water quality detector 204, the temperature detector 205 and the biological quality detector 206 are all fixedly arranged at the bottom of the data collector 207, the drain pipe 208 is fixedly connected with the bottom of the front surface of the detection cavity 203, the water inlet pipe 202 is communicated with a water pumping pipe 3, the data collector 207 is electrically connected with a data transmitter 4, the water quality detector 204, the temperature detector 205 and the biological quality detector 206 are all electrically connected with the data collector 207, and the flow detector 610 can detect the flow in the water, the detected data are sent to the data transmitter 4, the water pump 201 is started to pump water to the water inlet pipe 202 through the water pumping pipe 3 and flows into the detection cavity 203, the water quality detector 204, the temperature detector 205 and the biological quality detector 206 in the detection cavity 203 can detect corresponding data in the water in sequence, the detected data are transmitted to the data collector 207 through being electrically connected with the data collector 207, the data collector 207 integrates the data and sends the data to the data transmitter 4, and the data transmitter 4 sends out detected hydrological information through a network.

The liquid level detection mechanism 6 comprises a detection tube 601, a sealed cavity 602, a magnetic slider 603, a magnet 604, a floating plate 605, a communicating tube 606, a liquid level cavity 607, a lifting plate 608, a piston rod 609 and a flow detector 610, wherein the piston rod 609 is slidably connected inside the fixed loop bar 5, the detection tube 601 is slidably connected with the outer surface of the piston rod 609, the sealed cavity 602 is arranged at the top end inside the detection tube 601, the magnetic slider 603 is slidably connected inside the sealed cavity 602, the magnet 604 is arranged on the outer surface of the detection tube 601, the floating plate 605 is fixedly connected with one side of the magnet 604 far away from the detection tube 601, the communicating tube 606 is fixedly connected with the bottom of the detection tube 601, the liquid level cavity 607 is arranged at the bottom end inside the detection tube 601, the lifting plate 608 is slidably connected inside the liquid level cavity 607, the flow detector 610 is fixedly arranged at the bottom of the outer surface of the detection tube 601, and the sides of the magnetic slider 603 and the magnet 604 close to each other are attracted, the top of the communicating pipe 606 is communicated with the detecting pipe 601, the bottom of the communicating pipe 606 is communicated with the liquid level cavity 607, the top of the piston rod 609 penetrates through the fixed loop bar 5 and extends to the outer surface of the liquid level rod 7, the number of the flow detecting meters 610 is two, the two flow detecting meters 610 are symmetrically and fixedly installed at the bottom of the outer surface of the detecting pipe 601, the data transmitter 4 is electrically connected with the flow detecting meters 610, when the liquid level of the liquid level rises, the liquid level can lift the lifting plate 608 upwards to slide in the liquid level cavity 607, at the moment, the air pressure in the liquid level cavity 607 rises and can be discharged into the sealed cavity 602 through the communicating pipe 606, after the air pressure at the bottom of the magnetic slider 603 rises, the magnetic slider 603 can be pushed to slide upwards in the sealed cavity 602, in the process that the magnetic slider 603 slides upwards, the magnetic slider 603 can push the piston rod 609 to lift upwards, and the height of the floating plate 605 can rise due to the liquid level, the floating plate 605 drives the magnet 604 to move upwards, because the magnetic sliding block 603 and the magnet 604 attract each other at the side close to each other, the magnetic sliding block 603 slides upwards in the sealed cavity 602, the magnetic sliding block 603 pushes the piston rod 609 to jack up upwards, the top end of the piston rod 609 can display the height of the liquid level on the outer surface of the liquid level rod 7, and the magnetic sliding block 603 is driven to slide in two directions, so that the detection of the liquid level is more accurate.

When the device is used, the water pump 201 is started to pump water into the water inlet pipe 202 through the water pumping pipe 3 and flows into the detection cavity 203, the water quality detector 204, the temperature detector 205 and the biological quality detector 206 in the detection cavity 203 can sequentially detect corresponding data in the water, the detected data are transmitted to the data collector 207 through the electrical connection with the data collector 207, the data collector 207 integrates the data and transmits the data to the data transmitter 4, the data transmitter 4 sends out detected hydrological information through a network, when the liquid level of the liquid level rises, the liquid level can upwards jack the lifting plate 608 to slide in the liquid level cavity 607, at the moment, the air pressure in the liquid level cavity 607 rises and is discharged into the sealed cavity 602 through the communicating pipe 606, after the air pressure at the bottom of the magnetic sliding block 603 rises, the magnetic sliding block 603 can be pushed to slide upwards in the sealed cavity 602, and in the process of upwards sliding the magnetic sliding block 603, the magnetic slider 603 pushes the piston rod 609 to jack up, the rising of the liquid level can raise the height of the floating plate 605, the floating plate 605 drives the magnet 604 to move upwards, because the close sides of the magnetic slider 603 and the magnet 604 attract each other, the magnetic slider 603 slides upwards in the sealed cavity 602, the magnetic slider 603 pushes the piston rod 609 to jack up, and the top end of the piston rod 609 can display the height of the liquid level on the outer surface of the liquid level rod 7.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides a network hydrology information acquisition device, includes pond (1), fixed loop bar (5), liquid level detection mechanism (6) and liquid level pole (7), its characterized in that: the fixed loop bar (5) is fixedly arranged on the right side of the inner wall of the water pool (1), the liquid level detection mechanism (6) is connected to the inside of the fixed loop bar (5) in a sliding manner, and the liquid level bar (7) is fixedly arranged on the right side of the top of the water pool (1);

liquid level detection mechanism (6) comprises test tube (601), seal chamber (602), magnetism slider (603), magnet (604), kickboard (605), communicating pipe (606), liquid level chamber (607), lifter plate (608), piston rod (609) and flow detector (610), piston rod (609) sliding connection is in the inside of fixed loop bar (5), test tube (601) sliding connection is in the surface of piston rod (609), seal chamber (602) is seted up in the inside top of test tube (601), magnetism slider (603) sliding connection is in the inside of seal chamber (602), magnet (604) set up in the surface of test tube (601), kickboard (605) fixed connection is in one side that test tube (601) were kept away from to magnet (604).

2. The network hydrological information acquisition device according to claim 1, characterized in that: communicating pipe (606) fixed connection is in the bottom of test tube (601), the inside bottom of test tube (601) is seted up to liquid level chamber (607), lifter plate (608) sliding connection is in the inside of liquid level chamber (607), flow detection meter (610) fixed mounting is in the surface bottom of test tube (601).

3. The network hydrological information acquisition device according to claim 1, characterized in that: one side that magnetic slider (603) and magnet (604) are close to attracts each other, the top and the detecting tube (601) intercommunication of communicating pipe (606), the bottom and liquid level chamber (607) intercommunication of communicating pipe (606), the surface that fixed loop bar (5) and extended to liquid level pole (7) are run through to the top of piston rod (609), the quantity of flow detection meter (610) is two, two flow detection meter (610) symmetry fixed mounting is in the surface bottom of detecting tube (601).

4. The network hydrological information acquisition device according to claim 1, characterized in that: the top left side fixed mounting in pond (1) has detection mechanism (2), the right side fixedly connected with drinking-water pipe (3) of detection mechanism (2), the left side fixed mounting of detection mechanism (2) has data transmission ware (4).

5. The network hydrological information acquisition device according to claim 4, wherein: detection mechanism (2) comprises water pump (201), inlet tube (202), detection chamber (203), water quality testing meter (204), temperature detection meter (205), biological quality testing meter (206), data collection station (207) and drain pipe (208), water pump (201) fixed mounting is in the top of detection mechanism (2), detect the inside in detection mechanism (2) of chamber (203) fixed mounting, inlet tube (202) fixed connection is in the right side that detects chamber (203), data collection station (207) fixed mounting is in the inside top that detects chamber (203), water quality testing meter (204), temperature testing meter (205) and biological quality testing meter (206) equal fixed mounting are in the bottom of data collection station (207), drain pipe (208) fixed connection is in the front bottom that detects chamber (203).

6. The network hydrological information acquisition device according to claim 5, wherein: the water inlet pipe (202) is communicated with the water pumping pipe (3), the data collector (207) is electrically connected with the data transmitter (4), and the water quality detector (204), the temperature detector (205) and the biological quality detector (206) are electrically connected with the data collector (207).

7. The network hydrological information acquisition device according to claim 4, wherein: the data transmitter (4) is electrically connected with the flow detection meter (610).

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