CN109444217A - Water monitoring device - Google Patents

Abstract

The invention discloses water monitoring devices, comprising: shielding shell；First cabinet, setting are provided with magnetic fluid in the first cabinet in shielding shell；Electromagnetic coil is arranged outside the first cabinet, and is located in shielding shell, and electromagnetic coil is connect with controller；Second cabinet is installed in the bottom of the first cabinet；Water quality detector, ontology is installed in the second cabinet, probe is across the bottom of the second cabinet, and Water quality detector is connect with controller；Cover is removably disposed in the bottom of the second cabinet, multiple inlet openings is arranged at intervals on cover；Multiple first floats are installed in outside shielding shell；It is fixedly connected at the top of scale rope, one end and shielding shell, is provided with scale on scale rope.The present invention can detect the water source of different depth, and go up and down easily operated, to pull the plug convenient for grasp depth in water.

Description

Water monitoring device

Technical field

The present invention relates to environment monitoring techniques fields.It is more particularly related to water monitoring device.

Background technique

Currently, China for water sample detection mostly be water sample is taken back to laboratory to be analyzed and detected, but due to distance compared with Far, some pollutants are complicated and changeable in water sample, and the discovery of pollutant property may be made to change because of the influence of time, take back experiment Room, which carries out detection, cannot accurately reflect water quality, so, carrying out field test to water sample is just particularly important.Some Although water quality detecting device can carry out field test to water sample, detected there is the water source being not easy to different depth Problem.

Summary of the invention

It the object of the present invention is to provide water monitoring device, is detected with the water source to different depth, and risen in water Easily operated, to pull the plug convenient for grasp depth drops.

In order to realize these purposes and other advantages according to the present invention, water monitoring device is provided, comprising:

Shield shell；

First cabinet, is arranged in the inside of the shielding shell, and first cabinet is internally provided with magnetic fluid；

Electromagnetic coil is arranged in the outside of the first cabinet, and is located at the inside of shielding shell, electromagnetic coil and controller Connection；

Second cabinet is installed in the bottom of first cabinet；

Water quality detector, the ontology of Water quality detector are installed in the inside of second cabinet, the probe of Water quality detector Across the bottom of the second cabinet, and it is located at the outside of the second cabinet, Water quality detector is connect with controller；

Cover, is removably disposed in the bottom of second cabinet, and the probe of the Water quality detector is located at described Multiple inlet openings are arranged at intervals in cover, on cover；

Multiple first floats are installed in the outside of the shielding shell；

It is fixedly connected at the top of scale rope, one end and the shielding shell, is provided with scale on scale rope.

Preferably, in the water monitoring device, the cover is removably disposed in the bottom of second cabinet The concrete mode in portion are as follows:

Second cabinet is cylindrical, and external screw thread is provided on its lateral wall, is provided at the top of the cover Internal screw thread, the cover are connect with second cabinet by internal screw thread and external screw thread.

Preferably, in the water monitoring device, further includes:

Floating plate, is arranged in the top of the shielding shell, and the bottom of the floating plate is not opposite with shielding shell Multiple second floats, top of the one end of the scale rope after floating plate with the shielding shell are arranged at intervals on part It is fixedly connected；

Two brackets, interval setting, the bottom of every bracket be fixedly connected at the top of floating plate；

Cross bar, both ends are connect with two holder pivots respectively, and the other end winding of the scale rope is on the cross bar；

Cushion is installed in the bottom of the floating plate, and between the floating plate and the shielding shell.

Preferably, in the water monitoring device, the shielding shell, first cabinet, second cabinet, The cover and the floating plate are cylindrical, and are coaxially disposed.

Preferably, in the water monitoring device, further includes:

At least one link block is installed on the side wall of the shielding shell, it is logical that first is provided on the link block Hole group, the first through hole group are made of interconnected first through hole and the second through-hole, and the first through hole is cylindrical, And along the axis direction of shielding shell position opposite with the first through hole group on the link block, the floating plate It is provided with the second sets of vias, the second sets of vias is identical as the size of first through hole group, and is made of third through-hole and fourth hole, Third through-hole is cylindrical；

At least one pin shaft, it is equal with the quantity of link block, and correspond, pin shaft is cylindrical, the one of pin shaft End is threaded through first through hole, and the other end is threaded through in third through-hole, and the both ends of pin shaft are respectively arranged with a limited block, the limit Position block setting are as follows: when pin shaft passes through first through hole, the limited block can pass through second through-hole, when limited block and second lead to When hole is not opposite, the floating plate and the link block are stuck between two corresponding limited blocks.

Preferably, in the water monitoring device, further includes:

Wireless communication module is arranged in second cabinet, and the wireless communication module is connect with controller.

Preferably, in the water monitoring device, the quantity of the link block is two, two link blocks relative to Shield the axisymmetrical setting of shell.

The present invention is include at least the following beneficial effects:

The present invention is provided with magnetic fluid in the first cabinet, utilizes the variation of controller control electromagnetic coil magnetic flux, benefit With the density of the variation control magnetic fluid of magnetic flux, after the variable density of magnetic fluid, the first cabinet, the second cabinet and cover can be changed The gravity of the entirety of body composition in water, and then the entirety of the first cabinet, the second cabinet and cover composition can be made to slip into different depths In the water of degree, to be detected by water source of the Water quality detector to different depth.Pass through the i.e. controllable water quality detection of controller The depth that device pulls the plug, thus Water quality detector go up and down in water it is easily operated.

The present invention is provided with cover in the bottom of the second cabinet, and cover can prevent fishes and shrimps from causing to the probe of Water quality detector Damage is installed with scale rope at the top of shielding shell, can know that Water quality detector pulls the plug by the scale on scale rope Depth.Wireless communication module is provided in the second cabinet, the information that wireless communication module can will test constantly is transferred to Equipment on ground, such as mobile phone, computer.

Further advantage, target and feature of the invention will be partially reflected by the following instructions, and part will also be by this The research and practice of invention and be understood by the person skilled in the art.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of water monitoring device according to an embodiment of the invention；

Fig. 2 is the structural schematic diagram of first through hole group according to an embodiment of the invention.

Specific embodiment

Present invention will be described in further detail below with reference to the accompanying drawings, to enable those skilled in the art referring to specification text Word can be implemented accordingly.

It should be noted that in the description of the present invention, term " transverse direction ", " longitudinal direction ", "upper", "lower", "front", "rear", The orientation or positional relationship of the instructions such as "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outside" is based on attached drawing institute The orientation or positional relationship shown, is merely for convenience of description of the present invention and simplification of the description, and is not the dress of indication or suggestion meaning It sets or element must have a particular orientation, be constructed and operated in a specific orientation, therefore should not be understood as to limit of the invention System.

As shown in Figure 1, the present invention provides water monitoring device, comprising:

Shield shell 100；

First cabinet 110, is arranged in the inside of the shielding shell 100, and first cabinet 110 is internally provided with Magnetic fluid；

Electromagnetic coil 120 is arranged in the outside of the first cabinet 110, and is located at the inside of shielding shell 100, electromagnetic wire Circle 120 is connect with controller；

Second cabinet 130 is installed in the bottom of first cabinet 110；

The ontology of Water quality detector 140, Water quality detector 140 is fixed and is sealed in the inside of second cabinet 130, water The probe of quality detector 140 is located at the outside of the second cabinet 130, Water quality detector 140 across the bottom of the second cabinet 130 It is connect with controller；

Cover 150 is removably disposed in the bottom of second cabinet 130, the probe of the Water quality detector 140 In the cover 150, multiple inlet openings are arranged at intervals on cover 150；Water is entered in cover 150 by inlet opening, with The water quality of the water in cover 150 is detected by Water quality detector 140, cover 150 can prevent spy of the fishes and shrimps to Water quality detector 140 Head damages.

Multiple first floats 160 are installed in the outside of the shielding shell 100；It can be made by the way that the first float 160 is arranged The entirety that first cabinet 110, the second cabinet 130 and cover 150 form is swum on the water surface.

Scale rope 170, one end are fixedly connected with the top of the shielding shell 100, and quarter is provided on scale rope 170 Degree.Scale rope 170 should have enough length, so that Water quality detector 140 can slip into the depth of needs.

The water monitoring device that this programme provides, when in use, by the first float 160 by the first cabinet 110, the second case The entirety that body 130 and cover 150 form is swum on the water surface, and the other end of scale rope 170 is grasped or fixed aboard ship, Later using the variation of controller control 120 magnetic flux of electromagnetic coil, the density of the variation control magnetic fluid of magnetic flux, magnetic are utilized After the variable density of fluid, the weight of the entirety of the first cabinet 110, the second cabinet 130 and the composition of cover 150 in water can be changed Power, and then the entirety that the first cabinet 110, the second cabinet 130 and cover 150 can be made to form slips into the water of different depth, with logical Water quality detector 140 is crossed to detect the water source of different depth.First cabinet 110, the second cabinet 130 and cover 150 form Entirety when slipping into the water of different depth, one end of scale rope 170 is also and then brought into water, latent by observation scale rope 170 Enter the depth in water, that is, may know that the depth that Water quality detector 140 pulls the plug.After detection, controller controls electromagnetism The magnetic flux of coil 120 reduces, and the first cabinet 110, the second cabinet 130 and cover 150 form whole in the first float 160 It is back on the water surface under buoyancy.

In another technical solution, in the water monitoring device, the cover 150 is removably disposed in described The concrete mode of the bottom of second cabinet 130 are as follows:

Second cabinet 130 is cylindrical, and external screw thread is provided on its lateral wall, the top of the cover 150 It is provided with internal screw thread, the cover 150 is connect with second cabinet 130 by internal screw thread and external screw thread.Facilitate in this way by cover Body 150 is fixed on the bottom of the second cabinet 130, also conveniently removes cover 150 and is replaced or cleaned.

In another technical solution, in the water monitoring device, further includes:

Floating plate 180, is arranged in the top of the shielding shell 100, and the bottom of the floating plate 180 is not outer with shielding Multiple second floats 181 are arranged at intervals on the opposite part of shell 100, after one end of the scale rope 170 passes through floating plate 180 It is fixedly connected with the top of the shielding shell 100；Second float 181 can be such that floating plate 180 swims on the water surface always.

Two brackets 190, interval setting, the bottom of every bracket 190 is fixedly connected with the top of floating plate 180；

Cross bar 200, both ends are rotatablely connected with two brackets 190 respectively, and the other end of the scale rope 170 is wrapped in institute It states on cross bar 200；One end of scale rope 170 brings water by the entirety that the first cabinet 110, the second cabinet 130 and cover 150 form When middle, scale rope 170 is constantly released from cross bar 200, will not influence the movement of one end of scale rope 170 in this way.

Cushion 210 is installed in the bottom of the floating plate 180, and is located at outside the floating plate 180 and the shielding Between shell 100.

The water monitoring device that this programme provides floats floating plate 180 always by the second float 181 when in use On the water surface, the entirety that the first cabinet 110, the second cabinet 130 and cover 150 form is swum in by water by the first float 160 On face, the other end of scale rope 170 is wrapped on cross bar 200, utilizes controller control 120 magnetic flux of electromagnetic coil later Variation after the variable density of magnetic fluid, can change the first cabinet 110, the using the density of the variation control magnetic fluid of magnetic flux The gravity of the entirety that two cabinets 130 and cover 150 form in water, and then the first cabinet 110, the second cabinet 130 and cover can be made The entirety that body 150 forms slips into the water of different depth, to be examined by water source of the Water quality detector 140 to different depth It surveys.After detection, the magnetic flux that controller controls electromagnetic coil 120 reduces, the first cabinet 110, the second cabinet 130 and cover The entirety that body 150 forms is back on the water surface under the buoyancy of the first float 160, and cushion 210 is avoided that the first cabinet 110, when the entirety that the second cabinet 130 and cover 150 form is back on the water surface under the buoyancy of the first float 160, with Floating plate 180 is hit, and damages device.

In another technical solution, in the water monitoring device, the shielding shell 100, first cabinet 110, second cabinet 130, the cover 150 and the floating plate 180 are cylindrical, and are coaxially disposed.

In another technical solution, in the water monitoring device, further includes:

At least one link block 220 is installed on the side wall of the shielding shell 100, is arranged on the link block 220 Have first through hole group 221 (as shown in Figure 2), the first through hole group 221 is by interconnected first through hole and the second sets of vias At the first through hole is cylindrical, and passes through the link block 220, the floating along the axis direction of shielding shell 100 The second sets of vias, the second sets of vias and first through hole group are provided on plate 180 at the position opposite with the first through hole group 221 221 size is identical, and is made of third through-hole and fourth hole, and third through-hole is cylindrical；

At least one pin shaft 230, it is equal with the quantity of link block 220, and correspond, pin shaft 230 is cylindrical, One end of pin shaft 230 is threaded through first through hole, and the other end is threaded through in third through-hole, and the both ends of pin shaft 230 are respectively arranged with one A limited block 231, the limited block 231 are arranged are as follows: when pin shaft 230 passes through first through hole, the limited block 231 can pass through institute The second through-hole is stated, when limited block 231 and not opposite the second through-hole, the floating plate 180 and link block 220 is stuck in and it Between corresponding two limited blocks 231.

One end of pin shaft 230 is threaded through first through hole, separately when not in use by the water monitoring device that this programme provides One end is threaded through in third through-hole, and keeps limited block 231 and the second through-hole not opposite, floating plate 180 and link block 220 be stuck in Between its corresponding two limited block 231, floating plate 180, the first cabinet 110, the second cabinet 130 and cover 150 to be formed It is whole, it should be swum on the water surface entirely through the first float 160 and the second float 181, water monitoring device when in use, rotates Pin shaft 230 keeps limited block 231 opposite with the second through-hole, takes out pin shaft 230, can make floating plate 180 and the first cabinet 110, the Two cabinets 130 and cover 150 separate, and floating plate 180, the first cabinet 110, the second cabinet 130 and cover 150 can dive into not later With in the water of depth.

In another technical solution, in the water monitoring device, further includes:

Wireless communication module is arranged in second cabinet 130, and the wireless communication module is connect with controller. The information that Water quality detector 140 detects can be constantly transferred to the equipment on ground by wireless communication module, such as mobile phone, computer Deng realization real-time data transmission.

In another technical solution, in the water monitoring device, the quantity of the link block 220 is two, two Axisymmetrical setting of a link block 220 relative to shielding shell 100.

Although the embodiments of the present invention have been disclosed as above, but its is not only in the description and the implementation listed With it can be fully applied to various fields suitable for the present invention, for those skilled in the art, can be easily Realize other modification, therefore without departing from the general concept defined in the claims and the equivalent scope, the present invention is simultaneously unlimited In specific details and legend shown and described herein.

Claims (7)

1. water monitoring device characterized by comprising

Shield shell；

First cabinet, is arranged in the inside of the shielding shell, and first cabinet is internally provided with magnetic fluid；

Electromagnetic coil is arranged in the outside of the first cabinet, and is located at the inside of shielding shell, and electromagnetic coil and controller connect It connects；

Second cabinet is installed in the bottom of first cabinet；

Water quality detector, the ontology of Water quality detector are installed in the inside of second cabinet, the probe of Water quality detector across The bottom of second cabinet, and it is located at the outside of the second cabinet, Water quality detector is connect with controller；

Cover, is removably disposed in the bottom of second cabinet, and the probe of the Water quality detector is located at the cover It is interior, multiple inlet openings are arranged at intervals on cover；

Multiple first floats are installed in the outside of the shielding shell；

It is fixedly connected at the top of scale rope, one end and the shielding shell, is provided with scale on scale rope.

2. water monitoring device as described in claim 1, which is characterized in that the cover is removably disposed in described second The concrete mode of the bottom of cabinet are as follows:

Second cabinet is cylindrical, and external screw thread is provided on its lateral wall, and interior spiral shell is provided at the top of the cover Line, the cover are connect with second cabinet by internal screw thread and external screw thread.

3. water monitoring device as described in claim 1, which is characterized in that further include:

The top of the shielding shell, the bottom of the floating plate part opposite not with shell is shielded is arranged in floating plate On be arranged at intervals with multiple second floats, one end of the scale rope passes through and is fixed after floating plate with the top of the shielding shell Connection；

Two brackets, interval setting, the bottom of every bracket be fixedly connected at the top of floating plate；

Cross bar, both ends are connect with two holder pivots respectively, and the other end winding of the scale rope is on the cross bar；

Cushion is installed in the bottom of the floating plate, and between the floating plate and the shielding shell.

4. water monitoring device as claimed in claim 3, which is characterized in that the shielding shell, first cabinet, described Second cabinet, the cover and the floating plate are cylindrical, and are coaxially disposed.

5. water monitoring device as claimed in claim 4, which is characterized in that further include:

At least one link block is installed on the side wall of the shielding shell, first through hole group is provided on the link block, The first through hole group is made of interconnected first through hole and the second through-hole, and the first through hole is cylindrical, and edge The axis direction of shielding shell is arranged at position opposite with the first through hole group on the link block, the floating plate There is the second sets of vias, the second sets of vias is identical as the size of first through hole group, and is made of third through-hole and fourth hole, third Through-hole is cylindrical；

At least one pin shaft, it is equal with the quantity of link block, and correspond, pin shaft is cylindrical, and one end of pin shaft is worn It is located at first through hole, the other end is threaded through in third through-hole, and the both ends of pin shaft are respectively arranged with a limited block, the limited block Setting are as follows: when pin shaft passes through first through hole, the limited block can pass through second through-hole, when limited block and the second through-hole not When opposite, the floating plate and the link block are stuck between two corresponding limited blocks.

6. water monitoring device as described in claim 1, which is characterized in that further include:

Wireless communication module is arranged in second cabinet, and the wireless communication module is connect with controller.

7. water monitoring device as claimed in claim 5, which is characterized in that the quantity of the link block is two, two companies Connect axisymmetrical setting of the block relative to shielding shell.