CN215180910U - Water resource remote measurement control device - Google Patents

Abstract

The utility model discloses a water resource remote measurement controlling means, including floating the ship body, the lower surface that floats the ship body is provided with moving mechanism, positioning mechanism and sampling mechanism respectively, sampling mechanism includes fixed connection at the mounting bracket that floats ship body lower surface, and the inside of mounting bracket is rotated and is connected with the convolute duct, and the intercommunicating pore has been seted up on the surface of convolute duct, and the surface of convolute duct is provided with the winding roller, and the left side wall of mounting bracket is provided with and is used for driving a servo motor around the winding roller. This water resource remote measurement controlling means, through floating the ship body, the drive oar, GPS positioner, signal transceiver, battery and photovoltaic module, utilize floating the ship body and can make the device float at the surface of water, utilize GPS positioner and drive oar to remove the position of floating the ship body, utilize signal transceiver, battery and photovoltaic module, can reach and utilize outside central control room to carry out remote control's purpose to the device, and can utilize photovoltaic module to supply electric power for the battery.

Description

Water resource remote measurement control device

Technical Field

The utility model relates to a water resource detects technical field, specifically is a water resource remote measurement controlling means.

Background

Water resources are resources that are widely used by humans in production and living activities, and are not only widely used in agriculture, industry and life, but also used for power generation, water transportation, aquatic products, travel, environmental modification, and the like. In various applications, some consume water, some consume non-consumable or consume little water, and the requirements for water quality are different.

Today that environmental pollution strengthens day by day, we need improve the environmental protection consciousness to need detect the water resource, but present monitoring devices can not independently reach the purpose of carrying out long-time monitoring to the water resource, needs monitoring personnel to follow the use, and when the monitoring, can not detect the water of the different degree of depth, causes the measuring result inaccurate.

Therefore, a water resource remote control device is needed to solve the problem.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a water resource remote measurement controlling means to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a water resource remote measurement control device comprises a floating boat body, wherein the lower surface of the floating boat body is respectively provided with a moving mechanism, a positioning mechanism and a sampling mechanism, the sampling mechanism comprises a mounting frame fixedly connected to the lower surface of the floating boat body, a winding pipe is rotatably connected inside the mounting frame, a communication hole is formed in the surface of the winding pipe, a winding pipe roller is arranged on the surface of the winding pipe, a first servo motor used for driving the winding pipe roller is arranged on the left side wall of the mounting frame, a sampling pipe is wound on the surface of the winding pipe roller, a jacket is fixedly connected to the inner left wall of the mounting frame, the right side wall of the jacket is rotatably connected with the winding pipe through a sealing bearing, and one end of the sampling pipe wound on the surface of the winding pipe roller extends into the winding pipe and is communicated with the inside of the jacket through the communication hole;

the upper surface of the floating boat body is provided with a control mechanism, a detection groove and a miniature sampling pump respectively, the control mechanism comprises a mounting box arranged on the upper surface of the floating boat body, the inner bottom wall of the mounting box is provided with a GPS positioning device, a signal receiving and transmitting device and a water sample detector respectively, and the upper surface of the mounting box is provided with a power mechanism.

Preferably, the moving mechanism comprises two driving paddles symmetrically arranged on the lower surface of the buoyancy boat body.

Preferably, positioning mechanism is including setting up at the winding roller that floats ship body lower surface, and the lower surface that floats ship body is provided with the second servo motor who is used for driving the winding roller, and the surface winding of winding roller has the plumb line, and the one end that the winding roller was kept away from to the plumb line is provided with the plumb bob.

Preferably, the end of intaking of miniature sampling pump is linked together through inlet tube and cover, and the inside that detects the groove is extended into through the pipeline to the play water end of miniature sampling pump, and the detection head of water sample detector inlays the dress and is detecting the inner wall of groove and corresponding with the play water end position of miniature sampling pump.

Preferably, one end of the sampling tube, which is far away from the tube winding roller, is provided with a suspension filter head, and the surface of the suspension filter head is provided with filter holes.

Preferably, the power mechanism comprises a storage battery fixedly mounted on the upper surface of the mounting box, and a photovoltaic module is arranged on the upper surface of the storage battery.

Advantageous effects

The utility model provides a water resource remote measurement controlling means possesses following beneficial effect:

1. this water resource remote measurement controlling means, through setting up superficial ship body, the drive oar, GPS positioner, signal transceiver, battery and photovoltaic module, utilize superficial ship body to make the device float at the surface of water, utilize GPS positioner and drive oar to remove the position of superficial ship body, utilize signal transceiver, battery and photovoltaic module, can reach and utilize outside central control room to carry out remote control's purpose to the device, and can utilize photovoltaic module to supply electric power for the battery.

2. This water resource remote measurement controlling means, through setting up the mounting bracket, the winding pipe, the intercommunicating pore, around the pipe roller, a servo motor, the sampling tube, press from both sides cover and miniature sample pump, drive through a servo motor and rotate around the pipe roller, can adjust the sampling depth of sampling tube, the sample water passes through the sampling tube and gets into around the inside of pipe roller, and follow the winding pipe under miniature sample pump's effect, the intercommunicating pore, press from both sides cover and inlet tube entering detection inslot portion, utilize the water sample detector can reach the purpose of detecting the different degree of depth water sample.

3. This water resource remote measurement controlling means, through setting up winding roller, second servo motor, plumb line and plumb bob, the plumb line is put long to the winding roller, can utilize the plumb bob to reach and carry out the purpose of fixing to the position of floating the ship body in the water, through setting up the filter head that dangles, can filter water.

Drawings

FIG. 1 is a schematic view of a front cross-sectional structure of the present invention;

fig. 2 is a schematic three-dimensional structure diagram of the mounting box and the power mechanism of the present invention;

fig. 3 is an enlarged schematic view of a portion a in fig. 1.

In the figure: the device comprises a floating boat body 1, a mounting frame 2, a winding pipe 3, a communication hole 4, a winding pipe roller 5, a first servo motor 6, a sampling pipe 7, a jacket 8, a detection groove 9, a miniature sampling pump 10, a mounting box 11, a GPS positioning device 12, a signal transceiver 13, a water sample detector 14, a driving paddle 15, a winding roller 16, a second servo motor 17, a vertical line 18, a plumb bob 19, a water inlet pipe 20, a hanging filter head 21, a storage battery 22 and a photovoltaic module 23.

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. 1-3, the present invention provides a technical solution: the utility model provides a water resource remote measurement controlling means, is provided with moving mechanism, positioning mechanism and sampling mechanism respectively including floating boat body 1, the lower surface that floats boat body 1, and moving mechanism sets up two drive oars 15 at floating boat body 1 lower surface including the symmetry.

Positioning mechanism is including setting up the wire winding roller 16 at superficial ship body 1 lower surface, the lower surface of superficial ship body 1 is provided with the second servo motor 17 that is used for driving wire winding roller 16, the surface winding of wire winding roller 16 has perpendicular 18, the one end that wire winding roller 16 was kept away from to perpendicular 18 is provided with plumb bob 19, through setting up wire winding roller 16, second servo motor 17, perpendicular 18 and plumb bob 19, wire winding roller 16 lengthens perpendicular 18, can utilize plumb bob 19 to reach and carry out the purpose of fixing to the position of superficial ship body 1 in the water.

Sampling mechanism includes fixed connection at the mounting bracket 2 of floating light boat body 1 lower surface, the inside of mounting bracket 2 is rotated and is connected with convolute tube 3, intercommunicating pore 4 has been seted up on convolute tube 3's surface, convolute tube 3's surface is provided with around tub roller 5, the left side wall of mounting bracket 2 is provided with the first servo motor 6 that is used for the drive around tub roller 5, it has sampling tube 7 to wind around the surface winding of tub roller 5, the interior left wall fixedly connected with of mounting bracket 2 presss from both sides cover 8, the right side wall that presss from both sides cover 8 passes through sealed bearing and is connected with convolute tube 3 rotation, sampling tube 7 twines and is linked together around the inside that the one end on tub roller 5 surface extended into convolute tube 3 and through intercommunicating pore 4 and the inside that presss from both sides cover 8, sampling tube 7 keeps away from the one end of tub roller 5 and is provided with the filter head 21 that dangles, the filtration hole has been seted up on the surface of filter head 21 dangles through setting up, can filter water.

The upper surface of the floating boat body 1 is respectively provided with a control mechanism, a detection groove 9 and a micro sampling pump 10, the control mechanism comprises a mounting box 11 arranged on the upper surface of the floating boat body 1, the inner bottom wall of the mounting box 11 is respectively provided with a GPS positioning device 12, a signal transceiver 13 and a water sample detector 14, the water inlet end of the micro sampling pump 10 is communicated with a jacket 8 through a water inlet pipe 20, the water outlet end of the micro sampling pump 10 extends into the detection groove 9 through a pipeline, the detection head of the water sample detector 14 is embedded in the inner wall of the detection groove 9 and corresponds to the position of the water outlet end of the micro sampling pump 10, the sampling depth of the sampling pipe 7 can be adjusted by arranging a mounting frame 2, a winding pipe 3, a communication hole 4, a winding pipe roller 5, a first servo motor 6, the sampling pipe 7, the jacket 8 and the micro sampling pump 10 and driving the winding pipe roller 5 to rotate through the first servo motor 6, the sample water passes through the sampling tube 7 and gets into inside the winding tube roller 5 to inside along winding tube 3, intercommunicating pore 4, clamp cover 8 and inlet tube 20 entering detection tank 9 under the effect of miniature sampling pump 10, utilize water sample detector 14 can reach the purpose of detecting the different degree of depth water samples.

The upper surface of mounting box 11 is provided with power unit, power unit includes the battery 22 of fixed mounting at the mounting box 11 upper surface, the upper surface of battery 22 is provided with photovoltaic module 23, through setting up superficial ship body 1, drive oar 15, GPS positioner 12, signal transceiver 13, battery 22 and photovoltaic module 23, utilize superficial ship body 1 to make the device float at the surface of water, utilize GPS positioner 12 and drive oar 15 to remove the position of superficial ship body 1, utilize signal transceiver 13, battery 22 and photovoltaic module 23, can reach the purpose that utilizes outside central control room to carry out remote control to the device, and can utilize photovoltaic module 23 to supply electric power for battery 22.

The working principle is as follows: when the water resource remote measurement control device is used, the device can float on the water surface by the floating boat body 1 through the driving paddle 15, the GPS positioning device 12, the signal transceiver 13, the storage battery 22 and the photovoltaic module 23, the position of the floating boat body 1 can be moved by the GPS positioning device 12 and the driving paddle 15, the device can be remotely controlled by an external central control room through the signal transceiver 13, the storage battery 22 and the photovoltaic module 23, the photovoltaic module 23 can be used for supplementing electric power to the storage battery 22, the winding pipe 3, the communication hole 4, the winding pipe roller 5, the first servo motor 6, the sampling pipe 7, the jacket 8 and the micro sampling pump 10 are used, the winding pipe roller 5 is driven to rotate by the first servo motor 6, the sampling depth of the sampling pipe 7 can be adjusted, and a sampling water body enters the winding pipe roller 5 through the sampling pipe 7, and under the effect of miniature sampling pump 10 along convolute pipe 3, intercommunicating pore 4, clamp cover 8 and inlet tube 20 get into inside detecting groove 9, utilize water sample detector 14 can reach the purpose of detecting the different degree of depth water samples, through winding roller 16, second servo motor 17, plumb line 18 and plummet 19, winding roller 16 lengthens plumb line 18, can utilize plummet 19 to reach and carry out the purpose of fixing to the position of floating boat body 1 in the water.

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 (6)

1. The utility model provides a water resource remote measurement controlling means, includes and floats boat body (1), its characterized in that: the lower surface of the buoyancy boat body (1) is respectively provided with a moving mechanism, a positioning mechanism and a sampling mechanism, the sampling mechanism comprises a mounting frame (2) fixedly connected to the lower surface of a floating boat body (1), a winding pipe (3) is rotatably connected to the inside of the mounting frame (2), a communication hole (4) is formed in the surface of the winding pipe (3), a winding pipe roller (5) is arranged on the surface of the winding pipe (3), a first servo motor (6) used for driving the winding pipe roller (5) is arranged on the left side wall of the mounting frame (2), a sampling pipe (7) is wound on the surface of the winding pipe roller (5), a jacket (8) is fixedly connected to the inner left wall of the mounting frame (2), the right side wall of the jacket (8) is rotatably connected with the winding pipe (3) through a sealing bearing, one end of the surface of the sampling pipe (7) is wound on the winding pipe roller (5) and extends into the winding pipe (3) and is communicated with the inside of the jacket (8) through the communication hole (4);

the upper surface of the floating boat body (1) is provided with a control mechanism, a detection groove (9) and a miniature sampling pump (10) respectively, the control mechanism comprises a mounting box (11) arranged on the upper surface of the floating boat body (1), the inner bottom wall of the mounting box (11) is provided with a GPS positioning device (12), a signal receiving and transmitting device (13) and a water sample detector (14) respectively, and the upper surface of the mounting box (11) is provided with a power mechanism.

2. The remote water resource measurement and control device as claimed in claim 1, wherein: the moving mechanism comprises two driving paddles (15) which are symmetrically arranged on the lower surface of the buoyancy boat body (1).

3. The remote water resource measurement and control device as claimed in claim 1, wherein: the positioning mechanism comprises a winding roller (16) arranged on the lower surface of the floating boat body (1), a second servo motor (17) used for driving the winding roller (16) is arranged on the lower surface of the floating boat body (1), a vertical line (18) is wound on the surface of the winding roller (16), and a plumb bob (19) is arranged at one end, far away from the winding roller (16), of the vertical line (18).

4. The remote water resource measurement and control device as claimed in claim 1, wherein: the water inlet end of the micro sampling pump (10) is communicated with the jacket (8) through the water inlet pipe (20), the water outlet end of the micro sampling pump (10) extends into the detection groove (9) through a pipeline, and the detection head of the water sample detector (14) is embedded in the inner wall of the detection groove (9) and corresponds to the position of the water outlet end of the micro sampling pump (10).

5. The remote water resource measurement and control device as claimed in claim 1, wherein: one end of the sampling tube (7) far away from the tube winding roller (5) is provided with a suspension filter head (21), and the surface of the suspension filter head (21) is provided with filter holes.

6. The remote water resource measurement and control device as claimed in claim 1, wherein: the power mechanism comprises a storage battery (22) fixedly mounted on the upper surface of the mounting box (11), and a photovoltaic module (23) is arranged on the upper surface of the storage battery (22).

Images