CN210981359U - Hand-held type water environment intellectual detection system device - Google Patents

Abstract

The utility model discloses a hand-held type water environment intellectual detection system device, including handheld pole, measuring probe, data acquisition device, handheld pole sets up along extending from top to bottom, and measuring probe detachably installs to the lower extreme of handheld pole, so sets up and to change different measuring probes as required, has improved hand-held type water environment intellectual detection system device's commonality. The data acquisition device comprises a collecting and analyzing assembly detachably mounted on the upper end of the handheld rod, the collecting and analyzing assembly is electrically connected with the measuring probe, when water quality is to be measured, the measuring probe is immersed in the flowing water to be measured so as to complete the measurement of the water quality, the measuring probe measuring data is collected and analyzed through the collecting and analyzing assembly, the operation is simple, and the change of the water quality can be accurately and timely monitored.

Description

Hand-held type water environment intellectual detection system device

Technical Field

The utility model relates to a water quality testing technical field, in particular to hand-held type water environment intellectual detection system device.

Background

The annual water consumption of China shows the trend of increasing gradually year by year, and the change of water structure changes day by year, and agricultural water is not the main water source spring of China yet, and the proportion that industrial life water occupies is increasing fast, to the current situation of water pollution of China, the government of China has taken a series of safeguard procedures to increase the rescue to the water resource and the prevention and cure of water pollution, and the country is from promoting water pollution prevention and is starting at all, uses aquatic attitude protection and water resource management as the primary means, and the system is comprehensive protects the water resource. In order to make self contribution to the pollution control of water quality resources by complying with the national response, advanced, convenient and efficient technical means are required to timely and effectively detect the water quality pollution condition, and the pollution source is killed in the cradle from the beginning.

Traditional water quality monitoring needs to go to appointed detection place and collect the sample, then brings into laboratory experiment instrument and analyzes, and such operation is more troublesome and real-time relatively poor, can not accurate timely monitoring water quality's change.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a hand-held type water environment intellectual detection system device, aim at solving current water quality monitoring device inconvenient operation and the real-time is than relatively poor, the change of monitoring quality of water that can not be accurate timely.

In order to achieve the above object, the utility model provides a hand-held type water environment intellectual detection system device includes:

the handheld rod extends along the vertical direction;

the measuring probe is detachably arranged at the lower end of the handheld rod and is used for being immersed in flowing water to be measured; and the number of the first and second groups,

the data acquisition device comprises a collecting and analyzing assembly detachably mounted at the upper end of the handheld rod, and the collecting and analyzing assembly is electrically connected with the measuring probe.

Optionally, the length of the handle is adjustable; and/or the presence of a gas in the gas,

a holding part is formed at the upper end of the handheld rod, and the outer surface of the holding part is a friction surface; and/or the presence of a gas in the gas,

the handheld water environment intelligent detection device further comprises a flow direction indicating piece, the flow direction indicating piece comprises a sleeving ring and an indicating rod arranged on the outer side surface of the sleeving ring, and the sleeving ring is rotatably sleeved on the handheld rod; and/or the presence of a gas in the gas,

the handheld water environment intelligent detection device further comprises a first clamping structure used for clamping the measuring probe, the first clamping structure comprises a first clamping arm and a second clamping arm, one end of the first clamping arm is hinged to one end of the second clamping arm, so that a clamping space is formed between the other end of the first clamping arm and the other end of the second clamping arm, and the size of the clamping space is adjustable and used for clamping the measuring probe.

Optionally, a connection assembly for mounting the first clamp structure to the lower end of the hand-held pole is further included, the connection assembly including:

the ball seat is provided with a spherical mounting groove with an upward opening, the lower end of the ball seat is arranged at the upper end of the first clamping structure, the side surface of the ball seat is provided with a locking hole communicated with the spherical mounting groove, and an internal thread is arranged in the locking hole;

the spherical hinge rod is arranged above the ball seat, a spherical head part is formed at the lower end of the spherical hinge rod, the spherical head part is movably arranged in the spherical mounting groove, and the upper end of the spherical hinge rod is arranged at the lower end of the handheld rod; and the number of the first and second groups,

and the locking mechanism comprises a locking screw rod, and the thread end of the locking screw rod is arranged in the locking hole and is used for being abutted against the ball head.

Optionally, the measurement probe comprises:

the detector head comprises a detector head shell, a detector head and a detector head, wherein an accommodating cavity is formed in the detector head shell;

the measuring component is arranged on the shell of the detecting head and used for measuring water flow parameters; and the number of the first and second groups,

the first circuit board assembly is arranged in the accommodating cavity and electrically connected to the measuring assembly and the collecting and analyzing assembly.

Optionally, the measurement assembly comprises:

the temperature measuring component is arranged on the shell of the probe and used for measuring the water quality temperature;

the flow velocity and flow measurement assembly is arranged on the shell of the probe and is used for measuring the flow velocity and flow of water quality; and the number of the first and second groups,

and the water level measuring assembly is arranged on the detecting head shell and used for measuring the water level.

Optionally, the measurement assembly is one of a turbidity measurement assembly, a conductivity measurement assembly, a PH measurement assembly, and a dissolved oxygen measurement assembly.

Optionally, the first circuit board assembly includes a first circuit board, a first microprocessor and a first communication assembly, the first microprocessor and the first communication assembly are disposed on the first circuit board, and an input end and an output end of the measurement assembly are both electrically connected to the first microprocessor;

the input end of the first communication assembly is electrically connected with the first microprocessor, and the output end of the first communication assembly is electrically connected with the acquisition and analysis assembly.

Optionally, the first microprocessor is STM32 Cotex-M3/M4;

the first communication assembly comprises a communication host based on RS485, and the input end of the communication host is connected with pins of TX and RX ports of the first microprocessor.

Optionally, the collection and analysis assembly includes a remote terminal unit, the remote terminal unit includes a terminal housing and locates second circuit board assembly in the terminal housing, the second circuit board assembly includes a second circuit board and locates second microprocessor, L CD display module and second communication module on the second circuit board, the second microprocessor with the output electric connection of first communication module, the input of second communication module with second microprocessor electric connection, be used for making remote terminal unit and external communication, L CD display module with second microprocessor electric connection.

Optionally, the second microprocessor is STM32 Cotex-M3/M4;

the second communication component comprises a GPRS module, and the input end of the GPRS module is connected with pins of TX and RX ports of the second microprocessor; and/or the presence of a gas in the gas,

and the output end of the first communication component is connected with pins of TX and RX ports of the second microprocessor.

The utility model provides an among the technical scheme, hand-held type water environment intellectual detection system device includes handheld pole, measuring probe, data acquisition device, handheld pole sets up along extending from top to bottom, measuring probe detachably install extremely the lower extreme of handheld pole, so set up and to change different measuring probe as required, improved hand-held type water environment intellectual detection system device's commonality. The data acquisition device includes detachably install extremely the collection analysis subassembly of handheld pole upper end, collection analysis subassembly with measuring probe electric connection, when will measuring during quality of water, will measuring probe immerses in waiting to survey the flowing water to the completion is to the measurement of quality of water, through it is right to gather analysis subassembly measuring probe measured data collects the analysis, easy operation and can be accurate timely monitoring the change of quality of water.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an embodiment of the handheld intelligent detection device for water environment according to the present invention;

FIG. 2 is a schematic view of the first clamping structure of FIG. 1 mounted in engagement with the connecting assembly;

FIG. 3 is a schematic structural diagram of the data acquisition device in FIG. 1;

fig. 4 is a schematic diagram of electrical connection of a portion of the second circuit board assembly of fig. 3.

The reference numbers illustrate:

reference numerals	Name (R)	Reference numerals	Name (R)
				100	Hand-held water environment intelligent detection device	51	First clamping arm
1	Hand-held rod	52	Second clamping arm
				11	Gripping part	53	Locking screw
2	Measuring probe	6	Connecting assembly
				3	Data acquisition device	7	Second holding structure
4	Flow direction indicator	71	Hoop
				41	Package packing ring	72	Clamping part
42	Indicating rod	a	Marked arrow
				5	First clamping structure	b	Locking screw

The objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

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 efforts belong to the protection scope of the present invention.

It should be noted that, if directional indications (such as upper, lower, left, right, front and rear … …) are involved in the embodiment of the present invention, the directional indications are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indications are changed accordingly.

In addition, if there is a description relating to "first", "second", etc. in the embodiments of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the meaning of "and/or" appearing throughout includes two juxtapositions, exemplified by "A and/or B" and including either A or B or both A and B. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

The annual water consumption of China shows the trend of increasing gradually year by year, and the change of water structure changes day by year, and agricultural water is not the main water source spring of China yet, and the proportion that industrial life water occupies is increasing fast, to the current situation of water pollution of China, the government of China has taken a series of safeguard procedures to increase the rescue to the water resource and the prevention and cure of water pollution, and the country is from promoting water pollution prevention and is starting at all, uses aquatic attitude protection and water resource management as the primary means, and the system is comprehensive protects the water resource. In order to make self contribution to the pollution control of water quality resources by complying with the national response, advanced, convenient and efficient technical means are required to timely and effectively detect the water quality pollution condition, and the pollution source is killed in the cradle from the beginning. Traditional water quality monitoring needs to go to appointed detection place and collect the sample, then brings into laboratory experiment instrument and analyzes, and such operation is more troublesome and real-time relatively poor, can not accurate timely monitoring water quality's change.

The utility model provides a hand-held type water environment intellectual detection system device, fig. 1 to fig. 4 are the utility model provides a schematic diagram of hand-held type water environment intellectual detection system device's embodiment.

Referring to fig. 1 to 3, the handheld intelligent water environment detection device 100 includes a handheld rod 1, a measurement probe 2, and a data acquisition device 3, wherein the handheld rod 1 extends in an up-down direction, and the measurement probe 2 is detachably mounted at the lower end of the handheld rod 1, so that different measurement probes can be replaced according to needs, and the universality of the handheld intelligent water environment detection device 100 is improved. Data acquisition device 3 includes detachably install extremely the collection analysis subassembly of handheld 1 upper end of pole, collection analysis subassembly with 2 electric connection of measuring probe, when will measure during quality of water 2 immerses in waiting to survey the flowing water to the completion is to the measurement of quality of water, through it is right to gather analysis subassembly 2 measuring data of measuring probe collects the analysis, easy operation and can be accurate timely monitoring the change of quality of water.

Considering the measurement of measuring the quality of water of the different degree of depth, the length of handheld pole 1 is adjustable, so set up, easy operation, and improved hand-held type water environment intelligent detection device 100's commonality.

In order to facilitate the operator to hold the handheld rod 1, specifically, a holding portion 11 is formed at the upper end of the handheld rod 1, and the outer surface of the holding portion 11 is a friction surface, so that the handheld rod is convenient for the operator to hold and has an anti-slip function.

In order to ensure the accuracy of the measurement result, the handheld intelligent detection device 100 for the water environment further comprises a flow direction indicator 4, the flow direction indicator 4 comprises a sleeving ring 41 and an indicator rod 42 arranged on the outer side surface of the sleeving ring 41, the sleeving ring 41 is rotatably sleeved on the handheld rod 1, and the arrangement is such that when the handheld intelligent detection device 100 for the water environment starts to measure, the lower end of the handheld rod 1 is immersed in the flowing water to be measured, so that the direction of the indicator rod 42 is opposite to the direction of the water inlet of the measuring probe 2, and the measurement result is accurate and good in effect.

It should be noted that the surface of the hand-held rod 1 facing the water inlet of the measuring probe 2 is provided with a marked arrow a, so that when the measuring probe 2 is immersed in the flowing water to be measured, the orientation of the water inlet of the measuring probe 2 can be easily identified.

The method for installing the measuring probe 2 is various, and the application is not limited to this, specifically, the installation of the handheld intelligent water environment detection device 100 further includes a first clamping structure 5 for clamping the measuring probe 2, the first clamping structure 5 includes a first clamping arm 51 and a second clamping arm 52, one end of the first clamping arm 51 and one end of the second clamping arm 52 are hinged to each other, so as to form a clamping space between the other end of the first clamping arm 51 and the other end of the second clamping arm 52, the size of the clamping space is adjustable, and the size of the clamping space is adjusted to clamp different measuring probes 2, so that the universality of the handheld intelligent water environment detection device 100 is improved.

Specifically, the surfaces of the first clamping arm 51 and the second clamping arm 52 opposite to each other are respectively provided with a threaded hole and a mounting hole in a penetrating manner, the first clamping structure 5 further comprises a locking screw 53, a threaded end of the locking screw 53 sequentially penetrates through the threaded hole and the mounting hole, a nut is sleeved at a threaded end of the locking screw 53 and abuts against the second clamping arm 52, and therefore the threaded hole is in threaded connection with the locking screw 53, when the locking screw 53 is rotated, the lower end of the first clamping arm 51 moves towards the lower end close to or far away from the second clamping arm 52, the clamping space is adjustable, and the operation is simple.

In order to mount the first clamping structure 5 to the handheld rod 1, specifically, the handheld intelligent water environment detection device 100 further includes a connection assembly 6 for mounting the first clamping structure 5 to the lower end of the handheld rod 1, the connection assembly 6 includes a ball seat, a ball hinge rod and a locking mechanism, a ball mounting groove with an upward opening is formed on the ball seat, the lower end of the ball seat is disposed at the upper end of the first clamping structure 5, a locking hole communicated with the ball mounting groove is formed on the side surface of the ball seat, an internal thread is disposed in the locking hole, the ball hinge rod is disposed above the ball seat, a ball head is formed at the lower end of the ball hinge rod, the ball head is movably mounted in the ball mounting groove, the upper end of the ball hinge rod is disposed at the lower end of the handheld rod 1, the locking mechanism includes a locking screw b, and the threaded end of the locking screw b is disposed in the locking hole, and be used for with bulb butt joint, so set up for first clamping structure 5 with handheld pole 1 can adjust as required according to the angle, easy operation and commonality are wide.

In order to detachably mount the data acquisition device 3 on the handheld rod 1, the handheld intelligent water environment detection device 100 further comprises a second holding structure 7 for clamping the data acquisition device 3, the second holding structure 7 comprises a hoop 71 and a clamping portion 72, the hoop 71 is mounted on the handheld rod 1, the clamping portion 72 is mounted on the outer side surface of the hoop 71, the clamping portion 72 is provided with a clamping space for placing the data acquisition device 3, and the clamping space is adjustable.

Specifically, in this embodiment, the measuring probe 2 includes a probe casing, a measuring component and a first circuit board component, a containing cavity is formed in the probe casing, the measuring component is disposed in the probe casing and used for measuring water flow parameters, the first circuit board component is disposed in the containing cavity, and the first circuit board component is electrically connected to the measuring component and the collecting and analyzing component.

Further, the measuring component includes temperature measuring component, velocity of flow measuring component and water level measuring component, temperature measuring component locates the detecting head casing for measure quality of water temperature, velocity of flow measuring component locates the detecting head casing for measure quality of water velocity of flow and flow, water level measuring component locates the detecting head casing for measure the water level, so set up, will temperature measuring component, velocity of flow measuring component, water level measuring component integrate in measuring component is used for measuring quality of water temperature, measuring quality of water velocity of flow and measure the water level respectively, make measuring component can realize the detection of multidata, has better effect.

Considering different parameters of water quality to be measured, the measuring component can be replaced as required, for example, the measuring component is one of a turbidity measuring component, a conductivity measuring component, a PH measuring component and a dissolved oxygen measuring component, so that different parameters of water quality can be measured, a good effect is achieved, and the universality of the handheld intelligent water environment detection device 100 is improved.

It should be noted that the temperature measurement component adopts a temperature sensor, the flow velocity and flow measurement component adopts a doppler ultrasonic flowmeter to measure the flow velocity and the flow, the water level measurement component adopts a pressure type liquid level meter to measure the water level, the turbidity measurement component adopts a turbidity suspended solid concentration sensor to measure the turbidity of the water quality, the conductivity measurement component adopts a conductivity sensor, the dissolved oxygen measurement component adopts a dissolved oxygen sensor, and the PH measurement component adopts a PH sensor. In other embodiments, the sensor may be selected according to the need, for example, it may be an ammonia nitrogen sensor, a COD sensor, a flow meter, etc., which are all in the prior art and are not described in detail in this application.

The embodiment of the utility model provides an in, first circuit board subassembly includes first circuit board and locates first microprocessor and first communication subassembly on the first circuit board, measuring component's input and output all with first microprocessor electric connection, first communication subassembly's input with first microprocessor electric connection, first communication subassembly's output with collection analysis subassembly electric connection. The first microprocessor processes the data input by the measuring assembly, calculates the data, transmits the data measured by the measuring assembly to the collecting and analyzing assembly through the first communication assembly, and displays the data through a display or other modes after the data are processed by the collecting and analyzing assembly, so that the real-time measurement of water quality is realized, and the operation is simple.

In order to facilitate orderly control of all circuits, in the embodiment, the first microprocessor is an STM32Cotex-M3/M4, and the STM32Cotex-M3/M4 is an existing product, has high performance, and can be used for realizing rapid and accurate data processing by analyzing and judging various parameters of water quality in the embodiment.

Specifically, the first communication module includes a communication host based on RS485, a communication circuit formed by basic electronic components, cables and the like, and is used for enabling the first microprocessor to communicate with the acquisition and analysis module, the communication host based on RS485 is an existing product, RS485 is a popular network deployment mode at present, the implementation is simple and convenient, and a large number of devices supporting RS485 are provided, so that the transmission of the STM32Cotex-M3/M4 information in the embodiment can be realized.

The STM32Cotex-M3/M4 is an existing product, and is largely used in the prior art, in this embodiment, the input terminal of the communication host is connected with the pins of the TX and RX ports of the STM32 Cotex-M3/M4.

Referring to fig. 4, in the embodiment of the utility model, the collection analysis subassembly includes the remote terminal unit, the remote terminal unit includes the terminal housing and locates second circuit board subassembly in the terminal housing, second circuit board subassembly includes the second circuit board and locates second microprocessor, L CD display module and second communication subassembly on the second circuit board, second microprocessor with first communication subassembly's output electric connection, the second communication subassembly the input with second microprocessor electric connection for the messenger remote terminal unit communicates with the external world, L CD display module with second microprocessor electric connection, through the remote terminal unit is collected carry out centralized analysis behind the data of measuring component and is handled, can acquire each parameter of quality of water in real time developments, has realized real-time supervision quality of water, easy operation, and the great reduction measurement work practices thrift the measurement cost.

In order to facilitate orderly control of all circuits, in this embodiment, the second microprocessor is STM32Cotex-M3/M4, and the second communication module includes a GPRS module, which is an existing product, has a high transmission rate, can implement wireless transmission, and is one of ideal transmission tools for outdoor use.

In the embodiment, the input end of the GPRS module is connected to the pins of the TX2 and RX2 ports of the second microprocessor, and the output end of the first communication module is connected to the pins of the TX1 and RX1 ports of the second microprocessor.

The L CD display module comprises a L CD display chip, and the L CD display chip is connected with a pin of a VCC port of the STM32 Cotex-M3/M4.

In order to facilitate the data acquisition device 3 to analyze the data measured by the measurement probe 2, in this embodiment, the data acquisition device 3 is further provided with a power supply, specifically, a power output port of the data acquisition device 3 is respectively connected to a power input port of the first microprocessor and a power input port of the second microprocessor, so that the measurement probe 2 is ensured to normally work, and at this time, power needs to be supplied in a cable-assisted manner, and in addition, the power supply also supplies power to the remote terminal unit.

The data acquisition device 3 is also internally provided with a high-capacity data storage card, can store one million data and has the function of automatic power-off data storage protection, a graphical user interface is displayed through a full-color L CD liquid crystal display screen, a UCOS real-time operating system, an emWin graphic library and a FATFS file system are provided, a micro-motion key is designed for man-machine interaction, a USB data transmission port and a battery charging port are additionally arranged, the battery charging port is connected with a sensor through a high-quality aviation plug, the measured value corresponding to the measuring probe 2 can be displayed after entering the measuring interface, and the data acquisition device 3 can store and record the measured data and the measured time after being connected with the measuring probe 2.

The above only is the preferred embodiment of the present invention, not so limiting the patent scope of the present invention, all under the concept of the present invention, the equivalent structure transformation made by the contents of the specification and the drawings is utilized, or the direct/indirect application is included in other related technical fields in the patent protection scope of the present invention.

Claims (10)

1. A hand-held type water environment intellectual detection system device which characterized in that includes:

the handheld rod extends along the vertical direction;

the measuring probe is detachably arranged at the lower end of the handheld rod and is used for being immersed in flowing water to be measured; and the number of the first and second groups,

the data acquisition device comprises a collecting and analyzing assembly detachably mounted at the upper end of the handheld rod, and the collecting and analyzing assembly is electrically connected with the measuring probe.

2. The intelligent detection device for water environment in a handheld manner as claimed in claim 1, wherein the length of the handheld lever is adjustable; and/or the presence of a gas in the gas,

a holding part is formed at the upper end of the handheld rod, and the outer surface of the holding part is a friction surface; and/or the presence of a gas in the gas,

the handheld water environment intelligent detection device further comprises a flow direction indicating piece, the flow direction indicating piece comprises a sleeving ring and an indicating rod arranged on the outer side surface of the sleeving ring, and the sleeving ring is rotatably sleeved on the handheld rod; and/or the presence of a gas in the gas,

the handheld water environment intelligent detection device further comprises a first clamping structure used for clamping the measuring probe, the first clamping structure comprises a first clamping arm and a second clamping arm, one end of the first clamping arm is hinged to one end of the second clamping arm, so that a clamping space is formed between the other end of the first clamping arm and the other end of the second clamping arm, and the size of the clamping space is adjustable and used for clamping the measuring probe.

3. The intelligent detection device for water environment according to claim 2, further comprising a connection assembly for mounting said first clamping structure to the lower end of said hand-held rod, said connection assembly comprising:

the ball seat is provided with a spherical mounting groove with an upward opening, the lower end of the ball seat is arranged at the upper end of the first clamping structure, the side surface of the ball seat is provided with a locking hole communicated with the spherical mounting groove, and an internal thread is arranged in the locking hole;

the spherical hinge rod is arranged above the ball seat, a spherical head part is formed at the lower end of the spherical hinge rod, the spherical head part is movably arranged in the spherical mounting groove, and the upper end of the spherical hinge rod is arranged at the lower end of the handheld rod; and the number of the first and second groups,

and the locking mechanism comprises a locking screw rod, and the thread end of the locking screw rod is arranged in the locking hole and is used for being abutted against the ball head.

4. The intelligent detection device for water environment in a handheld manner as claimed in claim 1, wherein the measuring probe comprises:

the detector head comprises a detector head shell, a detector head and a detector head, wherein an accommodating cavity is formed in the detector head shell;

the measuring component is arranged on the shell of the detecting head and used for measuring water flow parameters; and the number of the first and second groups,

the first circuit board assembly is arranged in the accommodating cavity and electrically connected to the measuring assembly and the collecting and analyzing assembly.

5. The intelligent detection device for water environment according to claim 4, wherein the measurement component comprises:

the temperature measuring component is arranged on the shell of the probe and used for measuring the water quality temperature;

the flow velocity and flow measurement assembly is arranged on the shell of the probe and is used for measuring the flow velocity and flow of water quality; and the number of the first and second groups,

and the water level measuring assembly is arranged on the detecting head shell and used for measuring the water level.

6. The portable intelligent detection device for water environment according to claim 4, wherein the measurement component is one of a turbidity measurement component, a conductivity measurement component, a pH measurement component and a dissolved oxygen measurement component.

7. The device for intelligently detecting the water environment according to claim 4, wherein the first circuit board assembly comprises a first circuit board, a first microprocessor and a first communication assembly, the first microprocessor and the first communication assembly are arranged on the first circuit board, and the input end and the output end of the measuring assembly are electrically connected with the first microprocessor;

the input end of the first communication assembly is electrically connected with the first microprocessor, and the output end of the first communication assembly is electrically connected with the acquisition and analysis assembly.

8. The intelligent detection device for water environment in a hand-held type according to claim 7, wherein the first microprocessor is STM32 Cotex-M3/M4;

the first communication assembly comprises a communication host based on RS485, and the input end of the communication host is connected with pins of TX and RX ports of the first microprocessor.

9. The device for intelligently detecting the water environment according to claim 7, wherein the collecting and analyzing component comprises a remote terminal unit, the remote terminal unit comprises a terminal housing and a second circuit board component disposed in the terminal housing, the second circuit board component comprises a second circuit board and a second microprocessor, an L CD display component and a second communication component disposed on the second circuit board, the second microprocessor is electrically connected to the output end of the first communication component, the input end of the second communication component is electrically connected to the second microprocessor for enabling the remote terminal unit to communicate with the outside, and the L CD display component is electrically connected to the second microprocessor.

10. The intelligent detection device for the water environment in a hand-held type according to claim 9, wherein the second microprocessor is STM32 Cotex-M3/M4;

the second communication component comprises a GPRS module, and the input end of the GPRS module is connected with pins of TX and RX ports of the second microprocessor; and/or the presence of a gas in the gas,

and the output end of the first communication component is connected with pins of TX and RX ports of the second microprocessor.

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