CN215768533U - Based on thing networking water plant raw water quality of water early warning device - Google Patents

Abstract

The utility model relates to the field of reclaimed water detection, in particular to a raw water quality early warning device based on an Internet of things water plant, which comprises a terminal mechanism, a data center and a control system, wherein the terminal mechanism is in wireless connection with the data center; the upright rod is arranged at the bottom end of the terminal mechanism; the sealing cylinder is arranged at the bottom end of the vertical rod; the rubber rings are arranged at the bottom end of the sealing cylinder in a rectangular array; the axial lifter is coaxially arranged on the sealing cylinder, and the working end of the axial lifter can move in the sealing cylinder along the axial direction; the probe-type water quality detection device comprises a probe-type water quality detection device, a rectangular array, a rubber ring and a terminal mechanism, wherein the rectangular array is arranged at the working end of an axial lifter, the axial direction of the probe-type water quality detection device is vertical, a probe of the probe-type water quality detection device coaxially penetrates through the rubber ring, and the probe of the probe-type water quality detection device is in interference fit with the rubber ring.

Description

Based on thing networking water plant raw water quality of water early warning device

Technical Field

The utility model relates to the field of reclaimed water detection, in particular to a raw water quality early warning device based on the Internet of things in a water plant.

Background

The reuse of sewage is an important way for solving the shortage of urban water resources. In recent years, a plurality of cities use sewage recycling treatment technologies to establish a water plant for regeneration, and the pressure of the shortage of urban water resources is relieved to a certain extent. However, due to the influence of factors such as the source of raw water of a regenerated water plant, the complex water quality change condition and the like, in the production and operation process of the regenerated water plant, the difficulty of ensuring the water quality safety of the regenerated water is high, an effective early warning device for the water quality safety of the raw water of the regenerated water plant is lacked, and the problem of water quality cannot be timely and timely early warned, so that the water plant cannot effectively treat the raw water, but the detection working end of the existing early warning device is often stained and adhered, and further, the water quality of the raw water cannot be accurately monitored;

therefore, a water quality early warning device capable of feeding back water quality information in time and preventing a detection working end from being corroded is needed.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, a raw water quality early warning device based on the Internet of things water plant is provided.

In order to achieve the above purposes, the technical scheme adopted by the utility model is as follows:

a raw water quality early warning device for a water plant based on the Internet of things comprises a terminal mechanism, wherein the terminal mechanism is in wireless connection with a data center; the vertical rod is longitudinally arranged at the bottom end of the terminal mechanism; the sealing cylinder is fixedly arranged at the bottom end of the upright rod, and the axial direction of the sealing cylinder is vertical; the rubber rings are arranged at the bottom end of the sealing cylinder in a rectangular array manner; the axial lifter is coaxially arranged on the sealing cylinder, and the working end of the axial lifter can move in the sealing cylinder along the axial direction; probe formula water quality testing, probe formula water quality testing rectangular array is at the work end of axial riser, and probe formula water quality testing's axial is vertical, and probe formula water quality testing's detection probe passes the rubber circle along the coaxial, and probe formula water quality testing's detection probe and rubber circle interference fit, and probe formula water quality testing is connected with the terminal mechanism electricity.

Preferably, still including separating a dirty section of thick bamboo, separate a dirty coaxial setting in the bottom of a sealed section of thick bamboo of dirty section of thick bamboo, and probe-type water quality testing is located and separates a dirty section of thick bamboo, and separates and evenly arrange the sieve mesh on the dirty section of thick bamboo.

Preferably, the outer diameter of the dirt separation barrel is gradually reduced from top to bottom.

Preferably, the axial lifter comprises a lifting plate, and the lifting plate is coaxially and slidably arranged in the sealing cylinder; the polish rods are uniformly distributed in the sealing cylinder along the circumferential direction and penetrate through the lifting plate in the same axial direction; the screw rod is coaxially and rotatably arranged in the sealing cylinder and coaxially penetrates through the lifting plate; the axis of the fixed nut is vertically arranged on the lifting plate, and the fixed nut is screwed with the coaxial screw thread of the screw rod; the servo motor is fixedly arranged on the sealing barrel, and an output shaft of the servo motor is coaxially and fixedly connected with the screw rod.

Preferably, the sealing cylinder is provided with a through hole for avoiding a probe type water quality detection connecting line, and the vertical rod is hollow.

Preferably, the device also comprises a placement frame and an annular air bag, wherein the placement frame is fixedly arranged at the detection point, a fixing ring along the vertical direction is arranged on one side of the placement frame, and the vertical rod is arranged on the fixing ring in a sliding manner along the vertical direction; the annular air bag is coaxially sleeved outside the sealing cylinder.

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

1. the probe-type water quality detection probe can transmit the water quality image detected by the probe-type water quality detection to the data center through the terminal mechanism, thereby facilitating early warning in time, and can avoid the detection precision of the probe-type water quality detection probe from being influenced by attached dirt through the rubber ring and the axial lifter;

2. the utility model can avoid the influence of larger dirt in the raw water on the measurement precision of the probe type water quality detection through the dirt separating cylinder;

3. according to the utility model, the dirt separation cylinder with the outer diameter gradually reduced from top to bottom can prevent a large amount of dirt from accumulating on the outer circumferential surface of the dirt separation cylinder;

4. according to the utility model, the probe type water quality detection can stably lift in the sealing cylinder along the axial direction through the lifting plate, the polished rod, the lead screw, the fixing nut and the servo motor, so that the self-cleaning of the detection probe for the probe type water quality detection is facilitated;

5. according to the utility model, the through hole for avoiding the probe type water quality detection connecting line is arranged on the sealing cylinder, so that the connecting line for the probe type water quality detection passes through the through hole and the hollow upright rod and is electrically connected with the terminal mechanism, and further, the transmission of water quality information is facilitated

6. According to the utility model, the sealing cylinder can stably slide along the vertical direction along with the lifting of the water plane through the arrangement frame and the annular air bag, so that the probe type water quality detection is facilitated, and the water quality can be always detected.

Drawings

FIG. 1 is a perspective view of the present invention;

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

FIG. 3 is a cross-sectional view at section A-A of FIG. 2;

FIG. 4 is a perspective cross-sectional view at section A-A of FIG. 2;

FIG. 5 is an enlarged view of a portion of FIG. 3 at K;

fig. 6 is a perspective view of the sealing cylinder of the present invention.

The reference numbers in the figures are:

a-a terminal mechanism;

b-upright stanchion;

c-sealing the cylinder; c1-vias;

d-rubber ring;

an E-axial lifter; e1-lifter plate; e2-polished rod; e3-screw rod; e4-fixing nut; e5-servomotor;

f-probe type water quality detection;

g-a dirt separating cylinder; g1-mesh;

h-placing rack; h1-retaining ring;

i-ring air bag.

Detailed Description

The following description is presented to disclose the utility model so as to enable any person skilled in the art to practice the utility model. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art.

In order to solve the technical problem that the detection working end of the existing early warning device cannot be cleaned, as shown in fig. 4, the following technical scheme is provided:

a raw water quality early warning device for a water plant based on the Internet of things comprises,

the terminal mechanism A is in wireless connection with the data center;

the upright post B is arranged at the bottom end of the terminal mechanism A along the longitudinal direction; also comprises a step of adding a plurality of auxiliary materials,

the sealing cylinder C is fixedly arranged at the bottom end of the upright rod B, and the sealing cylinder C is vertical in the axial direction;

the rubber rings D are arranged at the bottom end of the sealing cylinder C in a rectangular array mode;

the axial lifter E is coaxially arranged on the sealing cylinder C, and the working end of the axial lifter E can move in the sealing cylinder C along the axial direction;

probe formula water quality testing F, probe formula water quality testing F rectangular array is at the work end of axial riser E, and probe formula water quality testing F's axial is vertical, and probe formula water quality testing F's test probe passes rubber circle D along the coaxial, and probe formula water quality testing F's test probe and rubber circle D interference fit, and probe formula water quality testing F is connected with terminal mechanism A electricity.

Specifically, the probe-type water quality detection F includes, but is not limited to, a solubility detector, a pH detector, a turbidity detector, and a temperature detector; the upright rod B is arranged at a monitoring point, the terminal mechanism A is electrically connected with the data center, the axial lifter E is started, the working end of the axial lifter E drives the probe type water quality detection F to move axially in the sealing cylinder C, namely, the detection probe of the probe type water quality detection F coaxially penetrates through the rubber ring D, namely, the detection probe of the axial lifter E can extend into raw water, further the water quality information of the raw water is sent to the terminal mechanism A, and then the data information is wirelessly transmitted to the data center by the terminal mechanism A, so that the data center judges whether the water quality of the raw water is lower than a standard value or not, further the treatment is facilitated in time, when the working end of the axial lifter E axially drives the probe type water quality detection F to rise, because the detection probe of the probe type water quality detection F is in coaxial interference fit with the rubber ring D, namely, the rubber ring D can scrape off dirt adhered to the detection probe in the rising process, and then prevent that adnexed dirt from influencing the detection precision, and sealed section of thick bamboo C can prevent that external pollution from corroding probe-type water quality testing F body, and then be convenient for improve the life of device.

Further:

in the raw water flowing process, the floating object is easily pushed to impact the detection probe of the probe type water quality detection F along the radial direction, and the detection precision of the probe type water quality detection F is easily influenced by larger impurities, in order to solve the technical problem, as shown in fig. 3, the following technical scheme is provided:

still including separating a dirty section of thick bamboo G, separate the coaxial setting in sealed section of thick bamboo C's bottom of a dirty section of thick bamboo G, and probe-type water quality testing F is located and separates a dirty section of thick bamboo G, and separates and evenly arranged sieve mesh G1 on a dirty section of thick bamboo G.

Specifically, through will separate dirty section of thick bamboo G coaxial setting in sealed section of thick bamboo C's bottom, and probe formula water quality testing F is located and separates dirty section of thick bamboo G, and separates and evenly arranged sieve mesh G1 on dirty section of thick bamboo G, even make the raw water can enter into through sieve mesh G1 and separate dirty section of thick bamboo G in, and be greater than sieve mesh G1 in the raw water dirty unable sieve mesh G1 that passes to dirty measurement accuracy who influences probe formula water quality testing F has been avoided.

Further:

in order to solve the technical problem that dirt is easily attached to the outer circumferential surface of the dirt separation cylinder G, as shown in FIG. 3, the following technical scheme is provided:

the outer diameter of the dirt separation cylinder G is gradually reduced from top to bottom.

Specifically, the outer diameter of the dirt separation cylinder G is gradually reduced from top to bottom, so that dirt is not easy to adhere to the outer circumferential surface of the dirt separation cylinder G, and the problem that the dirt separation cylinder G needs to be cleaned frequently is solved.

Further:

in order to solve the technical problem of how the working end of the axial lifter E drives the probe type water quality detection F to lift in the sealing cylinder C along the vertical direction, as shown in fig. 5, the following technical scheme is provided:

the axial lifter E comprises a plurality of axial lifters,

the lifting plate E1 is coaxially and slidably arranged in the sealing cylinder C by the lifting plate E1;

the polish rods E2, E2 are uniformly distributed in the sealing cylinder C along the circumferential direction, and E2 coaxially penetrates through the lifting plate E1;

the screw rod E3, the screw rod E3 are coaxially and rotatably arranged in the sealing cylinder C, and the screw rod E3 coaxially penetrates through the lifting plate E1;

the axis of the fixed nut E4 is vertically arranged on the lifting plate E1, and the fixed nut E4 is screwed with the coaxial screw of the screw rod E3;

the servo motor E5 and the servo motor E5 are fixedly arranged on the sealing cylinder C, and the output shaft of the servo motor E5 is coaxially and fixedly connected with the screw rod E3.

Specifically, when need follow vertical direction lift probe formula water quality testing F, start servo motor E5, even its output shaft can drive lead screw E3 coaxial rotation in sealed tube C, and lead screw E3 is twisted with the coaxial screw of fixation nut E4 and is connect, and lifter plate E1 passes through polished rod E2 coaxial slip setting in sealed tube C, when pivoted lead screw E3 promptly, lifter plate E1 can go up and down along the axial in sealed tube C, and then be convenient for through starting servo motor E5, make probe formula water quality testing F's detection probe can slide in rubber circle D.

Further:

in order to solve the technical problem of sealing when the axial lifters E and 01 are electrically connected, as shown in fig. 4 and 6, the following technical solutions are provided:

the sealing cylinder C is provided with a through hole C1 for avoiding a probe type water quality detection F connecting line, and the vertical rod B is hollow.

Specifically, the through hole C1 for avoiding the probe type water quality detection F connecting line is arranged on the sealing cylinder C, so that the connecting line of the probe type water quality detection F passes through the through hole C1 and the hollow upright post B and is electrically connected with the terminal mechanism A, and further, the transmission of water quality information is facilitated.

Further:

in order to solve the technical problem that the probe type water quality detection F cannot detect the water quality due to the height of a horizontal plane, as shown in figure 1, the following technical scheme is provided:

the device is characterized by further comprising a placement frame H and an annular air bag I, wherein the placement frame H is fixedly arranged at a detection point, a fixing ring H1 in the vertical direction is arranged on one side of the placement frame H, and the upright post B is arranged on the fixing ring H1 in a sliding manner in the vertical direction; the annular air bag I is coaxially sleeved outside the sealing cylinder C.

Specifically, through the coaxial cover of annular gasbag I establish in the outside of sealing cylinder C, and pole setting B slides along vertical direction and sets up in retainer plate H1, and place frame H fixes at the check point, and sealing cylinder C can slide along vertical direction along with the lift of horizontal plane at the check point promptly, can go up and down because of the raw water horizontal plane promptly for probe formula water quality testing F's detection probe can't stretch into aquatic.

According to the utility model, the water quality image detected by the probe type water quality detection F can be transmitted to the data center through the terminal mechanism A, so that early warning is facilitated in time, and the detection precision of the probe type water quality detection F probe can be prevented from being influenced by attached dirt through the rubber ring D and the axial lifter E.

The foregoing shows and describes the general principles, essential features, and advantages of the utility model. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the utility model, but that various changes and modifications may be made without departing from the spirit and scope of the utility model, which fall within the scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (6)

1. A raw water quality early warning device for a water plant based on the Internet of things comprises,

the terminal mechanism (A) is in wireless connection with the data center;

the upright rod (B) is arranged at the bottom end of the terminal mechanism (A) along the longitudinal direction;

it is characterized by also comprising a step of,

the sealing cylinder (C) is fixedly arranged at the bottom end of the upright rod (B), and the axial direction of the sealing cylinder (C) is vertical;

the rubber rings (D) are arranged at the bottom end of the sealing cylinder (C) in a rectangular array manner;

the axial lifter (E) is coaxially arranged on the sealing cylinder (C), and the working end of the axial lifter (E) can move in the sealing cylinder (C) along the axial direction;

probe-type water quality testing (F), probe-type water quality testing (F) rectangular array is at the work end of axial riser (E), and probe-type water quality testing (F)'s axial is vertical, and probe-type water quality testing (F)'s detection probe passes rubber circle (D) along the coaxial, and probe-type water quality testing (F)'s detection probe and rubber circle (D) interference fit, and probe-type water quality testing (F) is connected with terminal mechanism (A) electricity.

2. The raw water quality early warning device based on the Internet of things water plant is characterized by further comprising a sewage separation cylinder (G), wherein the sewage separation cylinder (G) is coaxially arranged at the bottom end of the sealing cylinder (C), the probe type water quality detection (F) is located in the sewage separation cylinder (G), and sieve holes (G1) are uniformly arranged on the sewage separation cylinder (G).

3. The raw water quality early warning device based on the Internet of things water plant as claimed in claim 2, wherein the outer diameter of the dirt separation cylinder (G) is gradually reduced from top to bottom.

4. The raw water quality early warning device for the water plant based on the Internet of things is characterized in that the axial lifter (E) comprises a water inlet pipe,

the lifting plate (E1), the lifting plate (E1) is coaxially and slidably arranged in the sealing cylinder (C);

the polish rods (E2), the polish rods (E2) are uniformly distributed in the sealing cylinder (C) along the circumferential direction, and the polish rods (E2) penetrate through the lifting plate (E1) in the same axial direction;

the screw rod (E3), the screw rod (E3) is coaxially and rotatably arranged in the sealing cylinder (C), and the screw rod (E3) coaxially penetrates through the lifting plate (E1);

the axis of the fixed nut (E4) is vertically arranged on the lifting plate (E1), and the fixed nut (E4) is screwed with the screw rod (E3) in a coaxial manner;

the servo motor (E5), servo motor (E5) are fixed on the sealing cylinder (C), and the output shaft of the servo motor (E5) is coaxially and fixedly connected with the screw rod (E3).

5. The raw water quality early warning device based on the Internet of things water plant is characterized in that a through hole (C1) for avoiding the connection of a probe type water quality detection (F) is formed in the sealing cylinder (C), and the vertical rod (B) is hollow.

6. The raw water quality early warning device for the water plant based on the Internet of things is characterized by further comprising a placement frame (H) and an annular air bag (I), wherein the placement frame (H) is fixedly arranged at a detection point, a fixing ring (H1) in the vertical direction is arranged on one side of the placement frame (H), and the vertical rod (B) is arranged on the fixing ring (H1) in a sliding mode in the vertical direction; the annular air bag (I) is coaxially sleeved outside the sealing cylinder (C).

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