CN211470955U - Oxygen increasing and microbial strain feeding control system capable of being independently controlled - Google Patents

Abstract

The utility model discloses an independently controlled oxygenation and microorganism strain putting control system, which relates to the field of riverway and lake water quality monitoring and treatment equipment, and comprises a stainless steel frame and a photovoltaic plate, wherein the photovoltaic plate is arranged on the top of the stainless steel frame, four corners below the stainless steel frame are respectively provided with a support leg, the side edges of the support legs are respectively provided with a storage battery block, the bottom of one support leg is provided with a five-parameter water quality sensor which is powered by solar energy, thereby having the advantages of energy saving, environmental protection and low cost, the utility model can continuously, timely and accurately monitor the water quality and the change condition of a target water area, and can obtain 24-hour continuous online monitoring water quality five-parameter data, when the water quality reaches the standard, a diving centrifugal aerator is adopted to oxygenate the water body, if the dissolved oxygen degree can not meet the requirement, the river channel can be treated by the microbial inoculum storage tank, and the automation degree is high.

Description

Oxygen increasing and microbial strain feeding control system capable of being independently controlled

Technical Field

The utility model relates to a river course, lake water quality monitoring, treatment facility field specifically are oxygenation, microbial srain input control system that can independent control.

Background

During the chemical production and processing, a lot of sewage is discharged to pollute the water quality of rivers and lakes, the process is an indispensable process of the state from the agricultural industry to the mechanization, China also goes through the stage, and along with the improvement of the living standard, the requirements of people on environmental protection and environment are higher and higher, the state responds to the requirements of people, the slogan of 'green water Qingshan, namely Jinshan Yinshan' is provided, and the new requirements on the water quality monitoring and treatment of the rivers and lakes are provided.

The existing riverway and lake water quality monitoring and treatment equipment in the market at present has the problems of low automation degree, poor integration performance and incapability of carrying out oxygen enrichment and microbial strain release independently.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an oxygenation that can independent control, microbial strains throw in control system to current river course, lake water quality monitoring, treatment facility that provide in solving above-mentioned background art have that degree of automation is low, the integration performance is poor, can't be autonomic, independent carry out the problem that oxygenation, microbial strains were thrown in.

In order to achieve the above object, the utility model provides a following technical scheme: an independently-controlled oxygenation and microbial strain release control system comprises a stainless steel frame and a photovoltaic panel, wherein the photovoltaic panel is installed at the top of the stainless steel frame, four corners below the stainless steel frame are respectively provided with a support leg, the side edges of the support legs are respectively provided with a storage battery block, the bottom of one support leg is provided with a five-parameter water quality sensor, the stainless steel frame is provided with an air blower and a control box, a microbial inoculum storage tank is installed below the stainless steel frame, a submersible centrifugal aerator is installed below the microbial inoculum storage tank and is provided with an air pipe, and the air pipe is connected with the microbial inoculum storage tank through a microbial inoculum pipe;

the control box includes the switch board, install the maintenance door that is used for routine maintenance on the switch board, the side fixed mounting of switch board has the photovoltaic controller, the photovoltaic controller electricity is connected between anti-recoil diode and cable conductor.

Preferably, the stainless steel frame is connected with the supporting legs in a welding mode, and the supporting legs are fixedly connected with the five-parameter water quality sensor.

Preferably, the storage battery block, the blower and the control box are all subjected to waterproof treatment, and the five-parameter water quality sensor is kept below the water surface.

Preferably, the storage battery block is screwed with the stainless steel frame through a bolt, the storage battery block is electrically connected with the cable, and the storage battery block is electrically connected with the control cabinet.

Preferably, the number of the photovoltaic panels is four, the photovoltaic panels are obliquely arranged, the four photovoltaic panels are electrically connected with the anti-recoil diode, and the photovoltaic panels are screwed with the stainless steel frame through bolts.

Preferably, the microbial inoculum storage tank is hermetically connected with the microbial inoculum tube, the microbial inoculum tube is inserted into the air tube, and the air tube is fixedly connected with the submersible centrifugal aerator.

Preferably, the blower is electrically connected with the control box, and the five-parameter water quality sensor is electrically connected with the control box.

Preferably, the control cabinet is fixedly connected with the photovoltaic controller through bolts.

Preferably, the five-parameter water quality sensor comprises a pH sensor, a temperature sensor, a dissolved oxygen sensor, a conductivity sensor and a turbidity sensor.

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

this kind of oxygenation that can independent control, microbial srain input control system, through the solar energy power supply, have energy-conservation, environmental protection, advantage with low costs, the utility model discloses can be in succession, in time, accurately monitor the quality of water and the situation of change in target waters to can obtain the continuous on-line monitoring quality of water five parameter data in 24 hours, can not reach the standard when quality of water, adopt dive centrifugal aeration machine to carry out the oxygenation to the water, if the dissolved oxygen still can not satisfy the requirement, accessible microbial inoculum holding vessel administers the river course, and degree of automation is high.

Drawings

Fig. 1 is a front view of the present invention;

fig. 2 is an enlarged view of the control box of the present invention.

In the figure: 1. a stainless steel frame; 2. a photovoltaic panel; 3. a submersible centrifugal aerator; 4. a microbial inoculum storage tank; 5. an air tube; 6. a battery block; 7. a blower; 8. a control box; 9. a support leg; 10. a microbial inoculum tube; 11. a five-parameter water quality sensor; 801. an anti-kickback diode; 802. a photovoltaic controller; 803. a cable wire; 804. a control cabinet; 805. the door is maintained.

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.

In the description of the present invention, it is to be understood that the terms "center", "lateral", "longitudinal", "front", "rear", "left", "right", "up", "down", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the scope of the invention.

Referring to fig. 1-2, an independently controllable oxygenation and microbial strain release control system comprises a stainless steel frame 1 and a photovoltaic panel 2, wherein the photovoltaic panel 2 is installed at the top of the stainless steel frame 1, four lower corners of the stainless steel frame 1 are respectively provided with a support leg 9, the side edges of the support legs 9 are respectively provided with a storage battery block 6, the bottom of one support leg 9 is provided with a five-parameter water quality sensor 11, the stainless steel frame 1 is provided with an air blower 7 and a control box 8, a microbial inoculum storage tank 4 is installed below the stainless steel frame 1, a submersible centrifugal aerator 3 is installed below the microbial inoculum storage tank 4, an air pipe 5 is installed on the submersible centrifugal aerator 3, and the air pipe 5 is connected with the microbial inoculum storage tank 4 through a microbial inoculum pipe 10;

the control box 8 comprises a control cabinet 804, a maintenance door 805 for daily maintenance is installed on the control cabinet 804, a photovoltaic controller 802 is fixedly installed on the side edge of the control cabinet 804, and the photovoltaic controller 802 is electrically connected between the anti-recoil diode 801 and the cable 803.

Specifically, stainless steel frame 1 and landing leg 9 welded connection, landing leg 9 and five parameter water quality sensor 11 fixed connection, landing leg 9 can provide support, fixed effect for stainless steel frame 1 and five parameter water quality sensor 11.

Specifically, battery piece 6, air-blower 7, control box 8 all carry out water repellent, and five parameter water quality sensor 11 keeps below the surface of water, sets up like this and can avoid battery piece 6, air-blower 7, control box 8 to soak and lead to damaging, and the five parameter water quality sensor 11 of being convenient for simultaneously gather quality of water information.

Specifically, the storage battery block 6 is screwed with the stainless steel frame 1 through a bolt, the storage battery block 6 is electrically connected with the cable 803, the storage battery block 6 is electrically connected with the control cabinet 804, electric energy is charged into the storage battery block 6 through the cable 803 for storage, and the storage battery block 6 provides electric power for the blower 7, the control box 8 and the five-parameter water quality sensor 11.

Specifically, the number of the photovoltaic panels 2 is four, the photovoltaic panels 2 are obliquely arranged, the inclination angle of the photovoltaic panels 2 is adjusted according to the equatorial angle of the bottom of a water area to be detected, the four photovoltaic panels 2 are electrically connected with the anti-recoil diode 801, the photovoltaic panels 2 are screwed with the stainless steel frame 1 through bolts, solar energy is converted into electric energy through the photovoltaic panels 2, and the storage battery block 6 is charged after the anti-recoil diode 801 and the photovoltaic controller 802 are processed.

Specifically, the microbial inoculum holding vessel 4 is connected with microbial inoculum pipe 10 sealing, and inside microbial inoculum pipe 10 inserted air pipe 5, air pipe 5 and 3 fixed connection of dive centrifugal aeration machine, when quality of water can not reach the standard, adopt dive centrifugal aeration machine 3 to carry out the oxygenation to the water, if the dissolved oxygen degree still can not satisfy the requirement, accessible microbial inoculum holding vessel 4 is administered the river course.

Specifically, the air blower 7 is electrically connected with the control box 8, the five-parameter water quality sensor 11 can feed back water quality monitoring data to the control box 8, and the control box 8 controls the operation of the air blower 7.

Specifically, the control cabinet 804 is fixedly connected with the photovoltaic controller 802 through bolts, and the control cabinet 804 can provide supporting and fixing functions for the photovoltaic controller 802.

Specifically, the five-parameter water quality sensor 11 comprises a PH sensor, a temperature sensor, a dissolved oxygen sensor, a conductivity sensor and a turbidity sensor, and the five-parameter water quality sensor 11 can be used for simultaneously detecting the PH, the temperature, the dissolved oxygen content, the conductivity and the turbidity of the water body and feeding back the PH, the temperature, the dissolved oxygen content, the conductivity and the turbidity to the control box 8.

The working principle is as follows: inserting the support legs 9 into the bottom of a water area to be detected, keeping the five-parameter water quality sensor 11 below the water surface, keeping the storage battery block 6 above the water surface, adjusting the inclination angle of the photovoltaic panel 2 according to the angle of the equator where the bottom of the water area to be detected is located, so that the photovoltaic panel 2 obtains the optimal illumination intensity and illumination time, converting solar energy into electric energy through the photovoltaic panel 2, charging the electric energy into the storage battery block 6 for storage through cables 803 after the treatment of an anti-recoil diode 801 and a photovoltaic controller 802, providing electric power for the blower 7, the control box 8 and the five-parameter water quality sensor 11 through the storage battery block 6, feeding back the monitoring data to the control box 8 for treatment, and feeding oxygen to the water body by using the submersible centrifugal aerator 3 when the water quality does not reach the standard, if the dissolved oxygen still can not satisfy the requirement, can manage the river course through microbial inoculum holding vessel 4.

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 (9)

1. An oxygenation and microbial strain release control system capable of being independently controlled is characterized in that: comprises a stainless steel frame (1) and a photovoltaic panel (2), wherein the photovoltaic panel (2) is arranged on the top of the stainless steel frame (1), the four corners of the lower part of the stainless steel frame (1) are respectively provided with a supporting leg (9), the side edges of the supporting legs (9) are respectively provided with a storage battery block (6), the bottom of one of the supporting legs (9) is provided with a five-parameter water quality sensor (11), the stainless steel frame (1) is provided with an air blower (7) and a control box (8), a microbial inoculum storage tank (4) is arranged below the stainless steel frame (1), a submersible centrifugal aerator (3) is arranged below the microbial inoculum storage tank (4), an air pipe (5) is installed on the submersible centrifugal aerator (3), and the air pipe (5) is connected with the microbial inoculum storage tank (4) through a microbial inoculum pipe (10);

the control box (8) comprises a control cabinet (804), a maintenance door (805) for daily maintenance is installed on the control cabinet (804), a photovoltaic controller (802) is fixedly installed on the side edge of the control cabinet (804), and the photovoltaic controller (802) is electrically connected between the anti-recoil diode (801) and the cable (803).

2. The system of claim 1, wherein the aeration and microorganism strain release control system comprises: the stainless steel frame (1) is connected with the supporting legs (9) in a welding mode, and the supporting legs (9) are fixedly connected with the five-parameter water quality sensor (11).

3. The system of claim 1, wherein the aeration and microorganism strain release control system comprises: the storage battery block (6), the air blower (7) and the control box (8) are all subjected to waterproof treatment, and the five-parameter water quality sensor (11) is kept below the water surface.

4. The system of claim 1, wherein the aeration and microorganism strain release control system comprises: the storage battery block (6) is screwed with the stainless steel frame (1) through a bolt, the storage battery block (6) is electrically connected with the cable (803), and the storage battery block (6) is electrically connected with the control cabinet (804).

5. The system of claim 1, wherein the aeration and microorganism strain release control system comprises: the photovoltaic panel (2) is four in number, the photovoltaic panel (2) is obliquely arranged, the photovoltaic panel (2) is electrically connected with the anti-recoil diode (801), and the photovoltaic panel (2) is screwed with the stainless steel frame (1) through bolts.

6. The system of claim 1, wherein the aeration and microorganism strain release control system comprises: the microbial inoculum storage tank (4) is in sealing connection with the microbial inoculum pipe (10), the microbial inoculum pipe (10) is inserted into the air pipe (5), and the air pipe (5) is fixedly connected with the submersible centrifugal aerator (3).

7. The system of claim 1, wherein the aeration and microorganism strain release control system comprises: the air blower (7) is electrically connected with the control box (8), and the five-parameter water quality sensor (11) is electrically connected with the control box (8).

8. The system of claim 1, wherein the aeration and microorganism strain release control system comprises: the control cabinet (804) is fixedly connected with the photovoltaic controller (802) through bolts.

9. The system of claim 1, wherein the aeration and microorganism strain release control system comprises: the five-parameter water quality sensor (11) comprises a PH sensor, a temperature sensor, a dissolved oxygen sensor, a conductivity sensor and a turbidity sensor.

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