CN112142210A - Sewage ectopic ecological treatment equipment based on microbial engineering technology - Google Patents

Abstract

The invention discloses a sewage ectopic ecological treatment device based on a microbial engineering technology, which comprises a restoration pool and fixing frames which are respectively arranged at two sides of the restoration pool, wherein two fixing rods which are arranged in parallel are jointly arranged on the fixing frames, a plurality of driving sleeves are symmetrically arranged on the two fixing rods, a short rod is rotatably connected in each driving sleeve, a reflector is fixedly arranged between the two corresponding short rods, a first ball and a plurality of second balls are embedded in each driving sleeve, and the second balls are symmetrically distributed at the upper side and the lower side of the corresponding first ball. The invention can make light vertically incident into the repairing pool, ensure the light intensity at each position in the repairing pool is uniform, increase the illumination time at the edge position of the repairing pool, improve the efficiency of sewage treatment, and when the illumination is too strong, the reflector can automatically rotate to the horizontal position, prevent most light from directly irradiating into the repairing pool, and avoid the inactivation of microorganisms.

Description

Sewage ectopic ecological treatment equipment based on microbial engineering technology

Technical Field

The invention relates to the technical field of sewage treatment, in particular to a sewage ectopic ecological treatment device based on a microbial engineering technology.

Background

The microbial engineering technology is widely applied to the fields of food, medicinal materials, biology and the like, has an important function in the sewage treatment direction, can quickly reduce the content of certain elements in sewage by utilizing various microbes to compositely treat the sewage, solidifies free molecular groups, and can also play a role in decomposing harmful substances.

The existing sewage heterotopic ecological treatment equipment mostly adopts an open and open form, natural light is utilized to provide illumination for microorganisms, a common sewage restoration tank is of a brick or concrete structure, only the top is transparent, and the microorganisms close to the edge of the sewage restoration tank can obtain illumination only when being close to the noon, so that the microorganisms in the sewage restoration tank are unevenly distributed, the sewage treatment efficiency is reduced, and when the illumination is strong, the protein components in the microorganisms are easily inactivated by ultraviolet rays and energy in direct light, so that the consumption of the microorganisms is increased.

Disclosure of Invention

The invention aims to solve the defects that microorganisms near the edge of a sewage remediation pool can only obtain illumination near noon and ultraviolet rays and energy in direct light easily cause inactivation of protein components in the microorganisms when the illumination is strong in the prior art, and provides ectopic sewage ecological treatment equipment based on a microbial engineering technology.

In order to achieve the purpose, the invention adopts the following technical scheme:

a sewage ectopic ecological treatment device based on a microbial engineering technology comprises a restoration pool and fixing frames which are respectively arranged at two sides of the restoration pool, wherein two fixing rods which are arranged in parallel are jointly arranged on a plurality of fixing frames, a plurality of driving sleeves are symmetrically arranged on the two fixing rods, each driving sleeve is internally and rotatably connected with a short rod, and a reflector is fixedly arranged between the two corresponding short rods;

every drive cover all inlays and is equipped with first ball and a plurality of second ball, and second ball symmetric distribution in the upper and lower both sides of corresponding first ball, every all inlay in the quarter butt and be equipped with the metal block, every all be equipped with actuating mechanism on the mount, first ball and second ball all are connected with the actuating mechanism electricity that corresponds.

Preferably, each driving mechanism all includes the heat absorption case, every equal symmetry of installing on the inside wall of heat absorption case has the sliding sleeve, every first hall sensor and second hall sensor are all installed to the inboard of sliding sleeve, and every second hall sensor all is located the top of the first hall sensor that corresponds, every all slide in the sliding sleeve and be provided with thin magnetic sheet.

Preferably, each first hall sensor is electrically connected with a corresponding second ball, and each second hall sensor is electrically connected with a corresponding first ball.

Preferably, the upper end of each heat absorption box is communicated with a bent pipe, the lower end of each bent pipe is communicated with an exhaust pipe and an air inlet pipe through a three-way pipe, a first one-way valve and a second one-way valve are respectively arranged on each exhaust pipe and each air inlet pipe, and each exhaust pipe hermetically penetrates through the side wall of the repair pool and extends into the repair pool.

The invention has the beneficial effects that:

1. through setting up devices such as heat absorption case, thin magnetic sheet, sliding sleeve, first hall sensor, quarter butt, drive cover, stopper, can realize the speculum spontaneous rotation according to light intensity and ambient temperature's relation to make light vertical incidence restore the pond in, guarantee to restore the light intensity everywhere in the pond even, and increased the illumination time of restoreing pond edge position department, improved sewage treatment's efficiency.

2. Through setting up first ball and second hall sensor, when the temperature is the highest, the evaporation capacity of low boiling point evaporant reaches the biggest, and thin magnetic sheet is just located second hall sensor department, and first ball is aroused this moment, makes the quarter butt drive speculum rotate horizontal position, can block most light incident restoration pond, avoids a large amount of ultraviolet rays or a large amount of energy in the intense illumination to lead to the microorganism in the restoration pond to lose activity.

3. The second ball distributes about first ball longitudinal symmetry, when the temperature changes from the minimum to the maximum, and the second ball that is located the top switches on in proper order, when the temperature changes from the maximum to the minimum, and the second ball that is located the below switches on in proper order to make the speculum cater to the direction of sunlight irradiation, guarantee to restore the pond and can both receive even illumination in one day.

4. Through setting up return bend, intake pipe, blast pipe, first check valve, second check valve, can shift the outside air to in restoreing the pond with the help of the motion of thin magnetic sheet to increase the area of contact of liquid in the restoration pond and air, increase dissolved oxygen volume, under the condition of remedying the high temperature, restore the oxygen of overflowing in the pond, guarantee the microbial activity.

Drawings

FIG. 1 is a schematic structural diagram of an example 1 of an ectopic sewage ecological treatment device based on a microbial engineering technology according to the present invention;

FIG. 2 is a schematic sectional view of a driving sleeve and a short rod in an embodiment 1 of the ectopic sewage ecological treatment equipment based on the microbial engineering technology;

FIG. 3 is a schematic view of the internal structure of a heat absorption box in the embodiment 1 of the ectopic sewage ecological treatment equipment based on the microbial engineering technology;

FIG. 4 is a schematic view of a reflection light path of light after a reflector rotates in an embodiment 1 of the ectopic sewage ecological treatment equipment based on the microbial engineering technology;

FIG. 5 is a schematic structural diagram of an example 2 of an ectopic sewage ecological treatment device based on a microbial engineering technology.

In the figure: the device comprises a fixing frame 1, a fixing rod 2, a heat absorption box 3, a box cover 31, a limiting block 32, a driving sleeve 4, a short rod 5, a reflector 6, a repair pool 7, a transparent plate 8, a first ball 9, a second ball 10, a metal block 11, a sliding sleeve 12, a first Hall sensor 13, a second Hall sensor 14, a thin magnetic sheet 15, a bent pipe 16, an exhaust pipe 17, an air inlet pipe 18, a first check valve 19 and a second check valve 20.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Example 1

Referring to fig. 1-4, a sewage heterotopic ecological treatment device based on a microbial engineering technology comprises a restoration pool 7 and fixing frames 1 which are respectively arranged at two sides of the restoration pool 7, wherein a transparent plate 8 is movably covered on the restoration pool 7, the transparent plate 8 plays a role of heat preservation, two fixing rods 2 which are arranged in parallel are jointly arranged on a plurality of fixing frames 1, a plurality of driving sleeves 4 are symmetrically arranged on the two fixing rods 2, a short rod 5 is rotatably connected in each driving sleeve 4, and a reflecting mirror 6 is fixedly arranged between the two corresponding short rods 5;

a first ball 9 and a plurality of second balls 10 are embedded in each driving sleeve 4, the second balls 10 are symmetrically distributed on the upper side and the lower side of the corresponding first ball 9, a metal block 11 is embedded in each short rod 5, a driving mechanism is arranged on each fixing frame 1, and the first ball 9 and the second ball 10 are electrically connected with the corresponding driving mechanisms;

the first ball 9 and the second ball 10 will generate a strong magnetic field after being electrified, so as to attract the metal block 11 to rotate by a corresponding angle, and the metal block 11 is made of ferromagnetic metal and has good magnetic conductivity.

In this embodiment, every actuating mechanism all includes heat absorption case 3, the 3 outsides of heat absorption case are dark, can effective absorption heat, equal symmetrical installation has sliding sleeve 12 on every heat absorption case 3's the inside wall, first hall sensor 13 and second hall sensor 14 are all installed to every sliding sleeve 12's inboard, and every second hall sensor 14 all is located the top of the first hall sensor 13 that corresponds, it is provided with thin magnetic sheet 15 all to slide in every sliding sleeve 12, first hall sensor 13 is the vertical range of the hall sensor that a plurality of thresholds are different and forms, sliding sleeve 12's upper and lower both sides all are equipped with stopper 32, avoid the scope of thin magnetic sheet 15 roll-off sliding sleeve 12, still set case lid 31 on the heat absorption case 3, still contain low boiling point evaporant in the heat absorption case 3, low boiling point evaporant is located sliding sleeve 12's below.

In this embodiment, each first hall sensor 13 is electrically connected to the corresponding second ball 10 through a chip, and each second hall sensor 14 is electrically connected to the corresponding first ball 9 through a chip.

The present embodiment can illustrate the functional principle thereof by the following operation modes: in the initial state, the initial inclination angle of the reflector 6 can be set according to the factors such as the local sunrise time, the sunshine angle and the like, so that light can vertically enter the restoration pool 7 through the reflector 6 when sunshine exists;

as time goes on, the angle of light and the ambient temperature also change continuously, when the temperature rises, the evaporation speed of the low boiling point evaporation liquid in the heat absorption box 3 is accelerated, the gaseous low boiling point evaporation liquid pushes the thin magnetic sheet 15 to slide upwards, so that the relative position between the thin magnetic sheet 15 and the corresponding first hall sensor 13 changes continuously, the first hall sensor 13 is formed by vertically arranging a plurality of hall sensors with different thresholds, so that when the positions of the thin magnetic sheets 15 are different, the different hall sensors send signals to the chip, and the chip compares the magnetic field signal with a preset value, thereby selectively exciting the second ball 10 at different positions;

the second ball 10 generates a magnetic field after being electrified, so as to generate attraction force on the metal block 11, so that the metal block 11 and the short rod 5 drive the reflector 6 to rotate for a certain angle to meet the incident angle of sunlight, as shown in fig. 4, and light rays are ensured to be vertically incident into the repair pool 7 all the time;

when the temperature is highest, the evaporation capacity of the low-boiling-point evaporation liquid reaches the maximum, the thin magnetic sheet 15 is just positioned at the second Hall sensor 14, and the first ball 9 is excited, so that the short rod 5 drives the reflector 6 to rotate to the horizontal position, most light rays can be prevented from being incident into the repair pool 7, and microorganisms in the repair pool are prevented from losing activity due to a large amount of ultraviolet rays or a large amount of energy in strong illumination;

when the temperature is gradually reduced from the highest value, the low-boiling-point evaporating liquid is gradually changed into a liquid state from a gaseous state, the thin magnetic sheet 15 slides from top to bottom, the magnetic field signals received by the chip are different in sequence, and the second ball 10 on the other side is gradually conducted, so that the reflector 6 rotates along the sunset direction, and the repair pool 7 is ensured to be uniformly illuminated;

it should be noted that the type and filling amount of the low boiling point evaporation liquid, the initial angle of the reflector 6, the angle between the second beads 10, etc. need to be set according to the local sunrise and sunset law and the temperature change under normal conditions, so as to ensure that the device can achieve the desired effect.

Example 2

Referring to fig. 5, the present embodiment is different from embodiment 1 in that: the upper end of each heat absorption box 3 is communicated with a bent pipe 16, the lower end of each bent pipe 16 is communicated with an exhaust pipe 17 and an air inlet pipe 18 through a three-way pipe, a first one-way valve 19 and a second one-way valve 20 are respectively installed on each exhaust pipe 17 and each air inlet pipe 18, the first one-way valve 19 only allows air in the exhaust pipe 17 to flow into the repair pool 7, the second one-way valve 20 only allows outside air to flow into the air inlet pipe 18, and each exhaust pipe 17 is sealed to penetrate through the side wall of the repair pool 7 and extend into the repair pool 7.

The present embodiment can illustrate the functional principle thereof by the following operation modes: when the low-boiling-point evaporating liquid in the heat absorption box 3 is heated to accelerate the evaporation speed, the thin magnetic sheet 15 slides upwards to extrude the gas above the thin magnetic sheet into the bent pipe 16, so that the gas enters the repair pool 7 after passing through the exhaust pipe 17 and the first one-way valve 19, the contact area of the liquid in the repair pool 7 and the air is increased, the dissolved oxygen is increased, the oxygen escaping from the repair pool 7 under the high-temperature condition is compensated, and the microbial activity is ensured;

when the temperature drops, the low-boiling-point evaporating liquid in the heat absorption box 3 becomes liquid again, and at the moment, under the action of negative pressure, the thin magnetic sheet 15 slides downwards, so that the outside air enters the heat absorption box 3 through the second one-way valve 20 and the bent pipe 16, and the pressure balance in the heat absorption box 3 is ensured.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical scope of the present invention and the equivalent alternatives or modifications according to the technical solution and the inventive concept of the present invention within the technical scope of the present invention.

Claims (4)

1. A sewage ectopic ecological treatment device based on a microbial engineering technology comprises a restoration pool (7) and fixing frames (1) which are respectively arranged at two sides of the restoration pool (7), and is characterized in that a plurality of fixing frames (1) are jointly provided with two fixing rods (2) which are arranged in parallel, a plurality of driving sleeves (4) are symmetrically arranged on the two fixing rods (2), each driving sleeve (4) is internally and rotatably connected with a short rod (5), and a reflector (6) is fixedly arranged between the two corresponding short rods (5);

all inlay in every drive sleeve (4) and be equipped with first ball (9) and a plurality of second ball (10), and second ball (10) symmetric distribution is in the upper and lower both sides of corresponding first ball (9), every all inlay in quarter butt (5) and be equipped with metal block (11), every all be equipped with actuating mechanism on mount (1), first ball (9) and second ball (10) all are connected with the actuating mechanism electricity that corresponds.

2. The sewage ectopic ecological treatment equipment based on the microbial engineering technology is characterized in that each driving mechanism comprises an heat absorption box (3), sliding sleeves (12) are symmetrically arranged on the inner side wall of each heat absorption box (3), a first Hall sensor (13) and a second Hall sensor (14) are arranged on the inner side of each sliding sleeve (12), each second Hall sensor (14) is positioned above the corresponding first Hall sensor (13), and a thin magnetic sheet (15) is arranged in each sliding sleeve (12) in a sliding manner.

3. A sewage ex-situ ecological treatment plant based on microbiological engineering technology according to claim 2, characterised in that each of said first hall sensors (13) is electrically connected with a corresponding second ball (10), and each of said second hall sensors (14) is electrically connected with a corresponding first ball (9).

4. The ectopic sewage ecological treatment equipment based on the microbial engineering technology is characterized in that the upper end of each heat absorption box (3) is communicated with a bent pipe (16), the lower end of each bent pipe (16) is communicated with an exhaust pipe (17) and an air inlet pipe (18) through a three-way pipe, a first one-way valve (19) and a second one-way valve (20) are respectively installed on each exhaust pipe (17) and each air inlet pipe (18), and each exhaust pipe (17) hermetically penetrates through the side wall of the restoration pool (7) and extends into the restoration pool (7).

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