CN111692419A

CN111692419A - Intelligent water body flow dividing valve

Info

Publication number: CN111692419A
Application number: CN202010579898.8A
Authority: CN
Inventors: 刘荣文
Original assignee: Individual
Current assignee: Zhuji Hengke Pipeline Technology Co ltd
Priority date: 2020-06-23
Filing date: 2020-06-23
Publication date: 2020-09-22
Anticipated expiration: 2040-06-23
Also published as: CN111692419B

Abstract

The invention relates to a flow dividing valve, in particular to an intelligent water body flow dividing valve. The technical problem to be solved is as follows: the utility model provides a can carry out intelligent water shunt valve of reposition of redundant personnel with muddy water and clear water. The technical scheme is as follows: an intelligent water body flow dividing valve comprises an identification tube, a glass plate, a first installation box, an LED lamp, a second installation box, a photosensitive sensor, a control box, a power switch, a first connecting joint, an iron tee joint and the like; the light-transmitting holes are formed in the left wall and the right wall of the identification tube, the glass plate is installed in each light-transmitting hole, the first installation box is arranged on the left side of the identification tube, the LED lamp is installed on the left wall in the first installation box, the LED lamp stretches into the left light-transmitting holes, and the second installation box is arranged on the right side of the identification tube. The photosensitive sensor can detect light split by the LED lamp, when the sewage is cloudy, less light energy is detected by the photosensitive sensor, the photosensitive sensor sends a signal, the control module can control the first electric control valve to be opened after receiving the signal, and the cloudy sewage can be discharged.

Description

Intelligent water body flow dividing valve

Technical Field

The invention relates to a flow dividing valve, in particular to an intelligent water body flow dividing valve.

Background

People can generate a large amount of sewage in life, and in order to reduce environmental pollution and realize sustainable utilization of resources, the sewage needs to be discharged into a sewage disposal basin for purification treatment. The sewage treatment device has the advantages that the existing sewage treatment device generally discharges comparatively turbid water and comparatively clear water into the sewage disposal tank for treatment, the comparatively turbid water is more complicated in the process of water treatment for the clear water, the two water discharges together to enable the clear water to become turbid, and the treatment difficulty is increased. And there is certain degree of difficulty in separately discharging two different kinds of sewage, and it is difficult to realize under the prior art condition.

Disclosure of Invention

In order to overcome the shortcoming that is difficult to intelligently shunt turbid water and clear water under the prior art, the technical problem that solves is: the utility model provides a can carry out intelligent water shunt valve of reposition of redundant personnel with muddy water and clear water.

The technical scheme is as follows: an intelligent water body flow divider comprises an identification tube, a glass plate, a first installation box, an LED lamp, a second installation box, a photosensitive sensor, a control box, a power switch, a first connector, an iron tee joint, a first electric control valve, a first external connector, a second electric control valve, a second external connector, a second connector, an iron bridge bend and a third external connector, wherein light transmission holes are formed in the left wall and the right wall of the identification tube, the glass plate is installed in each light transmission hole, the first installation box is arranged on the left side of the identification tube, the LED lamp is installed on the left wall in the first installation box, the LED lamp extends into the light transmission hole on the left side, the second installation box is arranged on the right side of the identification tube, the photosensitive sensor is installed on the right wall in the second installation box, the photosensitive sensor extends into the light transmission hole on the right side, the photosensitive sensor and the LED lamp are located on the same horizontal line, the control box is installed on the right side of the second installation box, the bottom of the identification pipe is connected with a first connector, the bottom of the first connector is connected with an iron tee joint, the lower portion of the left side of the iron tee joint is provided with a first electric control valve, the left side of the iron tee joint is connected with a first external connector, the lower portion of the right side of the iron tee joint is provided with a second electric control valve, the right side of the iron tee joint is connected with a second external connector, the top of the identification pipe is connected with a second connector, the top of the second connector is connected with an iron bridge elbow, and the top of the iron bridge elbow is provided with a third external.

As a further preferable scheme, the device further comprises a flow rate sensor, wherein the flow rate sensor is arranged on the left side of the first connecting head, and a detection part of the flow rate sensor extends into the first connecting head.

As a further preferable scheme, the control box comprises a power module and a control module, the power module is connected with the control module through a circuit, the storage battery is connected with the power module through a circuit, the storage battery supplies power for the whole equipment, the power module is connected with the power switch through a circuit, the control module is connected with three keys through a circuit, the three keys are respectively a setting key, an plus 1 key and a minus 1 key, and related parameters can be set through the three keys; the control module is connected with an LED lamp, a photosensitive sensor and a flow velocity sensor through lines, and the control module is connected with a first electric control valve and a second electric control valve through peripheral lines.

The beneficial effects are that: the photosensitive sensor can detect light split by the LED lamp, when the sewage is cloudy, less light energy is detected by the photosensitive sensor, the photosensitive sensor sends a signal, the control module can control the first electric control valve to be opened after receiving the signal, and the cloudy sewage can be discharged; when the sewage is clear, the light emitted by the LED lamp can penetrate through the sewage, the photosensitive sensor emits another signal, the control module can control the second electric control valve to be opened after receiving the signal, the clear sewage can be discharged, and therefore the intelligent shunting effect is achieved.

Drawings

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

Fig. 2 is a circuit block diagram of the present invention.

Wherein: 1. the LED flow rate sensor comprises an identification tube, 2 light holes, 3 a glass plate, 4 a first installation box, 5 an LED lamp, 6 a second installation box, 7 a photosensitive sensor, 8 a control box, 9 a power switch, 10 a first connector, 11 an iron tee joint, 12 a first electronic control valve, 13 a first external connector, 14 a second electronic control valve, 15 a second external connector, 16 a second connector, 17 an iron bridge bend, 18 a third external connector and 30 a flow rate sensor.

Detailed Description

The technical scheme of the invention is further explained by combining the attached drawings.

Example 1

An intelligent water body flow divider is shown in figure 1-2 and comprises an identification tube 1, a glass plate 3, a first installation box 4, an LED lamp 5, a second installation box 6, a photosensitive sensor 7, a control box 8, a power switch 9, a first connector 10, an iron tee 11, a first electric control valve 12, a first external connector 13, a second electric control valve 14, a second external connector 15, a second connector 16, an iron bridge bend 17 and a third external connector 18, wherein the left wall and the right wall of the identification tube 1 are both provided with light holes 2, the glass plate 3 is arranged in the light holes 2, the left side of the identification tube 1 is provided with the first installation box 4, the left wall of the first installation box 4 is provided with the LED lamp 5, the LED lamp 5 extends into the light hole 2 at the left side, the right side of the identification tube 1 is provided with the second installation box 6, the right wall of the second installation box 6 is provided with the photosensitive sensor 7, the photosensitive sensor 7 extends into the light hole 2 at the right side, photosensitive sensor 7 is located same water flat line with LED lamp 5, control box 8 is installed on 6 right sides of second install bin, second install bin 6 is connected with control box 8 through bolted connection's mode, 8 left sides lower parts of control box are equipped with

switch

9, 1 bottom of discernment pipe is connected with first connector 10, first connector 10 bottom is connected with iron tee bend 11, the left side lower part of iron tee bend 11 is equipped with first automatically controlled valve 12, the left side of iron tee bend 11 is connected with first external joint 13, the right side lower part of iron tee bend 11 is equipped with second automatically controlled valve 14, the right side of iron tee bend 11 is connected with second

external joint

15, 1 top of discernment pipe is connected with second connector 16, discernment pipe 1 passes through welded connection's mode and is connected with

second connector

16, 16 tops of second connector are connected with iron and cross a bridge curved 17, iron cross a curved 17 top and be equipped with third external joint 18.

Example 2

An intelligent water body flow divider is shown in figure 1-2 and comprises an identification tube 1, a glass plate 3, a first installation box 4, an LED lamp 5, a second installation box 6, a photosensitive sensor 7, a control box 8, a power switch 9, a first connector 10, an iron tee 11, a first electric control valve 12, a first external connector 13, a second electric control valve 14, a second external connector 15, a second connector 16, an iron bridge bend 17 and a third external connector 18, wherein the left wall and the right wall of the identification tube 1 are both provided with light holes 2, the glass plate 3 is arranged in the light holes 2, the left side of the identification tube 1 is provided with the first installation box 4, the left wall of the first installation box 4 is provided with the LED lamp 5, the LED lamp 5 extends into the light hole 2 at the left side, the right side of the identification tube 1 is provided with the second installation box 6, the right wall of the second installation box 6 is provided with the photosensitive sensor 7, the photosensitive sensor 7 extends into the light hole 2 at the right side, photosensitive sensor 7 is located same water flat line with LED lamp 5, control box 8 is installed on 6 right sides of second install bin, 8 left sides lower parts of control box are equipped with

switch

external joint

15, 1 top of discernment pipe is connected with

second connector

16, 16 tops of second connector are connected with the curved 17 of iron cross bridge, the curved 17 top of iron cross bridge is equipped with third external joint 18.

The flow velocity sensor device further comprises a flow velocity sensor 30, the flow velocity sensor 30 is arranged on the left side of the first connecting head 10, and a detection part of the flow velocity sensor 30 extends into the first connecting head 10.

Example 3

switch

external joint

15, 1 top of discernment pipe is connected with

second connector

The control box 8 comprises a power supply module and a control module, the power supply module is connected with the control module through a circuit, a storage battery is connected with the power supply module through a circuit, the storage battery supplies power for the whole equipment, the power supply module is connected with a power switch 9 through a circuit, the control module is connected with three keys through a circuit, the three keys are respectively a setting key, an plus 1 key and a minus 1 key, and related parameters can be set through the three keys; the control module is connected with an LED lamp 5, a photosensitive sensor 7 and a flow velocity sensor 30 through lines, and is connected with a first electric control valve 12 and a second electric control valve 14 through peripheral lines.

When the device is used by a worker to shunt sewage, the sewage discharge pipe needs to be connected to the third external connector 18, different drain pipes are respectively connected to a first external joint 13 and a second external joint 15, the first external joint 13 is connected with a water pipe for draining turbid sewage, the second external joint 15 is connected with a water pipe for draining clear sewage, the power switch 9 is pressed after the connection is finished, the power supply of the device can be started, the control module can control the LED lamp 5 to be lighted, before the device is used for the first time or when related parameters need to be adjusted, the operator needs to set the operation parameters of the related electric control equipment and the related sensors through three keys on the control module, entering a mode setting interface through a setting key, pressing an plus 1 key or a minus 1 key to set a correlation coefficient, staying for 3 seconds after setting, storing the set correlation parameter after 3 seconds, and then pressing the setting key again to exit. After the setting is finished, a valve of the sewage discharge pipe can be opened to enable sewage to flow in, the sewage flows into the identification pipe 1 through the iron bridge bend 17 and the second connector 16, when the sewage is cloudy, light emitted by the LED lamp 5 can be blocked by impurities in the sewage, so that less light energy can be detected by the photosensitive sensor 7, under the condition, the light detected by the photosensitive sensor 7 is within a set value of the control module, the photosensitive sensor 7 sends a signal, the control module controls the first electric control valve 12 to be opened after receiving the signal, the second electric control valve 14 keeps a closed state, and the cloudy sewage can flow into the external water pipe through the first external connector 13; when sewage is clearer, light emitted by the LED lamp 5 can penetrate through the sewage, most of light can be detected by the photosensitive sensor 7, under the condition, the light detected by the photosensitive sensor 7 is larger than a set value of the control module, the photosensitive sensor 7 sends another signal, the control module controls the second electric control valve 14 to be opened after receiving the signal, the first electric control valve 12 is closed or kept in a closed state, clearer sewage can flow into another external water receiving pipe through the second external connector 15, and therefore the shunting effect can be achieved, and the sewage can be treated on the next step. The iron bridge bend 17 suitably reduces the velocity of the water flow and thus facilitates identification of the relevant components within the pipe 1 for identification of the contaminated water.

After the power supply of the device is turned on, the flow velocity sensor 30 can detect the water velocity flowing through the first connecting head 10, when the water velocity is high, the flow velocity sensor 30 sends a signal, the control module can control the first electric control valve 12 or the second electric control valve 14 to be rapidly opened after receiving the signal, and sewage can be discharged, so that the phenomenon that the device is damaged due to overhigh water pressure caused by excessive water accumulated in the device can be avoided; when the water flow speed is slow, the flow rate sensor 30 sends another signal, and the control module can control the first electronic control valve 12 or the second electronic control valve 14 to be opened at a slow speed after receiving the signal, so that the opening time of the first electronic control valve 12 or the second electronic control valve 14 can be flexibly and conveniently adjusted according to the sewage flow speed.

The technical principle of the embodiment of the present invention is described above in conjunction with the specific embodiments. The description is only intended to explain the principles of embodiments of the invention and should not be taken in any way as limiting the scope of the embodiments of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without inventive step, and these embodiments will fall within the scope of the present invention.

Claims

1. The utility model provides an intelligence water flow divider, including the identification tube, the glass board, first install bin, the LED lamp, the second install bin, photosensitive sensor, a control box, switch, first connector and iron tee bend, the light trap has all been opened to two walls about the identification tube, all install the glass board in the light trap, the identification tube left side is equipped with first install bin, the LED lamp is installed to the left wall in the first install bin, the LED lamp stretches into in the left light trap, the identification tube right side is equipped with the second install bin, photosensitive sensor is installed to the right wall in the second install bin, photosensitive sensor stretches into in the light trap on right side, photosensitive sensor is located same water flat line with the LED lamp, the control box is installed on second install bin right side, control box left side lower part is equipped with switch, the identification tube bottom is connected with first connector, first connector bottom is connected with the iron tee bend, a serial communication port, its characterized in that: still including first automatically controlled valve, first external joint, the second automatically controlled valve, the second external joint, the second connector, curved and the third external joint of iron gap bridge, the three-way left side lower part of iron is equipped with first automatically controlled valve, the three-way left side of iron is connected with first external joint, the three-way right side lower part of iron is equipped with the second automatically controlled valve, the three-way right side of iron is connected with the second external joint, the discernment pipe top is connected with the second connector, second connector top is connected with the curved of iron gap bridge, the curved top of iron gap bridge is equipped with the third external joint.

2. The intelligent water diverter valve of claim 1, wherein: the flow rate sensor is arranged on the left side of the first connecting head, and the detection part of the flow rate sensor extends into the first connecting head.

3. The intelligent water diverter valve of claim 2, wherein: the control box comprises a power supply module and a control module, the power supply module is connected with the control module through a circuit, a storage battery is connected with the power supply module through a circuit, the storage battery supplies power for the whole equipment, the power supply module is connected with a power switch through a circuit, the control module is connected with three keys through a circuit, the three keys are respectively a setting key, an plus 1 key and a minus 1 key, and relevant parameters can be set through the three keys; the control module is connected with an LED lamp, a photosensitive sensor and a flow velocity sensor through lines, and the control module is connected with a first electric control valve and a second electric control valve through peripheral lines.