CN212714832U - Image recognition system for monitoring sluice pollution discharge - Google Patents

Abstract

The utility model relates to the technical field of sewage treatment, in particular to an image recognition system for monitoring water gate pollution discharge, which comprises a water gate, a high-definition network infrared gun camera, a single chip microcomputer and a flow velocity sensor, wherein the flow velocity sensor is arranged at the bottom of a water gate, a probe of the flow velocity sensor is aligned to the direction of the water gate, the single chip microcomputer is arranged at the left side of the water gate, the single chip microcomputer is used for comparing and processing the data of the river channel bottom flowing water flow velocity during daily river channel river flow velocity and gate overflow permeation by taking the data collected by the flow velocity sensor as a standard, the flow velocity sensor is connected with the single chip microcomputer through a transmission pipeline, the high-definition network infrared gun camera is arranged above the single chip microcomputer, when the single chip microcomputer compares the data, the abnormality is found, the single chip microcomputer transmits signals to the high-definition network infrared gun camera, the high-definition network infrared gun camera, repeated water quality monitoring is not needed.

Description

Image recognition system for monitoring sluice pollution discharge

Technical Field

The utility model relates to a sewage treatment technical field specifically is an image recognition system who keeps watch on sluice blowdown.

Background

River pollution is serious enough to be ignored, and the water quality of river surge in most of domestic main water systems is lower than five standards. The urban inland river surge pollution load is increasing day by day, and urban river reach quality of water has seriously worsened, wherein the biggest reason is because the degree of difficulty of municipal sewage outlet sewage discharge supervision is big. Although governments pay high attention and invest a lot of financial resources, material resources and manpower to remedy, the effect is very little. On the other hand, at present, most river regulation only stays in the aspect of water quality monitoring, and scientific data analysis is not provided to guide treatment work, so that the river regulation cannot be fundamentally improved.

Because the current city pipe network distribution of rain and sewage is not perfect enough, a large amount of domestic sewage after heavy rain and rainfall weather can not be processed in time because sewage treatment plants, lead to overflowing at the flap valve of river course, but the river water level is higher usually, submerged sluice drain, the place that the sluice has the leakage can not be found in time, domestic sewage often just slowly permeates in these places and gets into the river course, will cause local more serious pollution even for a long time, then the infiltration of these sewage is revealed that can not see at the horizontal plane, usually need through the quality of water detection that relapse, or the artifical point of squatting can discover these problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an image recognition system who keeps watch on sluice blowdown to overflow, the infiltration of domestic sewage need be through the quality of water testing who relapses among the solution prior art, perhaps the manual work point of squatting could discover these problem technical problem.

In order to achieve the above purpose, the utility model adopts the following technical scheme: including sluice, infrared rifle bolt of high definition network, singlechip, transmission pipeline and velocity sensor, velocity sensor sets up the bottom of sluice gate, just velocity sensor's probe is aimed at the sluice gate direction, the singlechip sets up in the sluice left side, velocity sensor with the singlechip passes through the transmission pipeline and connects, the infrared rifle bolt of high definition network sets up in the singlechip top, the infrared rifle bolt lower extreme of high definition network still is equipped with the pole setting, and the infrared rifle bolt of every high definition network configuration storage hard disk.

Furthermore, a plurality of anchor ears are arranged on the sluice, and the transmission pipeline is fixed on the sluice through the anchor ears.

Further, the flow velocity sensor is an ultrasonic flow velocity sensor.

Further, the singlechip with the sluice passes through bolted connection, still be equipped with the spread groove on the sluice, pole setting and spread groove joint, just pole setting and spread groove pass through bolt fixed connection.

Further, still be equipped with the waterproof cover on the floodgate, the waterproof cover sets up outside the singlechip, still be equipped with the waterproof cover on the waterproof cover with the waterproof cover is articulated.

The utility model discloses an improve and provide an image recognition system who keeps watch on sluice blowdown here, compare with prior art, have following improvement and advantage:

the device has the advantages that the applicability is high, the size of installed hardware equipment is small and exquisite according to the characteristic that the mouth of the river sluice gate is narrow and small, the occupied space is small, and the device is easy to deploy, install and implement.

Secondly, the system has high reaction rate, can quickly monitor and supervise and transmit data in real time.

And thirdly, the remote transmission can be realized without manual watching.

Drawings

The invention is further explained below with reference to the figures and examples:

fig. 1 is a schematic structural view of a first angle of the present invention;

fig. 2 is a schematic structural diagram of a second angle of the present invention.

Description of reference numerals:

the device comprises a water gate 1, a high-definition network infrared gun machine 2, a single chip microcomputer 3, a transmission pipeline 4, a flow velocity sensor 5, a hoop 101, a vertical rod 201, a waterproof shell 102, a waterproof cover 103 and a connecting groove 104.

Detailed Description

The present invention will be described in detail with reference to fig. 1 to 2, and the technical solutions in the embodiments of the present invention will be clearly and completely described, 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.

The utility model discloses an improve and provide an image recognition system who keeps watch on sluice blowdown here, including sluice 1, high definition network infrared rifle bolt 2, singlechip 3 and velocity sensor 5, velocity sensor 5 sets up the bottom of sluice gate 1 sluice gate, velocity sensor 5 is DX-LSX-1 Doppler ultrasonic flowmeter, just the sluice gate direction is aimed at to velocity sensor 5's probe, velocity sensor 5 is used for testing the instantaneous velocity of flow and average velocity of flow, singlechip 3 sets up in sluice 1 left side, velocity sensor 5 with singlechip 3 passes through transmission pipeline 4 and connects, still be equipped with a plurality of staple bolts 101 on the sluice 1, transmission pipeline 4 passes through a plurality of staple bolts 101 are fixed on sluice 1, singlechip 3 is used for using the data that velocity sensor 5 collected as the standard, and river course bottom flowing water velocity's data contrast department is carried out to river course flow velocity and sluice gate overflow during daily river course velocity of flow and sluice overflow infiltration to the data of river course bottom flowing water velocity of flow The high-definition network infrared gun camera 2 is arranged above the single chip microcomputer 3, and the lower end of the high-definition network infrared gun camera 2 is also provided with a vertical rod 201 which is used as a panoramic monitoring drain outlet and used for capturing and shooting river channel images; each high-definition network infrared rifle bolt 2 is provided with a storage hard disk and used for storing important video evidence backup and storage for snapshot pollution discharge, when the single chip microcomputer 3 finds abnormality after comparing data, the single chip microcomputer 3 transmits a signal to the high-definition network infrared rifle bolt 2, and the high-definition network infrared rifle bolt 2 receives the signal to snapshot a river channel.

The flow velocity sensor 5 detects the flow velocity by using an ultrasonic technology, and measures the depth by using water pressure without damaging a flow field; the measuring precision is high, the flow measurement is linear, and the instantaneous flow velocity and the average flow velocity can be measured; no rotating parts, no fear of silt blockage and water plant winding, and firm probe.

Singlechip 3 with sluice 1 passes through bolted connection, still be equipped with spread groove 104 on the sluice 1, pole setting 201 and spread groove 104 joint, just pole setting 201 passes through bolt fixed connection with spread groove 104, works as singlechip 3 perhaps when infrared rifle bolt 2 of high definition network takes place to damage, conveniently dismantles the maintenance or with trading.

Still be equipped with waterproof cover 102 on the floodgate 1, waterproof cover 102 sets up outside singlechip 3, waterproof cover 102 is used for preventing that singlechip 3 from intaking from taking place to damage, still be equipped with waterproof cover 103 on the waterproof cover 102, waterproof cover 103 with waterproof cover 102 is articulated, waterproof cover 103 can overturn in articulated department, when singlechip 3 needs the debugging, can directly overturn waterproof cover 103 and debug singlechip 3.

The working principle is as follows: firstly, the singlechip 3 is set, the data of the daily water flow velocity of the river channel is collected before the setting, the numerical value of the daily flow velocity of the river channel is assumed to be X0-X1 (gentle flow velocity), the numerical value of the overflow and infiltration at the bottom of the water gate 1 is assumed to be X2, at the moment, the singlechip 3 module collects the two data and then compares the two data, and due to the relation of water level height difference, X2 is more than X0-X1, when the logical relation occurs, the singlechip 3 transmits a signal to a high-definition network infrared camera at the front end to capture the river channel at regular time and record and store the signal. When the logical relationship is not established, the device is in a standby state.

After the setting is accomplished, it is fixed with sluice 1 to pass through the bolt with singlechip 3, covers waterproof cover 103, flow velocity sensor 5 carries out real-time detection to rivers, then gives singlechip 3 with testing result transmission through transmission pipeline 4, and singlechip 3 contrasts data, produces after unusual with signal transmission for infrared rifle bolt 2 of high definition network, infrared rifle bolt 2 of high definition network is taken a candid photograph the river course to the record is stored.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (5)

1. An image recognition system for monitoring sluice drainage, characterized by: including sluice (1), infrared rifle bolt of high definition network (2), singlechip (3), transmission pipeline (4) and velocity of flow sensor (5), velocity of flow sensor (5) set up the bottom of sluice (1) sluice gate, just the probe of velocity of flow sensor (5) aims at the sluice gate direction, singlechip (3) set up in sluice (1) left side, velocity of flow sensor (5) with singlechip (3) are connected through transmission pipeline (4), infrared rifle bolt of high definition network (2) set up in singlechip (3) top, infrared rifle bolt of high definition network (2) lower extreme still is equipped with pole setting (201), and infrared rifle bolt of every high definition network (2) configuration storage hard disk.

2. An image recognition system for monitoring sluice drainage according to claim 1, wherein: the water gate (1) is further provided with a plurality of anchor ears (101), and the transmission pipeline (4) is fixed on the water gate (1) through the anchor ears (101).

3. An image recognition system for monitoring sluice drainage according to claim 1, wherein: the flow velocity sensor (5) is an ultrasonic flow velocity sensor.

4. An image recognition system for monitoring sluice drainage according to claim 1, wherein: singlechip (3) with sluice (1) passes through bolted connection, still be equipped with spread groove (104) on sluice (1), pole setting (201) and spread groove (104) joint, just pole setting (201) pass through bolt fixed connection with spread groove (104).

5. An image recognition system for monitoring sluice drainage according to claim 1, wherein: the water gate (1) is further provided with a waterproof shell (102), the waterproof shell (102) is arranged outside the single chip microcomputer (3), the waterproof shell (102) is further provided with a waterproof cover (103), and the waterproof cover (103) is hinged to the waterproof shell (102).

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