CN213114931U - Integrated intelligent lifting pump station - Google Patents

Abstract

The utility model discloses an integration intelligence promotes pump station, including promoting pump station body, elevator pump pond, control chamber, operation platform and manhole, elevator pump pond, control chamber, operation platform set up at elevator pump station originally internally, and the manhole setting is promoting pump station body top. The utility model is provided with a plurality of water outlets, which can determine the direction of water discharge according to the water quality, ensure the operation load of the sewage treatment plant and avoid the waste of sewage treatment resources; the front end removes impurities to ensure the smooth water delivery channel; the integrated design is convenient to install, and the occupied area is small; the intelligent control can realize unattended operation and is convenient to operate; and the field monitoring and data real-time uploading are realized, and meanwhile, the remote control is realized, and the operation risk management and control can be realized.

Description

Integrated intelligent lifting pump station

Technical Field

The utility model relates to a fluid control facility and water quality monitoring facility field especially relate to an integration intelligence promotes pump station.

Background

The lift pump station is an important component of the drainage system. The sewage is generally discharged by gravity, but is often limited by terrain conditions, the sewage needs to be conveyed to a sewage treatment plant for treatment or conveyed to a high place for discharge, or construction is difficult due to overlarge pipeline burial depth, and a lifting pump station needs to be arranged at the moment. Traditional lifting pump station often can only realize single point-to-point transport, can not go to according to quality of water automatic switch-over drainage. Particularly, in a rain and sewage river pump station, the phenomenon that sewage is discharged into a river channel to pollute a natural water body or clean rainwater enters a sewage plant easily occurs, so that the impact on the process of the water plant is caused and the waste of the capacity is brought.

In view of the development of the technology of the lift pump station, the development is currently towards the direction of intellectualization.

Disclosure of Invention

An object of the utility model is to provide a neotype promotion pump station, have a plurality of delivery ports, can go out water through different delivery ports according to the quality of water condition.

The technical scheme of the utility model is that: an integrated intelligent lifting pump station comprises a lifting pump station body, a lifting pump pool, an operation chamber, an operation platform and a manhole, wherein the lifting pump pool, the operation chamber and the operation platform are arranged in the lifting pump station body; the lifting pump pool is provided with a water inlet, a self-flowing water outlet and an overflow port, a lifting pump assembly is arranged in the lifting pump pool, the lifting pump assembly comprises a lifting pump and a water outlet pipeline connected with the lifting pump, and the self-flowing water outlet is positioned below the overflow port; the automatic control system is characterized in that a liquid level automatic control instrument, a COD (chemical oxygen demand) online monitoring instrument, a dissolved oxygen online monitoring instrument, a turbidity online monitoring instrument, a pH/ORP online monitoring instrument, a flow monitoring instrument, an electric cabinet, an automatic control valve I, an automatic control valve II, a lifting water outlet I and a lifting water outlet II are arranged in the operating room, detection probes of the liquid level automatic control instrument, the COD online monitoring instrument, the dissolved oxygen online monitoring instrument, the turbidity online monitoring instrument and the pH/ORP online monitoring instrument extend into the liquid level of a lifting pump pool, a power distribution device, an automatic control device and an internet of things module are arranged in the electric cabinet, the internet of things module and the power distribution device are respectively connected with the automatic control device, and the lifting pump, the liquid level automatic control instrument, the COD online monitoring instrument, the dissolved oxygen online monitoring instrument, the turbidity, The flow monitoring instrument and the automatic control valve are respectively connected with the automatic control device, the flow monitoring instrument is installed on a water outlet pipeline of the lift pump, the water outlet pipeline of the lift pump is connected with a first lift water outlet and a second lift water outlet, the first automatic control valve is arranged between the first lift water outlet and the water outlet pipeline of the lift pump, and the second automatic control valve is arranged between the second lift water outlet and the water outlet pipeline of the lift pump; the operation platform is arranged between the lifting pump pool and the operation chamber, and the operation platform is provided with a lifting pump access hole.

Preferably, a ladder stand is arranged between the manhole and the operation chamber.

Preferably, a cover plate is arranged on the top of the manhole.

Preferably, a water inlet grille is arranged at the water inlet, and a water inlet grille operation opening is arranged at a position corresponding to the operation platform.

Preferably, the water inlet grille is a liftable basket grille, and the top of the water inlet grille is flush with the operating platform.

Preferably, the top of the water inlet is lower than the operating platform and the distance between the top of the water inlet and the operating platform is more than or equal to 500mm, the bottom of the overflow port is higher than the top of the water inlet and the distance between the top of the overflow port and the operating platform is more than or equal to 100mm, the top of the self-flowing water outlet is lower than the top of the water inlet and the distance between the top of the self-flowing water outlet.

Preferably, a manual valve is arranged on the water outlet pipeline of the lift pump.

Preferably, a check valve is arranged on the water outlet pipeline of the lift pump.

Preferably, the module of the internet of things transmits monitoring data obtained by the automatic liquid level control instrument, the COD on-line monitoring instrument, the dissolved oxygen on-line monitoring instrument, the turbidity on-line monitoring instrument, the pH/ORP on-line monitoring instrument and the flow monitoring instrument to the client device through the internet of things. The client device may be a PC or a mobile device.

Preferably, the automatic control device is a programmable automatic controller.

The utility model discloses a fine integration intelligence of symbolizing has following advantage:

the water outlet device has the advantages that the water outlets are arranged, the direction can be determined according to water quality, the operation load of a sewage treatment plant is guaranteed, and waste of sewage treatment resources is avoided;

impurity removal is carried out at the front end, so that smoothness of a water delivery channel is guaranteed;

the integral design is adopted, the installation is convenient, and the occupied area is small;

monitoring multiple parameters, and operating stably;

the intelligent control can be realized, the unattended operation can be realized, and the operation is convenient;

sixthly, monitoring on site, uploading data in real time, realizing remote control and realizing operation risk control.

Drawings

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

FIG. 2 is a cross-sectional view A-A of FIG. 1;

FIG. 3 is a cross-sectional view B-B of FIG. 1;

FIG. 4 is a cross-sectional view C-C of FIG. 1;

FIG. 5 is a cross-sectional view D-D of FIG. 1;

fig. 6 is a schematic diagram of the control structure of the electric cabinet.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings and examples.

The embodiment of the utility model provides a fine integration intelligence promotes pump station, fig. 1-fig. 6 show a fine integration intelligence promotes pump station, fine technique indicates to have the fine technique that accords with the outstanding characteristics of actual demand in the aspect of the electricity class technique, it includes pump station body 1, lift pump pond 2, control chamber 7, operation platform 6, manhole 16, water inlet 3, the delivery port that flows automatically 18, overflow mouth 17, promote delivery port 19, promote delivery port two 23, set up into water grid 4 in the lift pump pond 2, promote pump assembly, water inlet 3, the delivery port that flows automatically 18 and overflow mouth 17; the lifting pump assembly comprises a lifting pump 5 and a water outlet pipeline; one end of the water inlet 3 is connected with the lift pump pool 2; the water inlet grille 4 is arranged at the water inlet 3, and the self-flowing water outlet 18 is positioned below the overflow port 17. The operating room 7 is internally provided with a liquid level automatic control instrument 8, a COD online monitoring instrument 9, a dissolved oxygen online monitoring instrument 10, a turbidity online monitoring instrument 11, a pH/ORP online monitoring instrument 14, a flow monitoring instrument I21, a flow monitoring instrument II 25, an electric cabinet 15, a manual valve 12, a check valve 19, an automatic control valve I20, an automatic control valve II 24, a lifting water outlet I13 and a lifting water outlet II 23; the detection probes of the liquid level automatic control instrument 8, the COD online monitoring instrument 9, the dissolved oxygen online monitoring instrument 10, the turbidity online monitoring instrument 11 and the pH/ORP online monitoring instrument 14 extend below the liquid level of the lift pump pool 2; a power distribution device, an automatic control device and an Internet of things module are arranged in the electric cabinet 15; the manual valve 19 and the check valve 12 are arranged on the water outlet pipeline of the lifting pump 5; the water outlet pipeline of the lift pump 5 is connected with a first lift water outlet 13 and a second lift water outlet 23, the first automatic control valve 20 and the first flow monitoring instrument 21 are arranged between the water outlet pipeline of the lift pump 5 and the first lift water outlet 13, and the second automatic control valve 24 and the second flow monitoring instrument 25 are arranged between the water outlet pipeline of the lift pump 5 and the second lift water outlet 23. Operation platform 6 sets up between elevator pump pond 2 and control chamber 7, and operation platform 6 sets up into water grid operation mouth and elevator pump access hole. Manhole 16 is located on top of the operation chamber 7, manhole 16 is provided with ladder 22 to the operation chamber 7, and manhole 16 is provided with a cover plate on top.

The water inlet grille 4 adopts a liftable basket grille, and the top of the water inlet grille 4 is flush with the operating platform 6.

The distance between the top of the water inlet 3 and the operating platform 6 is more than or equal to 500mm, the bottom of the overflow port 17 is higher than the top of the water inlet 3, the distance between the top of the overflow port 17 and the operating platform 6 is more than or equal to 100mm, and the distance between the top of the self-flowing water outlet 18 and the top of the water inlet 3 is less than or equal to 100 mm.

As shown in fig. 6, a power distribution device, an automatic control device and an internet of things module are arranged in the electric cabinet 15, the internet of things module and the power distribution device are respectively connected with the automatic control device, the lift pump 5, the liquid level automatic control instrument 8, the COD on-line monitoring instrument 9, the dissolved oxygen on-line monitoring instrument 10, the turbidity on-line monitoring instrument 11, and the pH/ORP on-line monitoring instrument 14 are respectively connected with the automatic control device, the electric cabinet 15 controls the start and stop of the lift pump 5 according to a liquid level signal obtained by the liquid level automatic control instrument 8, and the liquid level of the pump can be freely set. The switches of the first automatic control valve 20 and the second automatic control valve 24 are adjusted according to one or more monitoring data indexes of the COD online monitoring instrument 9, the dissolved oxygen online monitoring instrument 10, the turbidity online monitor 11 and the pH/ORP online monitoring instrument 14, so that the effluent of the lift pump 5 is selected to pass through the first lifting water outlet 13 or the second lifting water outlet 23, and the index value of the control valve switch can be freely set.

The Internet of things module is arranged in the electric cabinet 15, the Internet of things module can be used for transmitting the liquid level automatic control instrument 8, the COD online monitoring instrument 9, the dissolved oxygen online monitoring instrument 10, the turbidity online monitoring instrument 11 and the pH/ORP online monitoring instrument 14, the flow monitoring instrument I21, the monitoring data of the flow monitoring instrument II 25, the operation data of the lift pump 5 are transmitted to client equipment such as a PC or mobile equipment such as a mobile phone for real-time monitoring, and the start and stop of the lift pump 5 and the index value of a valve switch can be adjusted through a PC client or a mobile phone client.

The automatic control device in the electric cabinet 15 is a programmable automatic controller, and controls the whole pump station according to the data signals of the liquid level automatic control instrument 8, the COD online monitoring instrument 9, the dissolved oxygen online monitoring instrument 10, the turbidity online monitoring instrument 11 and the pH/ORP online monitoring instrument 14, and the program in the programmable automatic controller is the existing program.

Wherein, the liquid level automatic control instrument 8 is a liquid level remote automatic control instrument or an intelligent liquid level automatic control instrument, and the existing models in the market can be selected according to the conditions. The COD on-line monitoring instrument 9 belongs to a waste water on-line detection system, COD (chemical oxygen demand) is a main project for implementing on-line automatic monitoring on a pollution source by the national environmental protection bureau, and equipment of a plurality of enterprises can be selected, such as Beijing Zhongrui, Lihua, 5B-5, Yi Wen, Pujing and the like. The dissolved oxygen on-line monitoring instrument 10 is also called an on-line dissolved oxygen instrument, is a special instrument for detecting the oxygen content in liquid in the industries of boiler feed water, condensed water, environmental protection sewage and the like, and can select the existing model in the market according to the situation. The turbidity on-line monitoring instrument 11 measures the turbidity of raw water or purified water based on a principle that an infrared light source with the wavelength of 880nm penetrates through an optical lens and penetrates through sample liquid and measures scattered light in a 90-degree direction according to an ISO7072 standard, such as drinking water, various production and industrial water, and a pH/ORP on-line monitoring instrument 14 can be connected with an ORP electrode of an oxidation-reduction electrode to monitor water quality potential (oxidation-reduction potential value) and can also be connected with a pH composite electrode to measure a pH value, and the turbidity on-line monitoring instrument can be widely applied to detection of various water qualities in industries such as electric power, chemical engineering. The flow monitoring meter 21 is a meter for measuring the flow of fluid through a pipe of circular cross-section or constant internal diameter per unit time, or the total amount of fluid passing through the pipe over a certain time interval. Mainly refers to a flowmeter (flowm) which can be selected from a differential pressure flowmeter, a volumetric flowmeter, an area flowmeter, an electromagnetic flowmeter, an ultrasonic flowmeter and the like according to the situation.

The utility model discloses a theory of operation and working process as follows:

as shown in fig. 1, the intelligent elevator pump station is an integrated elevator pump station, and includes a pump station body 1, an elevator pump pool 2, an operation chamber 7, an operation platform 6, a manhole 16, a water inlet 3, a self-flowing water outlet 18, an overflow port 17, a first elevator water outlet 19, and a second elevator water outlet 23. A water inlet grille 4, a lifting pump assembly, a water inlet 3, a self-flowing water outlet 18 and an overflow port 17 are arranged in the lifting pump pool 2; the lift pump assembly comprises a lift pump 5 and a connecting pipeline; one end of the water inlet 3 is connected with the lift pump pool 2; the water inlet grille 4 is arranged at the water inlet 3, and the self-flowing water outlet 18 is positioned below the overflow port 17. The operating room 7 is internally provided with a liquid level automatic control instrument 8, a COD online monitoring instrument 9, a dissolved oxygen online monitoring instrument 10, a turbidity online monitoring instrument 11, a pH/ORP online monitoring instrument 14, a flow monitoring instrument 21, a flow monitoring instrument 25, an electric cabinet 15, a manual valve 12, a check valve 19, a first automatic control valve 20, a first lifting water outlet 13 and a second lifting water outlet 23; the detection probes of the liquid level automatic control instrument 8, the COD online monitoring instrument 9, the dissolved oxygen online monitoring instrument 10, the turbidity online monitoring instrument 11 and the pH/ORP online monitoring instrument 14 extend below the liquid level of the lift pump pool 2; a power distribution device, an automatic control device and an Internet of things module are arranged in the electric cabinet 15; the manual valve 19, the check valve 12, the first automatic control valve 20, the second automatic control valve 24 and the flow monitoring instrument 21 are arranged on a water outlet pipeline of the lift pump 5; the water outlet pipeline of the lift pump 5 is connected with a first lift water outlet 13 and a second lift water outlet 23. Operation platform 6 sets up between 2 ponds of elevator pump and control chamber 7, and operation platform 6 sets up into water grid operation mouth and elevator pump access hole. The manhole 16 is positioned at the top of the operation chamber 7, the manhole 16 is provided with a ladder stand 22 communicated with the operation chamber 7, and the manhole 16 is provided with a cover plate.

The utility model discloses the course of work is, intakes and gets into through water inlet 3 and fine the elevator pump pond 2 of honour integration intelligence promotion pump station, at first filters massive impurity through intake grid 4, prevents that elevator pump 5 from blockking up. The liquid level in the lift pump pool 2 rises continuously along with the inflow, and simultaneously, the liquid level automatic control instrument 8, the COD online monitoring instrument 9, the dissolved oxygen online monitoring instrument 10, the turbidity online monitoring instrument 11 and the pH/ORP online monitoring instrument 14 monitor the liquid level signal and various water quality indexes in the lift pump pool 2, and the signal is transmitted to the electric cabinet 15. The electric control box 15 controls the lift pump 5 and the automatic control valve through a programmed program according to the liquid level signal and various water quality index data. The lifting pump station can realize various operation modes, and 4 kinds of discharge places can be arranged according to the condition when water enters. For example, when the inflow water is mainly sewage, the gravity flow outlet 18 may be set as a main outlet, the gravity flow outlet 18 is connected to a sewage treatment plant, and at this time, the gravity flow outlet mode is a gravity flow outlet mode, and when the inflow water quality is set to be good (the index is higher than a certain standard, and the standard value may be set according to a program), the lift pump 5 is started to switch to a lift outlet mode, and according to the water quality condition and the recycling requirement, the automatic control valve 20 and the automatic control valve 24 are controlled to select the first lift outlet 13 or the second lift outlet 23 to discharge water to a recycling water point or to discharge to a natural water body, and the overflow port 17 may be used as a temporary overflow during a fault or during a large amount of. When the water level of the lift pump pool is lower than the operation protection liquid level of the water pump, the lift pump 5 is closed, and when the water level is higher than the set safe liquid level, the sound and light alarm prompt is given. Meanwhile, the electric cabinet 15 collects signal information of the liquid level automatic control instrument 8, the COD online monitoring instrument 9, the dissolved oxygen online monitoring instrument 10, the turbidity online monitoring instrument 11, the pH/ORP online monitoring instrument 14, the flow monitoring instrument I21, the flow monitoring instrument II 25, the automatic control valve I20 and the automatic control valve II 24, and transmits the signal information to the PC client and the mobile phone client through the Internet of things module, and the PC client and the mobile phone client can remotely monitor and control the pump station in real time.

It is to be noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

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 (10)

1. An integrated intelligent lifting pump station is characterized by comprising a lifting pump station body, a lifting pump pool, an operating chamber, an operating platform and a manhole, wherein the lifting pump pool, the operating chamber and the operating platform are arranged in the lifting pump station body; the lifting pump pool is provided with a water inlet, a self-flowing water outlet and an overflow port, a lifting pump assembly is arranged in the lifting pump pool, the lifting pump assembly comprises a lifting pump and a water outlet pipeline connected with the lifting pump, and the self-flowing water outlet is positioned below the overflow port; the automatic control system is characterized in that a liquid level automatic control instrument, a COD (chemical oxygen demand) online monitoring instrument, a dissolved oxygen online monitoring instrument, a turbidity online monitoring instrument, a pH/ORP online monitoring instrument, a flow monitoring instrument, an electric cabinet, an automatic control valve I, an automatic control valve II, a lifting water outlet I and a lifting water outlet II are arranged in the operating room, detection probes of the liquid level automatic control instrument, the COD online monitoring instrument, the dissolved oxygen online monitoring instrument, the turbidity online monitoring instrument and the pH/ORP online monitoring instrument extend into the liquid level of a lifting pump pool, a power distribution device, an automatic control device and an internet of things module are arranged in the electric cabinet, the internet of things module and the power distribution device are respectively connected with the automatic control device, and the lifting pump, the liquid level automatic control instrument, the COD online monitoring instrument, the dissolved oxygen online monitoring instrument, the turbidity, The flow monitoring instrument and the automatic control valve are respectively connected with the automatic control device, the flow monitoring instrument is installed on a water outlet pipeline of the lift pump, the water outlet pipeline of the lift pump is connected with a first lift water outlet and a second lift water outlet, the first automatic control valve is arranged between the first lift water outlet and the water outlet pipeline of the lift pump, and the second automatic control valve is arranged between the second lift water outlet and the water outlet pipeline of the lift pump; the operation platform is arranged between the lifting pump pool and the operation chamber, and the operation platform is provided with a lifting pump access hole.

2. The integrated intelligent lifting pump station according to claim 1, wherein a ladder stand is arranged between the manhole and the operation chamber.

3. The integrated intelligent lifting pump station according to claim 1, wherein a cover plate is arranged at the top of the manhole.

4. The integrated intelligent lifting pump station according to claim 1, wherein a water inlet grille is arranged at the water inlet, and a water inlet grille operation port is arranged at a position corresponding to the operation platform.

5. The integrated intelligent lifting pump station according to claim 4, wherein the water inlet grille is a liftable basket grille, and the top of the water inlet grille is flush with the operating platform.

6. The integrated intelligent lifting pump station according to claim 1, wherein the top of the water inlet is lower than the operating platform and the distance between the top of the water inlet and the operating platform is greater than or equal to 500mm, the bottom of the overflow port is higher than the top of the water inlet and the distance between the top of the overflow port and the operating platform is greater than or equal to 100mm, and the top of the gravity flow water outlet is lower than the top of the water inlet and the distance between the top of the gravity flow water outlet and the operating.

7. The integrated intelligent lifting pump station according to claim 1, wherein a manual valve is arranged on the water outlet pipeline of the lifting pump.

8. The integrated intelligent lift pump station according to claim 1, wherein a check valve is arranged on the water outlet pipeline of the lift pump.

9. The integrated intelligent lift pump station according to claim 1, wherein the internet of things module transmits monitoring data obtained by the liquid level automatic control instrument, the COD on-line monitoring instrument, the dissolved oxygen on-line monitoring instrument, the turbidity on-line monitoring instrument, the pH/ORP on-line monitoring instrument and the flow monitoring instrument to the client device through the internet of things.

10. The integrated intelligent lift pump station according to claim 1, wherein the automatic control device is a programmable automatic controller.

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