CN204704063U

CN204704063U - For the energy conserving system of water generating

Info

Publication number: CN204704063U
Application number: CN201520227833.1U
Authority: CN
Inventors: 杜新亮; 宁守猛; 甘银钢; 李伟亭; 马彦亮
Original assignee: Individual
Current assignee: Individual
Priority date: 2015-04-16
Filing date: 2015-04-16
Publication date: 2015-10-14
Anticipated expiration: 2025-04-16

Abstract

The utility model relates to a kind of energy conserving system for water generating, comprise dam body, flood discharge mechanism, some power facilities and CCU, described flood discharge mechanism and power facility are all arranged in dam body, and flood discharge organization establishes is above power facility, described flood discharge mechanism and power facility control by CCU; Described flood discharge mechanism comprises flood discharge valve and flood discharge passage, and described flood discharge valve is arranged on the ingress of flood discharge passage; This energy conserving system being used for water generating by flood discharge passage and some enter the setting gradually of water channel, system can be tackled the different flood seasons to river; Add the equipment such as inlet valve, flow transducer and speed probe in simultaneity factor, then intelligentized control method is carried out to it, thus the utilization ratio of system is high and power generating quality is high; Final system utilizes the connection between two of water conservancy generator, the water of next water conservancy generator to a upper hydroelectric generator can be utilized, serves the effect of energy-conserving and environment-protective.

Description

For the energy conserving system of water generating

Technical field

The utility model relates to a kind of energy conserving system for water generating.

Background technique

Along with the development of society.People to resource need day by day increase, so to the attention degree of the renewable sources of energy also along with adding, water generating is exactly people to the renewable sources of energy and the exploration of clean energy resource and a large product of discovery.

In water generating project, the water that hydroelectric power utilizes can mainly be contained and the potential energy in water level.In order to realize that water can be converted into electric energy, present great majority all adopt dam body formula water generating, and main because its generating efficiency is high, environmental pollution is little, later stage less investment, recovery rate advantages of higher.

Along with the popularizing of water generating, for in that small-sized dam body natural flow station in place, due to the problem in flood season in river, cannot meet and can make full use of the water in the river of each period, particularly when occurring that water flow is excessive, often lack emergency measure; And the utilization ratio of the general water in these power stations energy is not high yet, cannot play the effect of energy-conserving and environment-protective very well; Also have that some small-sized dam body natural flow stations are multiple functional, generating efficiency is high, but due to its cost of production too high, often there is recovery of the capital slow, the problems such as maintenance cost is high.

Model utility content

The technical problems to be solved in the utility model is: in order to overcome prior art process to the inadequate deficiency of water utilization rate, problem that cost of production is high, the utility model provides a kind of utilization ratio high and energy-conservation, the energy conserving system for water generating that power generating quality is high.

The utility model solves the technological scheme that its technical problem adopts: a kind of energy conserving system for water generating, comprise dam body, flood discharge mechanism, some power facilities and CCU, described flood discharge mechanism and power facility are all arranged in dam body, and flood discharge organization establishes is above power facility, described flood discharge mechanism and power facility control by CCU;

Described flood discharge mechanism comprises flood discharge valve and flood discharge passage, and described flood discharge valve is arranged on the ingress of flood discharge passage;

Described power facility comprises inlet valve, some enter water channel, some flow transducers, water conservancy generator, drainage channel and speed probe, each enters water channel and all connects with the ingress of corresponding water conservancy generator, described enter water channel set gradually from top to bottom, and enter water channel and be arranged on below flood discharge passage, each flow transducer is all arranged on the ingress of corresponding water conservancy generator, connected by drainage channel between two adjacent water conservancy generators, described inlet valve is arranged on into water channel ingress, described speed probe and water generating mechatronics,

Valve control module, signal acquisition module, wireless communication module and alarm output module that described CCU comprises central control system and is connected with central control system, described flood discharge valve and inlet valve are all electrically connected with valve control module, and described flow transducer and speed probe are all electrically connected with signal acquisition module.

Particularly, in order to improve the intellectuality of system: described central control system comprises PLC.

Particularly, in order to improve the reliability of system: described flood discharge valve and inlet valve are pneumatic valve.

Particularly, in order to better utilize the drop of water, thus improve water can utilization ratio: the level height of described inlet valve is higher than the level height of water conservancy generator.

The beneficial effects of the utility model are, this energy conserving system being used for water generating by flood discharge passage and some enter the setting gradually of water channel, system can be tackled the different flood seasons to river; Add the equipment such as inlet valve, flow transducer and speed probe in simultaneity factor, then intelligentized control method is carried out to it, thus the utilization ratio of system is high and power generating quality is high; Final system utilizes the connection between two of water conservancy generator, the water of next water conservancy generator to a upper hydroelectric generator can be utilized, serves the effect of energy-conserving and environment-protective.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the utility model is further illustrated.

Fig. 1 is the structural representation of the energy conserving system for water generating of the present utility model;

Fig. 2 is the systematic schematic diagram of the energy conserving system for water generating of the present utility model.

In figure 1, flood discharge valve, 2, inlet valve, 3, flood discharge passage, 4, water channel is entered, 5, flow transducer, 6, water conservancy generator, 7, drainage channel, 8, dam body, 9, alarm output module, 10, speed probe, 11, central control system, 12, valve control module, 13, signal acquisition module, 14, wireless communication module.

Embodiment

By reference to the accompanying drawings the utility model is described in further detail now.These accompanying drawings are the schematic diagram of simplification, only basic structure of the present utility model are described in a schematic way, and therefore it only shows the formation relevant with the utility model.

As depicted in figs. 1 and 2, a kind of energy conserving system for water generating of the present utility model, comprise dam body 8, flood discharge mechanism, some power facilities and CCU, described flood discharge mechanism and power facility are all arranged in dam body 8, and flood discharge organization establishes is above power facility, described flood discharge mechanism and power facility control by CCU;

Described flood discharge mechanism comprises flood discharge valve 8 and flood discharge passage 3, and described flood discharge valve 1 is arranged on the ingress of flood discharge passage 3;

Described power facility comprises inlet valve 2, some enter aquaporin-4, some flow transducers 5, water conservancy generator 6, drainage channel 7 and speed probe 10, each enters aquaporin-4 and all connects with the ingress of corresponding water conservancy generator 6, described enter aquaporin-4 set gradually from top to bottom, and enter aquaporin-4 and be arranged on below flood discharge passage 3, each flow transducer 5 is all arranged on the ingress of corresponding water conservancy generator 6, connected by drainage channel 7 between two adjacent water conservancy generators 6, described inlet valve 2 is arranged on into aquaporin-4 ingress, described speed probe 10 is electrically connected with water conservancy generator 6,

Valve control module 12, signal acquisition module 13, wireless communication module 14 and alarm output module 9 that described CCU comprises central control system 11 and is connected with central control system 11, described flood discharge valve 1 and inlet valve 2 are all electrically connected with valve control module 12, and described flow transducer 5 and speed probe 10 are all electrically connected with signal acquisition module 13.

Particularly, in order to improve the intellectuality of system: described central control system 11 comprises PLC.

Particularly, in order to improve the reliability of system: described flood discharge valve 1 and inlet valve 2 are pneumatic valve.

Particularly, in order to better utilize the drop of water, thus improve water can utilization ratio: the level height of described inlet valve 2 is higher than the level height of water conservancy generator 6.

This is used for the energy conserving system of water generating, and main feature is embodied in the following aspects:

1, for the different flood seasons in river, the adaptibility to response of system is strong.Due to flood discharge passage 3 and some enter the setting gradually of aquaporin-4, make in river in different flood seasons, each passage all can play respective effect.When river discharge is few, nethermost enter aquaporin-4 will open, then corresponding water conservancy generator 6 will be started working, when river discharge starts to increase, water level starts to rise, then open and enter aquaporin-4 accordingly, the water conservancy generator 6 of simultaneously devoting oneself to work also can correspondingly increase; And when river discharge is excessive, more than water will flow out from flood discharge passage 3.

2, the intelligence degree of system is high, and power generating quality is good.The equipment such as inlet valve 2, flow transducer 5 and speed probe 10 are added in system, all Real-Time Monitoring and control are carried out to the flow of water inlet, the rotating speed of generator, then regulated by central control system 11 pairs of various pieces, make system stability, and output voltage quality is good.

3, energy-conserving and environment-protective.This is used in the energy conserving system of water generating, utilize the connection between two of water conservancy generator 6, the water of next water conservancy generator 6 to a upper hydroelectric generator 6 can be utilized, not only can recycle water, serve energy-conservation effect, decrease the waste of the energy; Improve the utilization ratio of water energy simultaneously, definite meaning serves effect of environmental protection.

This is used in the energy conserving system of water generating, and valve control module 12 is for controlling the switch of flood discharge valve 1 and inlet valve 2; Signal acquisition module 13 gathers for the signal of flow sensor 5 and speed probe 10; Wireless communication module 14, for carrying out real-time communication with backstage, allows staff understand field condition; Alarm output module 9, for alert personnel, plays warning effect; Central control system 11, for controlling the work of modules, makes system more intelligent.

Compared with prior art, this energy conserving system being used for water generating by flood discharge passage 3 and some enter the setting gradually of aquaporin-4, system can be tackled the different flood seasons to river; Add the equipment such as inlet valve 2, flow transducer 5 and speed probe 10 in simultaneity factor, then intelligentized control method is carried out to it, thus the utilization ratio of system is high and power generating quality is high; Final system utilizes the connection between two of water conservancy generator 6, the water of next water conservancy generator 6 to a upper hydroelectric generator 6 can be utilized, serves the effect of energy-conserving and environment-protective.

With above-mentioned according to desirable embodiment of the present utility model for enlightenment, by above-mentioned description, relevant staff in the scope not departing from this model utility technological thought, can carry out various change and amendment completely.The technical scope of this model utility is not limited to the content on specification, must determine its technical scope according to right.

Claims

1. the energy conserving system for water generating, it is characterized in that: comprise dam body (8), flood discharge mechanism, some power facilities and CCU, described flood discharge mechanism and power facility are all arranged in dam body (8), and flood discharge organization establishes is above power facility, described flood discharge mechanism and power facility control by CCU;

Described flood discharge mechanism comprises flood discharge valve (1) and flood discharge passage (3), and described flood discharge valve (1) is arranged on the ingress of flood discharge passage (3);

Described power facility comprises inlet valve (2), some enter water channel (4), some flow transducers (5), water conservancy generator (6), drainage channel (7) and speed probe (10), each enters water channel (4) and all connects with the ingress of corresponding water conservancy generator (6), described enter water channel (4) set gradually from top to bottom, and enter water channel (4) be arranged on flood discharge passage (3) below, each flow transducer (5) is all arranged on the ingress of the water conservancy generator (6) corresponding with it, connected by drainage channel (7) between two adjacent water conservancy generators (6), described inlet valve (2) is arranged on into water channel (4) ingress, described speed probe (10) is electrically connected with water conservancy generator (6),

Valve control module (12), signal acquisition module (13), wireless communication module (14) and alarm output module (9) that described CCU comprises central control system (11) and is connected with central control system (11), described flood discharge valve (1) and inlet valve (2) are all electrically connected with valve control module (12), and described flow transducer (5) and speed probe (10) are all electrically connected with signal acquisition module (13).

2., as claimed in claim 1 for the energy conserving system of water generating, it is characterized in that: described central control system (11) comprises PLC.

3., as claimed in claim 1 for the energy conserving system of water generating, it is characterized in that: described flood discharge valve (1) and inlet valve (2) are pneumatic valve.

4. as claimed in claim 1 for the energy conserving system of water generating, it is characterized in that: the level height of described inlet valve (2) is higher than the level height of water conservancy generator (6).