CN204402735U - For hydroelectric energy saving device - Google Patents

Abstract

The utility model relates to a kind of for hydroelectric energy saving device, comprise and cover with water inlet the intake pipe be communicated with some into water cover, the cross section of the mouth of pipe of described intake pipe is rectangle, each intake pipe is parallel to each other, flow-stopping plate is provided with between the mouth of pipe of two adjacent intake pipes, the two ends up and down of described flow-stopping plate are tightly connected with the tube wall of adjacent intake pipe respectively, and the two ends, left and right of described flow-stopping plate are tightly connected with water inlet cover respectively, and described flow-stopping plate is provided with pressure transducer near the side of water inlet cover; This is used for hydroelectric energy saving device and covers with water inlet the intake pipe be communicated with by some, can carry out Distribution utilization, decrease the waste of water energy, improve the utilization ratio of water energy to water; The waterexit end of intake pipe is provided with a water turbine simultaneously, makes water turbine can be good at taking turns to operate, not only reduces the operating time of water turbine, improve operating life, also reduce cost of production, facilitate worker to safeguard water turbine.

Description

For hydroelectric energy saving device

Technical field

The utility model relates to a kind of for hydroelectric energy saving device.

Background technique

In present hydroelectric power system, have dam-type hydroelectric power, water channeling type hydroelectric power, hybrid hydroelectric power, and these generation modes all be unable to do without the introducing for current.

In ancient times, people adopt diabolo, simply guide, then impact waterwheel to current, for irrigating,

In the modern times, along with the development of technology, the mode for the guiding of current is also more and more diversified, have adopt scroll casing type, adopt Straightway pipeline type, but these guidance modes all better do not distribute current and utilize, thus waste the energy to a certain extent.

Model utility content

The technical problems to be solved in the utility model is: in order to overcome existing existence for water can the deficiency of waste, provide a kind of and can carry out height to water and utilize, the saving energy and cost of production for hydroelectric energy saving device.

The utility model solves the technological scheme that its technical problem adopts: be a kind ofly used for hydroelectric energy saving device, comprise and cover with water inlet the intake pipe be communicated with some into water cover, the cross section of the mouth of pipe of described intake pipe is rectangle, each intake pipe is parallel to each other, flow-stopping plate is provided with between the mouth of pipe of two adjacent intake pipes, the two ends up and down of described flow-stopping plate are tightly connected with the tube wall of adjacent intake pipe respectively, the two ends, left and right of described flow-stopping plate are tightly connected with water inlet cover respectively, and described flow-stopping plate is provided with pressure transducer near the side of water inlet cover.

Particularly, in order to improve intellectuality and the reliability of device, described intake pipe and water inlet are provided with valve between covering, and described valve and pressure transducer are all electrically connected with outside central control system.

Particularly, in order to improve the generating efficiency of device and reduce cost of electricity-generating, the waterexit end of described intake pipe is provided with a water turbine.

Particularly, in order to improve the validity of measurement, described flow-stopping plate is evenly provided with three pressure transducers, described pressure transducer is positioned at sustained height.

Particularly, in order to better carry out Distribution utilization to water, improve generating efficiency, cost-saving, the cover open area of described water inlet cover is greater than the summation of the mouth of pipe section area of each intake pipe.

The beneficial effects of the utility model are, this is used for hydroelectric energy saving device and covers with water inlet the intake pipe be communicated with by some, can carry out Distribution utilization, decrease the waste of water energy, improve the utilization ratio of water energy to water; The waterexit end of intake pipe is provided with a water turbine simultaneously, makes water turbine can be good at taking turns to operate, not only reduces the operating time of water turbine, improve operating life, also reduce cost of production, facilitate worker to safeguard water turbine.

Accompanying drawing explanation

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

Fig. 1 is the structural representation of the utility model for hydroelectric energy saving device;

Fig. 2 is the structural representation of the utility model for hydroelectric energy saving device;

In figure: 1. water inlet cover, 2. intake pipe, 3. flow-stopping plate, 4. pressure transducer, 5. valve.

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 for hydroelectric energy saving device, comprise into water cover 1 and some intake pipes 2 be communicated with water inlet cover 1, the cross section of the mouth of pipe of described intake pipe 2 is rectangle, each intake pipe 2 is parallel to each other, flow-stopping plate 3 is provided with between the mouth of pipe of two adjacent intake pipes 2, the two ends up and down of described flow-stopping plate 3 are tightly connected with the tube wall of adjacent intake pipe 2 respectively, the two ends, left and right of described flow-stopping plate 3 are tightly connected with water inlet cover 1 respectively, and described flow-stopping plate 3 is provided with pressure transducer 4 near the side of water inlet cover 1.

Particularly, in order to improve intellectuality and the reliability of device, be provided with valve 5 between described intake pipe 2 and water inlet cover 1, described valve 5 and pressure transducer 4 are all electrically connected with outside central control system.

Particularly, in order to improve the generating efficiency of device and reduce cost of electricity-generating, the waterexit end of described intake pipe 2 is provided with a water turbine.

Particularly, in order to improve the validity of measurement, described flow-stopping plate 3 is evenly provided with three pressure transducers 4, described pressure transducer 4 is positioned at sustained height.

Particularly, in order to better carry out Distribution utilization to water, improve generating efficiency, cost-saving, the cover open area of described water inlet cover 1 is greater than the summation of the mouth of pipe section area of each intake pipe 2.

This working principle being used for hydroelectric energy saving device is: current enter into into water cover 1, when current hour, the pressure transducer 4 being so positioned at low level will detect force value, then central control system is analyzed sampled signal, judge into water cover 1 middle water level height, as required, then control to be arranged on the valve 5 between intake pipe 2 and water inlet cover 1, open corresponding intake pipe 2.

When current are less, then central control system only need open 1-2 intake pipe 2, then supporting with intake pipe 2 water turbine also only needs work 1-2, thus decreases the operating time of water turbine; When current are larger, then central control system then can open whole intake pipes 2, maximizedly utilizes water energy, decrease water can waste.

Compared with prior art, this is used for hydroelectric energy saving device by some intake pipes 2 be communicated with water inlet cover 1, can carry out Distribution utilization, decrease the waste of water energy, improve the utilization ratio of water energy to water; The waterexit end of intake pipe 2 is provided with a water turbine simultaneously, makes water turbine can be good at taking turns to operate, not only reduces the operating time of water turbine, improve operating life, also reduce cost of production, facilitate worker to safeguard water turbine.

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 (5)

1. one kind for hydroelectric energy saving device, it is characterized in that, comprise and cover with water inlet the intake pipe (2) that (1) be communicated with some into water cover (1), the cross section of the mouth of pipe of described intake pipe (2) is rectangle, each intake pipe (2) is parallel to each other, flow-stopping plate (3) is provided with between the mouth of pipe of two adjacent intake pipes (2), the two ends up and down of described flow-stopping plate (3) are tightly connected with the tube wall of adjacent intake pipe (2) respectively, the two ends, left and right of described flow-stopping plate (3) are covered (1) with water inlet respectively and are tightly connected, described flow-stopping plate (3) is provided with pressure transducer (4) near the side of water inlet cover (1).

2. as claimed in claim 1 for hydroelectric energy saving device, it is characterized in that, described intake pipe (2) and water inlet are covered between (1) and are provided with valve (5), and described valve (5) and pressure transducer (4) are all electrically connected with outside central control system.

3. as claimed in claim 1 for hydroelectric energy saving device, it is characterized in that, the waterexit end of described intake pipe (2) is provided with a water turbine.

4. as claimed in claim 1 for hydroelectric energy saving device, it is characterized in that, described flow-stopping plate (3) is evenly provided with three pressure transducers (4), described pressure transducer (4) is positioned at sustained height.

5. as claimed in claim 1 for hydroelectric energy saving device, it is characterized in that, the cover open area of described water inlet cover (1) is greater than the summation of the mouth of pipe section area of each intake pipe (2).