NL1036946C2 - WATER ENERGY WATER SUPPLY PUMP. - Google Patents

Description

•>

Water Supply Pump for Wind Energy (a) Technical field of the invention

The present invention generally relates to a water supply pump that uses wind energy to supply water, which is particularly suitable for use in areas where the commercial power supply cannot be obtained directly but where sufficient wind energy is available.

10 (b) Description of the existing technology

Nature supplies various renewable energy sources, such as wind energy, solar energy, tidal energy and geothermal energy. All of these renewable energy forms can be used cyclically and are clean and when used do not cause any pollution to the natural environment.

Of these renewable energy forms, wind energy is easy to use, is inexhaustible and is particularly suitable for areas where wind sources are readily available, such as offshore islands and open fields. The wind energy is extracted from moving air currents, namely wind and the generation of wind is a movement of air caused by the convection caused by non-uniform heating of the atmosphere. It can therefore be considered as a form of energy that is supplied by the sun. It is often used to power mechanical devices such as a sailboat or a windmill.

30 On large lawns or areas, wind energy is often used to perform tasks that can be interrupted, such as driving a windmill to pump water into agricultural areas (water supply) or grinding crops and it is also used to power a dynamo 35 for generating electricity for lighting and communication purposes. However, the conventional windmill is constructed with a large amount of 1036946 • 2 parts and is very bulky, which makes construction and installation very difficult. Furthermore, air currents that supply wind energy also entail dust and sand, which can accumulate in seams of the windmill, which makes the operation of the windmill less flexible or cause damage to parts and can also lead to maintenance problems. Water delivery, on the other hand, is often done with a water pump. However, the conventional water pump is operated with energy supplied from electricity and water taken in, pumped forward, and compressed by the centrifugal force caused by the high speed of the water pump. When the water pump is running at a low speed, its performance cannot be exploited to provide water. And furthermore, for supplying water over a long distance or for supplying a large amount of water in a very short period, because it is generally not possible to connect two or more pumps to perform the pumping action , a single water pump is often overloaded to provide the desired supply. This leads to an increase in delivery costs and cannot effectively reduce capital consumption.

It is therefore an object of the present invention to provide a new wind energy water supply pump that uses wind energy as a power source and is operated without suction generated by centrifugal forces generated by high speed rotation and controlled by the use of wind 30 for rotating a blade wheel which in turn drives a clutch for energizing repeated expansion / compression of an expansion tube for generating suction for supplying water. This is particularly suitable for areas where the supply of water over long distances is necessary or where no electricity is available.

Λ 3

Summary of the invention

An object of the present invention is to provide a wind energy water supply pump that effectively limits the consumption of human power and an additional power supply for supplying water in zones where the power supply cannot be obtained but where wind energy is readily available.

Another object of the present invention is to provide a water energy pump for wind energy 10 that is built up of simple structural components to substantially reduce the costs of manufacturing and maintenance.

In order to achieve the above objectives, in accordance with the present invention, a wind energy water supply pump is provided which consists of a housing, a rotation disk, a blade wheel, a direction control vane, a coupling and an amount of expansion tubes in which the rotation disk is rotatably mounted. is on the top of the housing and the paddle wheel and the direction control vane are symmetrically placed on opposite sides of the top of the rotation disk. The paddle wheel is coupled to the coupling and the coupling has ends which are respectively connected to the expansion tube to realize drive coupling between the paddle wheel and each expansion tube to control the repeated expansion / compression of the expansion tube. The expansion tube is arranged with an end in connection with a water source and an opposite end in connection with the destination of the water supply.

Brief description of the drawings

FIG. 1 is a perspective view, partially cut away, of a water supply pump constructed in accordance with a preferred embodiment of the present invention.

FIG. 2 is a cross-sectional view of the water supply pump of the present invention in an assembled situation.

FIG. 3 is a schematic view illustrating the rotation of a rotation disk of the water supply pump of the present invention in accordance with the blowing direction of the wind applied to it.

FIG. 4 is a cross-sectional view illustrating the operation of the water supply pump in accordance with the present invention.

FIG. 5 is another cross-sectional view illustrating the operation of the water supply pump in accordance with the present invention.

FIG. 6 is a perspective view, partially cut away, of a water supply pump constructed in accordance with another embodiment of the present invention.

FIG. 7 is a cross-sectional view illustrating the operation of the water supply pump in accordance with said other embodiment of the present invention.

Detailed description of the preferred embodiments

With reference to the drawings and in particular to Figures 1-3, which shows a wind energy water supply pump in accordance with a preferred embodiment of the present invention, the wind energy water supply pump of the present invention consists of the following component 30 devices / devices :

A housing 10, which has a cylindrical shape, has a top that forms an opening 11. The opening 11 has a circumference along which a flange 12 is provided which forms a circular track. The housing 10 defines an inner receiving chamber 13 and a hollow positioning cylinder 14 arranged at a central location on the inner side of the receiving chamber 13. Furthermore, the housing 10 has an outer surface which forms through-holes 15 for receiving water pipes 70 which walk through it.

A rotary disk 20, which is in the form of a circular disk, is movably mounted around the circumference of the opening 11 of the housing 10. The rotary disk 20 forms, at its center, an extension piece 2. The rotary disk 20 has a bottom side which has a circumference on which a plurality of roller sets 22 are mounted for movably clamping the flange 12, so as to make it possible for the rotary disk 20 to perform a reciprocating peripheral rotation on the top of the housing 10. Furthermore, the rotary disk 20 has a top side on which two bearing surfaces 23 are mounted. The two bearing surfaces 23 are placed symmetrically on opposite sides of the central extension 21.

A paddle wheel 30 consists of a plurality of blades 31 distributed along the circumference and a shaft 32 placed in the center thereof. The shaft 32 is movably disposed by the two bearing surfaces 23. An eccentric block 321 is mounted on a central portion of the shaft 32. The impeller 30, when driven by wind, causes continuous rotation of the shaft 32 and the eccentric block 321 .

A directional control vane 40 is placed on the bearing surface 23 opposite the blade wheel 30 to hold the directional control vane 40 in the direction of the wind, wherein when the direction of the wind forms an angle 30 with respect to the directional control vane 40, the wind controls the directional control of vane 40 so that the rotation disk 20 is rotated.

A coupling 50 is placed on the inside of the housing 10. The coupling 50 consists of a connecting rod 51, a transmission rod 52 and at least one coupling rod 53. The connecting rod 51 has an end connected to the eccentric block 321 of the vane wheel 30 and an opposite end rotatably connected to one end of the transmission rod 52. An opposite end of the transmission rod 52 is coupled to the coupling rod 53.

The transmission rod 52 is movably received in the positioning cylinder 14 on the inside of the housing 10, wherein when the paddle wheel 30 rotates, the connecting rod 51 is driven to perform reverse open downward movement, while the transmission rod 52 is subjected to the restriction by the positioning cylinder 14 to cause only limited reverse up and down movement of the link rod 53.

A plurality of expansion tubes 60 are coupled to the respective ends of the coupling rod 53. Each expansion tube 60 is formed by stacking firmly on top of each other multiple layers made of resilient material having a rigidity and an outer surface having successively changing gutters 61 and ledges 62 form 20. A reinforcement ring 63 is set between the adjacent trough 61 and ridge 62. The expansion tube 63 has a top that forms a water inlet hole 64 in its center and a bottom that forms a water outlet hole 65 in its center. The water inlet hole 64 and the water outlet hole 65 preferably have the same dimensions and the same shape. Furthermore, the water inlet hole 64 is constructed such that water flows in but water does not flow out, while the water outlet hole 65 has a structure that allows the outflow of water but prevents the inflow of water. Such a composition ensures the protection of the pump against a backward flow of water unexpectedly caused by the supply of water.

Before use, the water supply pump of the present invention is installed in an area where no electrical power is available but where sufficient wind energy can be obtained immediately. As shown in Figs. 1 and 3 - 5, the water pipes 70 which extend into the housing 10 are connected by the fittings 80 to the water inlet hole 64 and the water outlet hole 65 of each expansion tube 60, respectively. The water pipe 70 which is connected is with the water inlet hole 64 set in connection with a water source, while the water pipe 70 connected to the water outlet hole 65 is extended to a water supply destination. Since the directional check of 40 of the water supply pump 10 of the present invention, when subjected to being driven by the wind, can automatically cause the rotation disk 20 to rotate, the blades 31 of the blade wheel 30 remain in the direction with the incoming wind, the maximum 15 wind receiving area is always retained. When the blades 31 of the blade wheel 30 are rotated by the wind energy, the shaft 32 of the blade wheel 30 starts to rotate continuously and the eccentric block 321 of the shaft 32 controls the reverse up and down movement of the connecting rod 51 which in turn, the transmission rod 52 reduces and the coupling rod 53 moves up and down inversely, forcing the expansion tube 60, which is coupled to the end of the coupling rod 53, to alternately contract or expand, by which action water becomes delivered from the water source to the water supply destination. As shown in Figure 3, when the expansion tube 60 is expanded by being stretched through the coupling rod 53, an internal volume of the expansion tube 60 is increased and a suction force is generated so that water is drawn through the water inlet hole 64 and collected in the expansion tube 60. As, on the other hand, is shown in Figure 4, when the expansion tube 60 is contracted by being compressed by the coupling rod 53, the internal volume of the expansion tube 60 is reduced and an expulsion force is generated to remove the water that is. stored in the expansion tube 60. The present invention takes advantage of the volume variation of the expansion tube 60 caused by its expansion / contraction to supply water, and thus wind energy is converted into work for moving the water. This results in a substantial reduction of human labor and other externally exercised power when supplying water. Furthermore, since the components of the water supply pump in accordance with the present invention, such as the blade wheel 30, the coupling 50 and the expansion tube 60, are made modular, the amount of components is reduced and the overall dimensions are smaller, thereby making the manufacturing cost considerably reduced. In addition to the blade wheel 30 and the directional check of 40, all 15 components of the water supply pump of the present invention are included in the housing 10 and are thus protected against damage caused by dust and sand, thereby reducing wear of the components. The expansion tube 60 consists of several layers of rigid material, which provide sufficient tensile strength and / or compression strength; this, together with the composition of the reinforcement ring 63, protects the expansion tube 60 from excessive internal pressure. The period of use can therefore be substantially extended and the maintenance costs reduced.

Referring to Figures 6 and 7, a water supply pump is illustrated in accordance with another embodiment of the present invention, in which two expansion tubes 60 are coupled to opposite ends of the coupling rod 53 but in an opposite manner so that one of the expansion tubes 60 are oriented such that it has a water inlet hole 64 on a vertical top side and the water inlet hole 65 on a vertical bottom side, while the other expansion tube 60 is positioned opposite so that it has the water inlet hole 64 at the vertical bottom side and the water outlet hole 65 on the vertical top. When the 9 coupling rod 53 moves upwards, said expansion tubes 60 are stretched, while the other said expansion tube 60 is compressed. On the other hand, when the coupling rod 53 moves downwards, said other expansion tube 60, which was previously stretched, is compressed, while said other expansion tube 60, which was previously compressed, is stretched. Thus with the reverse vertical movement of the coupling rod 53, the two expansion tubes 60 are always held in such a way that one is stretched and the other is compressed, allowing water to be continuously supplied when the blade wheel is operated by wind energy . In this way the efficiency of supplying water is increased and the feasibility is improved.

As shown in Figs. 1-7, the present invention has the following advantages: (1) The present invention uses the rotation of the blade wheel 30 that is subjected to wind energy 20 to drive the clutch 60 for repeatedly expanding / compressing of the expansion tube 60 and the change in the internal volume of the expansion tube 60 is used to drive the supply of water, thereby substantially reducing human labor and commercial power supply for supplying water in an area where commercially supplied power is not directly can be approached, but where sufficient wind energy is available and the ease of use is improved.

(2) The present invention uses a blade wheel 30, a clutch 50 and an expansion tube, all of which have a modular construction so that the amount of components is reduced, the overall dimensions are reduced, and thus also the manufacturing costs are considerably reduced.

(3) The components of the present invention are accommodated in a housing 10 so that they are protected from damage caused by dust and sand attached thereto, thereby reducing wear and tear on the components and extending their service life.

5 1036946

Claims (7)

A water supply pump for wind energy, comprising: a housing that forms a top opening and has a circumference that forms a flange, the housing consists of a hollow positioning cylinder that is centrally positioned in it; a rotation disk movably mounted on the top of the housing and forming a central passage hole, the rotation disk has a bottom that has a circumference on which is mounted a quantity of roller sets that allows the rotation disk to perform reverse circumferential rotation, the rotation disk has a top side on which two bearing surfaces are mounted; a paddle wheel movably mounted on the rotary disk and having a plurality of blades, the paddle wheel consists of a central shaft movably received by the two bearing surfaces, an eccentric block mounted on a middle section of the shaft, the paddle wheel being set to be driven by wind to create continuous rotation of the shaft and the eccentric block; a directional check vane which is placed on the bearing surface opposite the blade wheel, the directional check vane that remains in the direction of the wind so that the rotation disk remains in line with the wind; a coupling disposed in the housing and consisting of a connecting rod, a transmission rod and at least one coupling rod, the connecting rod has an end connected to the eccentric block and an opposite end rotatably connected to an end of the transmission rod, a opposite end of the transmission rod that is coupled to the coupling rod, the transmission rod is movably received in the positioning cylinder; and a plurality of expansion tubes coupled to 1036946 the end of the coupling rod and each rod has an outer surface that forms gutters and ridges alternately, a reinforcement ring is set between an adjacent gutter and ledge, the expansion tube having a top that forms a water inlet hole centrally and a bottom that forms a water outlet centrally. 2. The wind power water pump according to claim 1, wherein the housing has a top that forms the top opening and its circumference around the top opening forms the flange in the form of a circular track, and wherein the housing defines an inner receiving chamber in which at least one supporting rack. 15 The wind power water supply pump according to claim 1, wherein the housing has a surface that forms through-holes that accommodate water pipes. The wind energy water supply pump according to claim 1, wherein the two bearing surfaces are set at locations on opposite sides of and symmetrical to the central passage hole. The wind power water pump as claimed in claim 1, wherein the expansion tube consists of a plurality of stacked layers made of resilient material having a rigidity, the reinforcement ring being enclosed within the resilient material. 30 6. The wind power water pump according to claim 1, wherein the expansion tube coupled to one end of the coupling rod is arranged in such a way that the water inlet hole is on a vertical top side and the water outlet hole is on a vertical bottom side. « The wind power water pump according to claim 1, wherein two expansion tubes are coupled to the coupling rod in such a way so that they are opposite to each other so that one of the expansion tubes 5 is oriented such that it has a water inlet hole on a vertical top and the water outlet gas sits on a vertical bottom, while the other expansion tube is placed opposite so that the water inlet hole is on the vertical bottom and the water outlet hole is on the vertical top. 1036946