CN204851561U - Small -bore wind -force hydraulic power picotan of deep well - Google Patents

Abstract

The utility model provides a small -bore wind -force hydraulic power picotan of deep well, include the wind wheel, with the hydraulic means that the wind wheel is connected to and pressurized -water structure, the structure of drawing water that the pressurized -water structure includes the support frame, is located the bracing piece on the support frame and is connected with the bracing piece, the structure of drawing water include with the well casing be connected and be located the well casing lower extreme the cylinder liner, be located having the piston of first check valve and being located of cylinder liner the second check valve of cylinder liner bottom, the one end of bracing piece is equipped with the balancing weight, the other end of bracing piece passes through connecting piece and hinge joint, by the balancing weight with hydraulic means cooperates control jointly the bracing piece motion to make the piston be in be reciprocating motion in the cylinder liner. Therefore, the utility model has the advantages of simple structure, that the cost is lower, can exttaction water easy more.

Description

Deep-well small-bore wind-force hydraulic power picotan

Technical field

The utility model relates to a kind of picotan, especially a kind of deep-well small-bore wind-force hydraulic power picotan.

Background technique

In the western China that water resources lacks, the water level of underground water is mostly lower, the underground water of deep under ground to be extracted, all generally then by motor, water is extracted, but just need like this electric power resource of at substantial, and often after at substantial electric power resource, the water yield of extraction is also very limited, not only can not meet the living needs of people, cause again the billow waste of electric power resource simultaneously, in order to address this problem, people have found out the method extracting water with wind-force as power source, but, due to technological deficiency, although do not need wastes power resource, but after utilizing wind wheel to obtain power, still need to use motivational drive electric machine rotation, thus utilize motor to be extracted by the water of deep under ground, in whole process, motor is driven, need larger power, so just need larger wind or more powerful wind wheel, technical difficulty and cost can be increased undoubtedly, simultaneously, each picotan needs outfit motor, cost can be made higher.

Model utility content

In order to overcome the problems referred to above, to society, the utility model provides that a kind of structure is simple, cost is lower, the deep-well small-bore wind-force hydraulic power picotan that can be more prone to extract water.

The technical solution of the utility model is: provide a kind of deep-well small-bore wind-force hydraulic power picotan, comprise wind wheel, the hydraulic pressure installation be connected with described wind wheel, and setting-out structure, described setting-out structure comprises supporting frame, be positioned at the strut on supporting frame, and the pumping structure to be connected with strut, described pumping structure comprises and to be connected with well casing and to be positioned at the cylinder sleeve of well casing lower end, be positioned at the piston with the first one-way valve of cylinder sleeve, and the second one-way valve be positioned at bottom described cylinder sleeve, one end of described strut is provided with balancing weight, the other end of described strut is connected with piston by link, jointly coordinated by described balancing weight and described hydraulic pressure installation and control described strut and move, thus piston is moved reciprocatingly in described cylinder sleeve.

As to improvement of the present utility model, described hydraulic pressure installation comprises the hydraulic-pressure pump, oil cylinder and the fuel tank that connect successively, form loop between described hydraulic-pressure pump, oil cylinder and fuel tank, described balancing weight is positioned at the pre-position directly over the piston rod of described oil cylinder.

As to improvement of the present utility model, described wind wheel is connected by driving mechanism with hydraulic pressure installation.

As to improvement of the present utility model, described driving mechanism is connecting rod.

As to improvement of the present utility model, the blade of described wind wheel is sheet material or the single metal plate material of composite structure.

As to improvement of the present utility model, described link is wire rope.

The utility model is owing to also comprising setting-out structure, described setting-out structure comprises supporting frame, be positioned at the strut on supporting frame, and the pumping structure to be connected with strut, described pumping structure comprises and to be connected with well casing and to be positioned at the cylinder sleeve of well casing lower end, be positioned at the piston with the first one-way valve of cylinder sleeve, and the second one-way valve be positioned at bottom described cylinder sleeve, one end of described strut is provided with balancing weight, the other end of described strut is connected with piston by link, jointly coordinated by described balancing weight and described hydraulic pressure installation and control described strut and move, thus drive piston to move reciprocatingly in described cylinder sleeve, in the utility model, structure is simple, used part is all lower-cost, but the effect of the extraction water realized is again good, do not need again the electric power resource of at substantial simultaneously, therefore, it is simple that the utility model has structure, cost is lower, the advantage extracting water can be more prone to.

Accompanying drawing explanation

The overall structure schematic diagram of this practical new original state of Fig. 1.

The overall structure schematic diagram of another state of Fig. 2 the utility model (after namely cylinder piston rod rises).

The overall structure schematic diagram of the state (namely cylinder piston rod declines rear) after well casing extracts full water in Fig. 3 the utility model.

Embodiment

In description of the present utility model, it will be appreciated that, orientation or the position relationship of the instruction such as " " center ", " on ", D score, "front", "rear", "left", "right" in term be based on orientation shown in the drawings or position relationship; be only the utility model and simplified characterization for convenience of description; instead of instruction or imply the device of indication or element must have specific orientation, with specific azimuth configuration and operation, therefore can not be interpreted as restriction of the present utility model.In addition, term " first ", " second " only for describing object, and can not be interpreted as instruction or hint relative importance.

In description of the present utility model, it should be noted that, unless otherwise clearly defined and limited, term " installation ", " connection ", " being connected " should be interpreted broadly, and such as, can be fixedly connected with, and also can be that dismounting connects, or connect integratedly; Can be mechanical connection, also can be electrical connection; Can be directly be connected, also can be indirectly be connected by intermediary, can be the connection of two element internals.For the ordinary skill in the art, concrete condition above-mentioned term can be understood at concrete meaning of the present utility model.In addition, in description of the present utility model, except as otherwise noted, the implication of " multiple ", " some " is two or more.

Refer to Fig. 1 to Fig. 3, that Fig. 1 and Fig. 3 discloses is a kind of embodiment of deep-well small-bore wind-force hydraulic power picotan, a kind of deep-well small-bore wind-force hydraulic power picotan, comprise wind wheel 1, the hydraulic pressure installation 2 be connected with described wind wheel 1, and setting-out structure 3, described wind wheel 1 is located at the top of pylon 10, described hydraulic pressure installation 2 comprises the hydraulic-pressure pump 21 connected successively, oil cylinder 22, and fuel tank 23, described hydraulic-pressure pump 21, oil cylinder 22, and be connected to form loop by oil pipe between fuel tank 23, described setting-out structure 3 comprises supporting frame 31, be positioned at the strut 32 on supporting frame 31, and the pumping structure 33 to be connected with strut 32, described strut 32 can around the nodal motion of strut 32 with supporting frame 31, well casing 30 is provided with in deep-well 37, described pumping structure 33 comprises and to be connected with well casing 30 and to be positioned at the cylinder sleeve 331 of well casing 30 lower end, be positioned at the piston 332 with the first one-way valve 71 of cylinder sleeve 331, and the second one-way valve 72 be positioned at bottom described cylinder sleeve 331, one end of described strut 32 is provided with balancing weight 321, the other end of described strut 32 is connected with piston 332 by link 34, in the utility model, described balancing weight 321 is positioned at directly over the piston rod 221 of described oil cylinder 22, jointly coordinated by described balancing weight 321 and described hydraulic pressure installation 2 and control described strut 32 and move, thus piston 332 is moved reciprocatingly in described cylinder sleeve 331.

In the utility model, preferably, described wind wheel 1 is connected by driving mechanism 4 with hydraulic pressure installation 2, and in the present embodiment, what described driving mechanism 4 adopted is connecting rod.

In the utility model, in order to make the blade of described wind wheel 1 more durable, the blade of described wind wheel 1 adopts sheet material or the single metal plate material of composite structure.

In the utility model, preferably, wind rudder 12 is also provided with at the other end of described wind wheel 1.

In the utility model, preferably, described link 34 can be that hard material is made, also can be that soft material is made, such as, wire rope, hard material and soft material belong to prior art, and this is no longer going to repeat them.

For Fig. 1 to Fig. 3, the process of water lift of the present utility model is described further below: Fig. 1 is in the utility model, the structural representation of (when namely not having wind) during original state, now owing to there is no wind, just do not have enough energy that the piston rod 221 in described oil cylinder 22 is moved yet, under the Action of Gravity Field of described balancing weight 321, strut 32 is pressed down by past, and described piston 332 is positioned at the top of cylinder sleeve 331, when wind comes, described wind wheel 1 rotates with the wind, described wind wheel 1 makes hydraulic-pressure pump 21 be discharged by pressure oil by running shaft 13 and driving mechanism 4, pressure oil is sent in described oil cylinder 22, thus the piston rod 221 promoting described oil cylinder 22 moves upward, balancing weight 321 directly over the piston rod 221 being positioned at described oil cylinder 22 is propped up, now described strut 32 tends to balance gradually, piston 332 in described cylinder sleeve 331 down moves under the effect of self gravitation, until move to the bottom of described cylinder sleeve 331, and in the process that described piston 332 down moves, described first one-way valve 71 is in closed condition, second one-way valve 72 is in opening state (state as shown in Figure 2), water is inhaled in described cylinder sleeve 331 from described second one-way valve 72, when the piston rod 221 of described oil cylinder 22 stops moving upward, close the oil inlet valve of described oil cylinder 22, open the fuel-displaced valve of described oil cylinder 22, the pressure release of described oil cylinder 22, 221, the piston rod of described oil cylinder 22 moves downward, oil in described oil cylinder 22 moves in described fuel tank 23, described balancing weight 321 also moves downward under gravity, thus pull described link 34 to move upward, described piston 332 moves upward under the effect of described link 34 in cylinder sleeve 331, now, described first one-way valve 71 is opened, second one-way valve 72 is closed, water in cylinder sleeve 331 arrives well casing 30 by the first one-way valve 71, several times after circulation, water (as shown in Figure 3) is then full of in described well casing 30, water flows out from water outlet 6 again, when next one circulation starts, the oil suction from described fuel tank 23 of described hydraulic-pressure pump 21, mineralization pressure oil is delivered in described oil cylinder 22 again, completes next circulation with this.In the utility model, structure is simple, and used part is all lower-cost, but the effect of the extraction water realized is again good, does not need again the electric power resource of at substantial simultaneously.

Claims (6)

1. a deep-well small-bore wind-force hydraulic power picotan, comprise wind wheel (1), and the hydraulic pressure installation (2) to be connected with described wind wheel (1), it is characterized in that, also comprise setting-out structure (3), described setting-out structure (3) comprises supporting frame (31), be positioned at the strut (32) on supporting frame (31), and the pumping structure (33) to be connected with strut (32), described pumping structure (33) comprises and to be connected with well casing (30) and to be positioned at the cylinder sleeve (331) of well casing (30) lower end, be positioned at the piston with the first one-way valve (71) (332) of cylinder sleeve (331), and be positioned at second one-way valve (72) of described cylinder sleeve (331) bottom, one end of described strut (32) is provided with balancing weight (321), the other end of described strut (32) is connected with piston (332) by link (34), jointly coordinated by described balancing weight (321) and described hydraulic pressure installation (2) and control described strut (32) and move, thus piston (332) is moved reciprocatingly in described cylinder sleeve (331).

2. deep-well according to claim 1 small-bore wind-force hydraulic power picotan, it is characterized in that: described hydraulic pressure installation (2) comprises the hydraulic-pressure pump (21), oil cylinder (22) and the fuel tank (23) that connect successively, form loop between described hydraulic-pressure pump (21), oil cylinder (22) and fuel tank (23), described balancing weight (321) is positioned at the pre-position directly over the piston rod (221) of described oil cylinder (22).

3. deep-well according to claim 1 and 2 small-bore wind-force hydraulic power picotan, is characterized in that: described wind wheel (1) is connected by driving mechanism (4) with hydraulic pressure installation (2).

4. deep-well according to claim 3 small-bore wind-force hydraulic power picotan, is characterized in that: described driving mechanism (4) is connecting rod.

5. deep-well according to claim 1 and 2 small-bore wind-force hydraulic power picotan, is characterized in that: the blade of described wind wheel (1) is sheet material or the single metal plate material of composite structure.

6. deep-well according to claim 1 and 2 small-bore wind-force hydraulic power picotan, is characterized in that: described link (34) is wire rope.