CN205154572U - Eight stroke water elevators of wind -force symmetry formula - Google Patents

Abstract

The utility model provides an eight stroke water elevators of wind -force symmetry formula, include wind wheel, gearbox, " cross " cam, inhale drainage structures, its characterized in that, inhaling drainage structures and including an inlet tube, the absorb water passageway of inlet tube through two symmetries accesss to two delivery ports respectively, two absorb water passageways all the department of intaking with go out water department and set up the check valve, all be equipped with the diaphragm on the inside wall of two passageways that absorb water, set up " cross " cam structure between two diaphragms, the driven shaft of " cross " cam structure hookup gearbox, the driving shaft hookup wind wheel of gearbox, the cam is " cross " cam structure. " cross " cam revolution of eight stroke water elevators of wind -force symmetry formula moves a week, makes unfamiliar reciprocating motion four -cycle, and the structure of symmetry can make the device eight circulations of reciprocating motion altogether.

Description

A kind of wind-force symmetric type eight stroke water elevator

Technical field

The utility model relates to a kind of water elevator, especially wind-force symmetric type eight stroke water elevator.

Background technique

At present, wind power water pumping machine drives reciprocating motion of the pistons primarily of the structure such as bent axle, eccentric wheel, but the structure such as bent axle, eccentric wheel is rotated one week, reciprocating motion of the pistons one circulation.As Chinese patent 201020145980.1 discloses one " directional reciprocating type wind-power water lifting pump ", it is formed primarily of components such as wind-force pull bar, the pump housing, pump rod, piston, piston valve ball, bottom valves.At home and even fast-developing in world wide, wind-power electricity generation is also greatly develop project in world wide to current wind energy, therefore, utilizes the water elevator of wind-force directly as power considerably less.

Summary of the invention

The utility model technical issues that need to address are, overcome the deficiency of background technique, there is provided a kind of simple and reasonable, power resources are the wind-force symmetric type eight stroke water elevator of wind energy, and " cross " of the present utility model cam often rotates one week, makes barrier film to-and-fro motion four circulation, symmetrical structure can make to-and-fro motion eight circulation altogether of this device, greatly improve barrier film reciprocating frequency, thus improve water lift efficiency.

For achieving the above object, the utility model have employed following technical proposals.A kind of wind-force symmetric type eight stroke water elevator, comprise wind wheel, gearbox, cam structure, discharging water structure, it is characterized in that, described discharging water structure comprises an intake pipe, intake pipe leads to two water outlets respectively by two symmetrical water absorption channel, two water absorption channel all arrange one-way valve in water inlet place and water outlet place, the madial wall of two water absorption channel is equipped with barrier film, for installing the cavity of cam structure between two barrier films, cam structure is established in cavity, the cam of cam structure adopts " cross " cam, " cross " cam connects the driven shaft of gearbox, the driving shaft of gearbox connects wind wheel.

Described cam structure comprises chamber, " cross " cam, upper support smooth plate, lower support smooth plate, swash plate, pull bar, piston, dunnage, spring, the center of chamber arranges " cross " cam, " cross " cam is fixed on the driven shaft end of gearbox by key and locking element, upper support smooth plate and lower support smooth plate are fixed on housing, one piece of dunnage is respectively established in the formation upper wall of chamber and the both sides of lower wall chamber, one piece of swash plate is respectively established in " cross " cam both sides, swash plate cylinder lever connecting rod, pull bar is positioned at the part pocketed springs of chamber, the other end of pull bar connects piston, piston and barrier film are fixed together, in the process of " cross " cam Compress Spring, swash plate, pull bar drives diaphragm movement together with piston.

Hollow bearing is installed in described water absorption channel, the effect of hollow bearing be water is passed through while play a supportive role.

Described wind wheel is by fan shaft, and the blade rack be connected with fan shaft and the blade be arranged on blade rack are formed.

There is provided kinetic energy by wind-force, wind wheel adopts vertical shaft H type blower fan, and blower fan is connected with gearbox by coupling.Driven shaft end connects " cross " cam structure, and in the process that " cross " cam rotates, swash plate Compress Spring, " cross " cam rotates one week, and Compress Spring four times, symplex structure compresses eight times.Water lift function is reached by the drive to-and-fro motion of barrier film and the change of volume.When barrier film moves right, water outlet one-way valve closes, and water intake is opened, thus water suction.When barrier film is to left movement, water outlet one-way valve is opened, and water intake closes, thus draining, finally reach water lift function.

In order to prevent the stroke overscale problems of barrier film, 32-dunnage is adopted to limit its stroke and then extend its working life.

The utility model mainly adopts wind energy transformation to be mechanical energy thought, achieves effective utilization of new energy, utilizes " cross " cam structure make barrier film to-and-fro motion and reach the function of water lift.The utility model has the advantage of:

(1) " cross " cam rotates one week, and can make barrier film to-and-fro motion four circulation, symmetrical structure reaches eight circulations.And traditional crankshaft structure rotates one week barrier film back and forth only has a circulation.

(2) utilize the rotation of " cross " cam, make symmetrical barrier film reach Dual Drive effect, improve water lift efficiency.

(3) avoid the resistance back and forth of reciprocating motion of the pistons process, only need against the force of the spring.

(4) in the middle of maintenance process, only barrier film need be changed, easy to maintenance, simple to operate.Adopt H type blower fan, be not limited by wind direction, without the need to wind apparatus, do not need rotor to control, be applicable to the environment that wind speed is little.

Accompanying drawing explanation

The structural drawing of Fig. 1 the utility model wind-force symmetric type eight stroke water elevator.

" cross " camming movement schematic diagram of Fig. 2 the utility model wind-force symmetric type eight stroke water elevator.

The gearbox enlarged view of Fig. 3 the utility model wind-force symmetric type eight stroke water elevator.

" cross " cam planes figure of Fig. 4 the utility model wind-force symmetric type eight stroke water elevator.

1-blade rack in figure; 2-blade; 3-end cap; 4-ball bearing; 5-axle sleeve; 6-driven gear; 7-ball bearing; 8-felt collar; 9-end cap; 10-ball bearing; 11-ball bearing: 12-housing; 13-end cap; 14-driving shaft; 15-ball bearing; 16-key; 17-driving gear; 18-ball bearing; 19-screw; 20-end cap; 21-coupling; 22-fan shaft; 23-key; 24-felt collar; 25-key; 26-supports smooth plate; 27-spring; 28-one-way valve; 29-barrier film; 30-piston; 31-pull bar; 32-dunnage; 33-" cross " cam; 34-locking element; 35-one-way valve; 36-swash plate; 37-lower support smooth plate; The hollow bearing of 38-; 39-intake pipe; 40-liquid-container; 41-liquid.

Embodiment

As shown in Figure 1, a kind of wind-force symmetric type four-journey water elevator, comprises wind wheel, gearbox, chamber, " cross " cam structure, discharging water structure.Described discharging water structure comprises an intake pipe (39), intake pipe (39) leads to two water outlets respectively by two symmetrical water absorption channel, two water absorption channel all arrange one-way valve (28,35) in water inlet place and water outlet place, the madial wall of two water absorption channel is equipped with barrier film (29), for installing the cavity of cam structure between two barrier films (29), cam structure is established in cavity, the cam of cam structure adopts " cross " cam (33), " cross " cam (33) connects the driven shaft of gearbox, and the driving shaft (14) of gearbox connects wind wheel.

Described wind wheel is by fan shaft (22), and the blade rack (1) be connected with fan shaft (22) and the blade (2) be arranged on blade rack (1) are formed.

As shown in Figure 3, described gearbox adopts one-level gear transmission, and drive driven shaft running by driving shaft (14), driving shaft (14) is connected with key with the gear that driven shaft coordinates with it.The Main Function of key is transmitting torque and prevents axial float.In the housing (12) of gearbox, driving shaft (14) and driven shaft are installed, driving shaft (14) is installed fixing by end cap (20), end cap (13), screw (19), ball bearing (18), ball bearing (15), and driving gear (17) is fixed on driving shaft (14) by key (16); Described driven shaft is fixed by end cap (3), ball bearing (4), axle sleeve (5), ball bearing (7), felt collar (8), end cap (9), ball bearing (10), ball bearing (11), it is installed driven gear (6), driven gear (6) engages with driving gear (17).

As shown in Figure 1, as shown in Figure 1, described cam structure comprises " cross " cam (33), chamber, upper support smooth plate (26), lower support smooth plate (37), swash plate (36), pull bar (31), piston (30), dunnage (32), spring (27).The center of chamber arranges " cross " cam (33), and " cross " cam (33) is fixed on the driven shaft end of gearbox (as shown in Figure 3) by key (16) and locking element (34).Upper support smooth plate (26) and lower support smooth plate (37) are fixed on the housing of discharging water structure, form upper wall and the lower wall of chamber.One piece of dunnage (32) is respectively established in the both sides of chamber, one piece of swash plate (36) is respectively established in " cross " cam (33) both sides, swash plate (36) cylinder lever connecting rod (31), pull bar (31) is positioned at the part pocketed springs (27) of chamber, and the other end of pull bar (31) connects piston (30).Piston (30) and barrier film (29) are fixed together.In the process of " cross " cam (33) Compress Spring (27), swash plate (36), pull bar (31) and piston (30) drive barrier film (29) to move together.The effect of dunnage (32) is restriction barrier film (29) movement travel." cross " cam (33) Compress Spring (27) running is convenient in the effect of swash plate (36).

Hollow bearing (38) is installed in described intake tunnel, the effect of hollow bearing (38) be water is passed through while play a supportive role.

During work, intake pipe (39) inserts in the liquid (41) of liquid-container (40), and by the rotation of blower fan, blower fan is connected with gearbox driving shaft (14) by coupling (21).Driven shaft end in gearbox connects " cross " cam structure (33), driven shaft and " cross " cam are connected by key (25) and improve rotating power, in the process that " cross " cam rotates, Compress Spring (27), in spring-compressed process, left side barrier film (29) is to left movement, and the right barrier film moves right, this process one-way valve (28) is opened, and one-way valve (35) closes.In the process that spring recovers, left side barrier film moves right, and the right barrier film is to left movement, and this process one-way valve (28) closes, and one-way valve (35) is opened.Thus realize water suction and drainage procedure.(note: water outlet 1 and water outlet 2 can collect from a water outlet draining).

Claims (3)

1. a wind-force symmetric type eight stroke water elevator, comprise wind wheel, gearbox, cam structure, discharging water structure, it is characterized in that, described discharging water structure comprises an intake pipe, intake pipe leads to two water outlets respectively by two symmetrical water absorption channel, two water absorption channel all arrange one-way valve in water inlet place and water outlet place, the madial wall of two water absorption channel is equipped with barrier film, for installing the cavity of cam structure between two barrier films, cam structure is established in cavity, the cam of cam structure adopts " cross " cam, " cross " cam connects the driven shaft of gearbox, the driving shaft of gearbox connects wind wheel.

2. wind-force symmetric type eight stroke water elevator according to claim 1, it is characterized in that: described cam structure comprises chamber, " cross " cam, upper support smooth plate, lower support smooth plate, swash plate, pull bar, piston, dunnage, spring, the center of chamber arranges " cross " cam, " cross " cam is fixed on the driven shaft end of gearbox by key and locking element, upper support smooth plate and lower support smooth plate are fixed on housing, one piece of dunnage is respectively established in the formation upper wall of chamber and the both sides of lower wall chamber, one piece of swash plate is respectively established in " cross " cam both sides, swash plate cylinder lever connecting rod, pull bar is positioned at the part pocketed springs of chamber, the other end of pull bar connects piston, piston and barrier film are fixed together.

3. wind-force symmetric type eight stroke water elevator according to claim 1, is characterized in that: described wind wheel is by fan shaft, and the blade rack be connected with fan shaft and the blade be arranged on blade rack are formed.