CN201502495U - Automatic water-pumping power machine - Google Patents

Abstract

The utility model relates to an automatic water-pumping power machine comprising a machine frame, a lever, a left suction tube and a right suction tube, wherein the lever is rotatably connected at the top of the machine frame by a rotating shaft, a left piston and a right piston are respectively arranged in the left suction tube and the right suction tube, a left connecting rod and a right connecting rod are respectively and fixedly connected on the left piston and the right piston, and the top ends of the left and the right connecting rods are respectively hinged with the left section and the right section of the lever; a left water discharge nozzle and a right water discharge nozzle are respectively arranged on the left and the right suction tubes; a left water inlet and a right water inlet are respectively arranged on the bottoms of the left and the right suction tubes, and water inlet valves are respectively installed on the left and the right water inlets; a left water outlet and a right water outlet are respectively arranged on the top faces of the left and the right pistons, and water discharge valves are respectively installed on the left and the right water outlets; a left bucket and a right bucket are respectively hinged at the left end and the right end of the lever, and contact pressure valves are installed on the bottoms of the left and the right buckets; a left water drainage groove and a right water drainage groove are respectively arranged on both sides of the machine frame, and contact pressure rods are respectively installed in the left and the right water drainage grooves. The machine does not need to use electrical energy and can automatically pump underground water, thereby having high efficiency, energy conservation, environmental protection and time, force and labor saving.

Description

Automatically power engine draws water

Technical field

The utility model relates to water plug, particularly a kind of energy-conserving and environment-protective power engine that draws water automatically.

Background technique

China is vast in territory, vast territory and abundant resources, gross amount of water resources is abundant, but spatial and temporal distributions inequality, the east rainfall is plentiful, and western rainfall rareness is the antagonism drought, hydraulic engineering is all actively being built in more western provinces, solve human livestock drinking water, the irrigation problem of domestic water and crops, a lot of areas are all adopted and are dug the water kiln, build wet pit, set up the mode of water storage tank to fall rainy season to collect to store at the rainwater on the face of land, to dry season re-use, except utilizing rainwater, also need sink wells, utilize underground water, for groundwater abstraction, can use electric water pump or manual squeezer, yet electric water pump needs supporting power supply when work, for power supply is provided, need purchase transformer, fuse box, the electric equipment of dispensing such as cable, not only have high input, and in case appearance has a power failure or line fault just can't be used, though manually squeezer does not need power supply, but rely on manpower to draw water, labor intensity is big, and is time-consuming, effort, take a lot of work, the efficient of drawing water is too low.

The model utility content

For addressing the above problem, the purpose of this utility model provides a kind of power engine that draws water automatically, and it does not need to use electric energy, can be automatically will come in the groundwater mining, and efficient height, energy-conserving and environment-protective save time, laborsaving, saving of labor.

For achieving the above object, the utility model is by the following technical solutions:

A kind of power engine that draws water automatically, comprise frame, lever and left and right suction tube, left and right suction tube center is arranged on the and arranged on left and right sides of frame symmetrically, the center of described lever is provided with a rotating shaft, rotating shaft is divided into left side section and right section with lever, and lever is rotatably connected to the top of frame by this rotating shaft, is respectively arranged with left and right piston in the left and right suction tube, be connected with left and right connecting rod on the left and right piston respectively, the top of left and right connecting rod is hinged with the left side section and the right section of lever respectively; The top of left and right suction tube is respectively arranged with left and right water draining beak; Left and right water draining beak all is communicated with conduit pipe; The bottom of left and right suction tube is respectively arranged with left and right water intake, and left and right water intake all is communicated with drinking-water pipe, and inlet valve all is installed on the left and right water intake; Be respectively arranged with left and right water outlet on the end face of left and right piston, be separately installed with outlet valve on the left and right water outlet; Left and right two ends at lever are hinged with left and right bucket respectively, and the bottom of left and right bucket is respectively arranged with left and right circular hole, all are equipped with on the left and right circular hole and press valve; And arranged on left and right sides in the frame bottom is respectively arranged with left and right rhone, left and right rhone lays respectively at the below of left and right bucket, all be equipped with in the left and right rhone and press bar, the valve position that presses that presses in bar and the left bucket in the left bank tank aligns, and the valve position that presses that presses in bar and the right bucket in the right rhone aligns.Described inlet valve, outlet valve all are made of the hinge-lid type valve.The described valve that presses is made up of valve body, valve gap, flap, spring, valve gap is fixed in the top of valve body, flap is installed in the bottom of valve body, have pod apertures on the sidewall of valve body lower portion, the bottom surface of valve body has water-leaking hole, is connected with a guide rod on the flap, the upper end of guide rod is passed by the center hole on the valve gap, described spring housing is on guide rod, and the upper end of spring is resisted against on the valve gap, and the lower end abutment of spring is on flap.

The utility model has following actively useful effect: this device does not need to use electric energy, can automatically will be in the groundwater mining, efficient height, energy-conserving and environment-protective, save time, laborsaving, saving of labor.

Description of drawings

Fig. 1 is the utility model one embodiment's a structural representation.

Fig. 2 is the linkage structure schematic representation of left and right suction tube and frame among Fig. 1.

Fig. 3 is the structural representation of left suction tube among Fig. 2.

Fig. 4 is the structural representation of right suction tube among Fig. 2.

Fig. 5 is the structural representation of right bucket among Fig. 1.

Fig. 6 is the structural representation of left bucket among Fig. 1.

Fig. 7 is a user mode schematic representation of the present utility model.

Embodiment

Number in the figure

1 frame, 2 levers, 3 left suction tube 4 right suction tubes

5 rotating shafts, 6 left side sections, 7 right section 8 left pistons

9 right piston 10 drinking-water pipes 11 left connecting rod 12 right connecting rods

13 left bank water nozzles, 14 right water draining beak 15 left water intakes

16 right water intake 17 inlet valves 18 left water outlets

19 right water outlet 20 outlet valves 21 left circular holes

22 right circular hole 23 left bucket 24 right buckets

25 press valve 26 left bank tanks 27 right rhones

28 left water storage tank 29 right water storage tanks 30 press bar

31 valve bodies, 32 valve gaps, 33 flaps, 34 springs

35 pod apertures, 36 water-leaking holes, 37 guide rods

41 connecting tubes of 38 water nozzles, 39 water nozzles, 40 wells

42 conduit pipes, 43 solenoid valves, 44 solenoid valves

Please refer to Fig. 1, Fig. 2, Fig. 3, Fig. 4, the utility model is a kind of power engine that draws water automatically, comprise frame 1, a lever 2 and a left side, right suction tube 3,4, a left side, right suction tube 3,4 centers are arranged on the left side of frame 1 symmetrically, right both sides, the center of lever 2 is provided with a rotating shaft 5, rotating shaft 5 is divided into left side section 6 and right section 7 with lever, lever 2 is rotatably connected on the bearing support at frame 1 top by this rotating shaft 5, a left side, right suction tube 3, be respectively arranged with a left side in 4, right piston 8,9, a left side, right piston 8, be connected with a left side on 9 respectively, right connecting rod 11,12, a left side, right connecting rod 11,12 top is hinged with the left side section 6 and the right section 7 of lever 2 respectively.

The top of left and right suction tube 3,4 is respectively arranged with left and right water draining beak 13,14, and left and right water draining beak 13,14 all is connected with the conduit pipe 42 of fork-shaped.The bottom of left and right suction tube 3,4 is respectively arranged with left and right water intake 15,16, and left and right water intake 15,16 is communicated with the drinking-water pipe 10 of fork-shaped.

On the left and right water intake 15,16 inlet valve 17 is installed all.Be respectively arranged with left and right water outlet 18,19 on the end face of left and right piston 8,9.On the left and right water outlet 18,19 outlet valve 20 is installed all.Left side at lever 2, right two ends are hinged with a left side respectively, right bucket 23,24, please refer to Fig. 5, Fig. 6, a left side, right bucket 23,24 bottom is respectively arranged with a left side, right circular hole 21,22, a left side, right circular hole 21, all be equipped with on 22 and press valve 25, left side in frame 1 bottom, right both sides are respectively arranged with a left side, right rhone 26,27, a left side, right rhone 26,27 lay respectively at a left side, right bucket 23,24 below, a left side, right rhone 26, all be equipped with in 27 and press bar 30, valve 25 positions that press that press in bar 30 and the left bucket 23 in the left bank tank 26 align, and valve 25 positions that press that press in bar 30 and the right bucket 24 in the right rhone 27 align.

Please refer to Fig. 5, Fig. 6, pressing valve 25 is made up of valve body 31, valve gap 32, flap 33, spring 34, valve gap 32 is fixed in the top of valve body 31, and flap 33 is installed in the bottom of valve body 31, has pod apertures 35 on the sidewall of valve body 31 bottoms, the bottom surface of valve body 31 has water-leaking hole 36, be connected with a guide rod 37 on the flap 33, the upper end of guide rod 37 is passed by the center hole on the valve gap 32, and spring 34 is enclosed within on the guide rod 37, the upper end of spring 34 is resisted against on the valve gap 32, and the lower end abutment of spring 34 is on flap 33.

Please refer to Fig. 5, when right bucket 24 does not drop in the right rhone 27, press bar 30 and do not contact with flap 33, under the elastic force effect of spring 34, flap 33 is close to the bottom of valve body 31, with pod apertures 35 and water-leaking hole 36 sealings.Water in the right bucket 24 can not release from water-leaking hole 36.

Left side bucket 23 is identical with the structure of right bucket 24, the position symmetry, and working principle is identical.

Please refer to Fig. 6, when left bucket 23 drops in the left bank tank 26, press bar 30 and from water-leaking hole 36, penetrate in the valve body 31, replace flap 33, after flap 33 overcomes the elastic force effect of spring 34, move up, pod apertures 35 is communicated with water-leaking hole 36, the water in the left bucket 23 just flows out from pod apertures 35, be drained in the left bank tank 26 through water-leaking hole 36, left bank tank 26 links with the guiding canal, introduces in the farmland by the guiding canal, irrigates.

Please refer to Fig. 7, during use, the power engine that draws water automatically of the present utility model is installed on the well head, drinking-water pipe 10 is communicated with the water of bottom with connecting tube 41.Above left and right bucket 23,24, be respectively arranged with left and right water storage tank 28,29.

During rainy season, utilize left and right water storage tank 28,29 will fall rainwater collection storage,, can emit use storing the rainwater that gets up in the left and right water storage tank 28,29 to dry season on the face of land.

The bottom of left and right water storage tank 28,29 is respectively arranged with water nozzle 38 and water nozzle 39, and water nozzle 38 and water nozzle 39 align with the position of left and right bucket 23,24 respectively. Solenoid valve 43,44 is housed respectively on water nozzle 38 and the water nozzle 39, and the keying of solenoid valve 43,44 is controlled by time circuit.

Time circuit elder generation opens solenoid valve 43, close solenoid valve 44, water nozzle 38 is opened, and water nozzle 39 is closed, and the water in the left water storage tank 28 just is injected in the left bucket 23, left side bucket 23 is under action of gravity, descend rapidly, in dropping to left bank tank 26, the bar 30 that presses in the left bank tank 26 is opened the valve 25 that presses in the left bucket 23, water in the bucket 23 of a left side just flows out from the pod apertures 35 that presses valve 25, is drained in the left bank tank 26 through water-leaking hole 36.Left bank tank 26 links with the guiding canal, introduces in the farmland by the guiding canal, irrigates.

When the water in the left bucket 23 during near emptying, time circuit cuts out solenoid valve 43, and opens solenoid valve 44 is closed water nozzle 38, water nozzle 39 is opened, water in the right water storage tank 29 just is injected in the right bucket 24, and right bucket 24 descends rapidly under action of gravity, in dropping to right rhone 27, the bar 30 that presses in the right rhone 27 is opened the valve 25 that presses in the right bucket 24, and the water in the right bucket 24 just flows out from the pod apertures 35 that presses valve 25, is drained in the right rhone 27 through water-leaking hole 36.Right rhone 27 links with the guiding canal, introduces in the farmland by the guiding canal, irrigates.

When the water in the right bucket 24 during near emptying, time circuit cuts out solenoid valve 44, opens solenoid valve 43, water nozzle 39 is closed, water nozzle 38 is opened, water in the water storage tank 28 of a left side just is injected in the left bucket 23, left side bucket 23 is under action of gravity, descend rapidly, because a left side, right bucket 23, always has only a bucket in 24 in water filling, so a left side, right bucket 23,24 just alternately rise and descend, on a left side, right bucket 23,24 alternately rise and the decline process in, lever 2 can be a fulcrum with rotating shaft 5, on, lower swing drives a left side, right connecting rod 11, on 12, under move back and forth.

When left connecting rod 11 moves up, move on the left piston 8 in the left side suction tube 3, the pressure that the bottom of the left piston 8 in the left side suction tube 3 produces reduces, produce negative pressure, open the inlet valve 17 on the left water intake 15, water in the well 40 just passes through connecting tube 41, enter the cavity of resorption of left suction tube 3 from drinking-water pipe 10, when left connecting rod 11 moves down, left piston 8 in the left side suction tube 3 moves down, the pressure that the bottom of the left piston 8 in the left side suction tube 3 produces increases, produce malleation, malleation is closed the inlet valve 17 on the left water intake 15 on the one hand, forces the outlet valve 20 on the left piston 8 to be opened on the other hand, water in the cavity of resorption of left side suction tube 3 just flows out from left water outlet 18 and enters the epicoele of left suction tube 3, when left connecting rod 11 moved up once more, the left piston 8 in the left suction tube 3 also moved up thereupon, and the outlet valve 20 on the left piston 8 is closed, water in the epicoele of left side suction tube 3 is just discharged from left bank water nozzle 13, through conduit pipe 42 outputs.

In like manner, when right connecting rod 12 moves up, move on the right piston 9 in the right suction tube 4, the pressure that the bottom of the right piston 9 in the right suction tube 4 produces reduces, produce negative pressure, open the inlet valve 17 on the right water intake 16, water in the well 40 just passes through connecting tube 41, enter the cavity of resorption of right suction tube 4 from drinking-water pipe 10, when right connecting rod 12 moves down, right piston 9 in the right suction tube 4 moves down, and the pressure that the bottom of the right piston 9 in the right suction tube 4 produces increases, and produces malleation, malleation is closed the inlet valve 17 on the right water intake 16 on the one hand, force the outlet valve 20 on the right piston 9 to be opened on the other hand, the water in the cavity of resorption of right suction tube 4 just flows out from right water outlet 19 and enters the epicoele of right suction tube 4, when right connecting rod 12 moves up once more, right piston 9 in the right suction tube 4 also moves up thereupon, outlet valve 20 on the right piston 9 is closed, and the water in the epicoele of right suction tube 4 is just discharged from right water draining beak 14, through conduit pipe 42 outputs.

Since left and right connecting rod the 11, the 12nd, alternately upper and lower moving back and forth, so, by left and right suction tube 3,4, just the water in the well 40 can be extracted out continuously.This device does not need to use electric energy as power, and energy-conserving and environment-protective during use, can also be connected the other end of rotating shaft with generator, like this, can also send electric energy.

Claims (3)

1. power engine that draws water automatically, comprise frame, lever and left and right suction tube, left and right suction tube center is arranged on the and arranged on left and right sides of frame symmetrically, it is characterized in that: the center of described lever is provided with a rotating shaft, rotating shaft is divided into left side section and right section with lever, lever is rotatably connected to the top of frame by this rotating shaft, be respectively arranged with left and right piston in the left and right suction tube, be connected with left and right connecting rod on the left and right piston respectively, the top of left and right connecting rod is hinged with the left side section and the right section of lever respectively; The top of left and right suction tube is respectively arranged with left and right water draining beak; Left and right water draining beak all is communicated with conduit pipe; The bottom of left and right suction tube is respectively arranged with left and right water intake, and left and right water intake all is communicated with drinking-water pipe, and inlet valve all is installed on the left and right water intake; Be respectively arranged with left and right water outlet on the end face of left and right piston, be separately installed with outlet valve on the left and right water outlet; Left and right two ends at lever are hinged with left and right bucket respectively, and the bottom of left and right bucket is respectively arranged with left and right circular hole, all are equipped with on the left and right circular hole and press valve; And arranged on left and right sides in the frame bottom is respectively arranged with left and right rhone, left and right rhone lays respectively at the below of left and right bucket, all be equipped with in the left and right rhone and press bar, the valve position that presses that presses in bar and the left bucket in the left bank tank aligns, and the valve position that presses that presses in bar and the right bucket in the right rhone aligns.

2. the power engine that draws water automatically as claimed in claim 1, it is characterized in that: described inlet valve, outlet valve all are made of the hinge-lid type valve.

3. the power engine that draws water automatically as claimed in claim 1, it is characterized in that: the described valve that presses is made up of valve body, valve gap, flap, spring, valve gap is fixed in the top of valve body, and flap is installed in the bottom of valve body, has pod apertures on the sidewall of valve body lower portion, the bottom surface of valve body has water-leaking hole, be connected with a guide rod on the flap, the upper end of guide rod is passed by the center hole on the valve gap, and described spring housing is on guide rod, the upper end of spring is resisted against on the valve gap, and the lower end abutment of spring is on flap.

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