CN112983767A - Lever gravity self-pressurization type power generation equipment - Google Patents

Abstract

The invention relates to a lever gravity self-pressurization type power generation device which comprises a power generator set and a water storage tank, wherein a small water storage tank is arranged in the water storage tank, an automatic loading and unloading water bucket is arranged below the water storage tank, a water discharge hose II of the automatic loading and unloading water bucket is communicated with a water receiving tank I, a pressure rod is further arranged at the bottom of a bucket body, and a tilting rod component is correspondingly arranged below the pressure rod. The lever is combined with the gravity principle, and the design of the lever assembly and the automatic weighting water discharging barrel is adopted, so that the force is applied to one end of the tilting rod through the gravity and inertia of water flow, the automatic weighting water discharging barrel and the like, and the semi-elliptic gear at the other end of the tilting rod easily drives the meshing gear to rotate, thereby achieving the purposes of energy storage and power generation. The problem of current new forms of energy receive the environmental impact and the new forms of energy equipment operation self is power consumptive big is solved to realize energy-conserving, the purpose of environmental protection, can reduce the loss that self power consumption is big, the electric quantity of outside transport is great, and simple structure, the volume is not big, the reliability is better etc..

Description

Lever gravity self-pressurization type power generation equipment

Technical Field

The invention relates to the technical field of power generation and energy storage, in particular to lever gravity self-pressurization type power generation equipment.

Background

With the development of new energy sources, various new energy sources begin to be highlighted. The fields of power generation such as Compressed Air Energy Storage (CAES) technology power generation, photovoltaic power generation, still water buoyancy power generation, wind power generation and the like gradually enter production and living practices; although the new energy is energy-saving, the energy-saving. The existing compressed air has the disadvantages of energy storage, large power consumption, single power generation, large occupied area and large noise; and (6) photovoltaic power generation. Firstly, the occupied area is large, the investment in the required early stage is large, and the power generation amount is small in cloudy days and rainy days; generating electricity by using static water buoyancy: some Compressed Air Energy Storage (CAES) technologies are also used, but the power consumption of the CAES technologies is large, the size of a floating valve determines the amount of generated power, and the occupied area is large; wind power generation: the environment is influenced, the investment is large, a certain wind speed environment is required, and the size of power generation can be influenced by no wind and gusty wind. How to solve the defects of the new energy, and perfecting the technical scheme is the problem which is always thought by the inventor.

Disclosure of Invention

In view of the above problems, the present invention provides a lever gravity self-pressurizing power generation apparatus.

The specific technical scheme of the invention is as follows: the utility model provides a lever gravity is from pressurization formula power generation facility, includes generating set, still includes the holding tank, be provided with little holding tank in the holding tank, little holding tank wall mounting has a plurality of float valve switch of intaking that can let the interior water of holding tank flow into little holding tank, install push type switch I in the little holding tank, the correspondence is provided with above the push type switch I can rotate to press push type switch I's the touching horizontal pole I that drains, the bottom intercommunication of push type switch mouth I of little holding tank is provided with the hose I that drains.

The automatic water adding and returning bucket is arranged below the water storage tank, the automatic water adding and returning bucket comprises a bucket body, a water outlet of the water returning hose I extends into the bucket body, a water returning touch vertical rod I is vertically arranged on the bucket body, and the water returning touch vertical rod I can move up and down along with the automatic water adding and returning bucket to jack the water returning touch horizontal rod I.

A push type switch II is also arranged in the barrel body, and a water discharging touch cross rod II capable of pressing the push type switch II downwards is rotatably arranged on the opening of the barrel body; the bottom of the barrel body corresponding to the bottom of the push type switch II is communicated with a water discharging hose II, and the water discharging hose II is communicated with a water receiving tank I.

The barrel body is also provided with a movable joint, the barrel body rotates or is hinged with a weighting lever through the movable joint, the other end of the barrel body is provided with a weighting weight, and the weighting lever is erected on a supporting point.

Surface mounting has the touching montant II that drains on the water receiving case I, and when automatic adding playback water bucket descends, the touching montant II that drains can make progress the roof pressure and drain the touching horizontal pole II.

Staving bottom still installs the pressure bar, and the corresponding stick-up subassembly of installing in pressure bar below, stick-up subassembly is including the stick-up pole I that is located the pressure bar below, and the pressure bar can push down stick-up pole I, makes the stick-up pole I other one end perk, and this end sticks up pole I top then corresponds and is provided with stick-up thick stick II, and the pressure bar upwards rises back stick-up pole I can reset and stick up again, sticks up thick stick II and rotate through stick-up pole installation fixed axle and install on change-speed gear box, sticks up thick stick II and is close to change-speed gear box one end and be provided with semiellipse shape gear, and then corresponds on change-speed gear box and be provided with meshing gear, semiellipse shape gear can with meshing gear to thereby drive meshing gear rotation and give change-speed.

Further, preferably, a fulcrum is arranged below the tilting rod I.

Further, preferably, the tilting rod I further comprises a pulling spring, the pulling spring is further installed on the lower side or the upper side of the semi-elliptic gear of the tilting lever II, and the other end of the pulling spring is fixed on the speed change gear box, so that the tilting rod I can reset and tilt again.

Further, it is preferred, still include inertia extension shaft subassembly, change gear box is connected with generating set through inertia extension shaft subassembly, inertia extension shaft subassembly includes the extension shaft of being connected with the change gear box output, the transmission gear wheel is installed to the other one end of extension shaft, generating set includes the generator, generator shaft end installs generating set extension shaft, generating set extension shaft is last to install can with the transmission gear wheel engaged with drive pinion gear.

Further, it is preferred that water receiving tank I passes through water hammer circulation pipeline and water storage tank intercommunication, install the water hammer pump on the water hammer circulation pipeline, the water hammer pump surplus water receiving pipe who communicates with water receiving tank II is installed to the water hammer pump below, the surplus water of water hammer pump flows into in the water receiving tank II through water hammer pump surplus water receiving pipe.

Further, preferably, a baffle plate cover is arranged on the upper surface of the middle position of the weighting lever, and a rolling inertia iron ball is arranged in the baffle plate cover.

Further, preferably, an inertia wheel is further attached to the extension shaft.

Further, it is preferable that the extension shaft passes through a bearing on the bracket.

Further, preferably, still include water receiving tank II, still install one or more float valve power supply touching water pump in the water receiving tank II incasement, the circulating water that the float valve power supply touched the water pump is with pipeline and water storage tank 1 intercommunication.

Further, preferably, the edge of the water tank I is provided with a drain pipe I for preventing outward diffusion, and the drain pipe I is communicated with the water tank II.

The invention has the beneficial effects that: the lever is combined with the gravity principle, and the design of the lever assembly and the automatic weighting water discharging barrel is adopted, so that the force is applied to one end of the tilting rod through the gravity and inertia of water flow, the automatic weighting water discharging barrel and the like, and the semi-elliptic gear at the other end of the tilting rod easily drives the meshing gear to rotate, thereby achieving the purposes of energy storage and power generation. The problem of current new forms of energy receive the environmental impact and the new forms of energy equipment operation self is power consumptive big is solved to realize energy-conserving, the purpose of environmental protection, can reduce the loss that self power consumption is big, the electric quantity of outside transport is great, and simple structure, the volume is not big, the reliability is better etc..

Drawings

Fig. 1 is a first structural schematic diagram of the lever gravity self-pressurizing power generation equipment of the invention.

Fig. 2 is a schematic structural diagram of a lever gravity self-pressurizing power generation device according to the present invention.

FIG. 3 is a schematic structural diagram of a seesaw assembly at one side of a speed-change gear box of the lever gravity self-pressurizing type power generation equipment of the present invention engaging with an engaging gear on the speed-change gear box.

FIG. 4 is a schematic view of an installation structure of an inertia extension shaft assembly and a generator set of the lever gravity self-pressurizing power generation device.

FIG. 5 is a partial structural view of an automatic water charging and discharging bucket of the lever gravity self-pressurizing type power generation equipment of the present invention.

Fig. 6 is a schematic structural view of a small water storage tank provided in the water storage tank of the lever gravity self-pressurizing type power generation equipment of the present invention.

Fig. 7 is a schematic view of a push switch structure of the lever gravity self-pressurizing power generation equipment of the present invention.

In the upper diagram: 1-water storage tank, 101-water discharge hose I, 102-push type switch I, 103-water discharge touch cross rod I, 104-water discharge touch vertical rod I, 105-small water storage tank, 106-water inlet float valve switch;

1021-a switch; 1022-spring, 1023-lengthening compression bar, 1024-fixed spring frame, 1025-up and down movable fulcrum, 1026-lifting bar, 1027-semi-circular ball valve;

2-a water receiving tank I, 201-a water hammer circulation pipeline, 202-a water hammer pump, 203-a water discharging touch vertical rod II, 204-a water discharging pipe I, 205-a water hammer pump residual water receiving pipe;

3-automatic water adding and replaying bucket, 301-bucket body, 302-push type switch II, 303-water discharging touch cross rod II, 304-water discharging hose II, 305-pressure rod, 306-movable joint;

401-weighting lever, 402-supporting point, 403-weighting weight and 404-inertia iron ball; 405-a baffle housing;

5-a water receiving tank II, 501-a pipeline for circulating water, 502-a water discharging pipe II, 503-a floating valve power supply touch water pump;

6-tilting rod component 601-tilting rod I, 602-tilting rod II, 603-fulcrum, 604-tilting rod mounting fixed shaft, 605-pulling spring, 606-semi-elliptic gear;

701-change gear box, 702-change gear group, 7021-meshing gear;

8-inertia extension shaft assembly, 801-extension shaft, 802-inertia wheel, 803-bracket, 804-bearing, 805-transmission big gear and 806-transmission small gear;

9-generating set, 901-generator, 902-generating set extension shaft.

Detailed Description

In order to make the technical problems and technical solutions solved by the present invention more clearly apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the description of the present invention, it is to be understood that the terms "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, are merely for convenience of description of the present invention, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.

As shown in fig. 1 to 7, a lever gravity self-pressurizing power generation device includes a generator set 9, the generator set 9 includes a generator 901 and a generator set extension shaft 902, the generator 901 is connected to the generator set extension shaft 902 through a rotation shaft, the structure is a common means of the existing power generation device, of course, a plurality of long shafts may be connected to the generator 901 through rotation shafts, and the above structure is the existing structure.

The water storage tank 1 is of an open-top tank structure, is of a square structure in the embodiment, and can be of other shapes, such as a barrel shape and the like, which are all within the technical scheme of the invention, a certain amount of liquid is pre-stored in the water storage tank 1 in advance, the liquid adopted by the invention can be natural water, diluent oil, antifreeze diluent and the like, and is determined according to the local environment, and in the embodiment, the inventor prefers water to be the power medium.

A small water storage tank 105 is installed at a middle position inside the water storage tank 1, the small water storage tank 105 has an independent space, the small water storage tank 105 partitions water inside the water storage tank 1, and the height of the top side of the small water storage tank 105 needs to be as high as or exceed the height of the top side of the water storage tank 1, thereby preventing the water stored in the water storage tank 1 from overflowing into the small water storage tank 105 from the high position of the top side of the small water storage tank 105.

One or more float valve switches 106 are installed on the inner wall of the middle and lower part of the small water storage tank 105, the float valve switch 106 is the prior art, if the float valve switch 106 is widely used in the flushing barrel of the toilet, the speed of the automatic loading and unloading water barrel 3 is determined by the number of the float valve switches 106 installed, the float of the float valve switch 106 is installed in the small water storage tank 105, the water stored in the water storage tank 1 enters the small water storage tank 105 through the float valve switch 106, namely, the small water storage tank 105 supplies water to the small water storage tank through the float valve switch 106, thereby realizing the control of the downward flow.

The small water storage tank 105 is internally provided with a press type switch I102, the upper surface of the press type switch I102 is correspondingly provided with a water discharging touch cross rod I103 which can rotate and press the press type switch I102, the middle part of the water discharging touch cross rod I103 is hinged at the side of the water storage tank 1, or a hinged support rod can be independently arranged, the water discharging touch cross rod I103 can press the press type switch I102 through up-and-down swinging, meanwhile, the water discharging touch cross rod I103 can also rotate left and right, the press type switch I102 can control the small water storage tank 105 to open and close water discharging, therefore, the rotation water discharging touch cross rod I103 can realize the starting and closing of the whole lever gravity self-pressurization type power generation equipment, when the water discharging touch cross rod I103 is rotated and moved away in practical use, the whole equipment is in a stop state, when the stored water potential energy needs to be converted into electric energy, only the water discharging touch cross, the equipment begins to drain water, and the upper and lower jacking prying of the warping lever drives the elliptic gear to move in an arc shape back and forth through the gravity and inertia of water, so that other speed change gears and the like rotate, and the purpose of energy conversion is realized.

The bottom of the press switch I102 in the small water storage tank 105 is communicated with a water discharge hose I101, and the water discharge hose I101 is preferably a high-pressure hose capable of being contracted and bent, which is required to be capable of matching with the up and down lifting of the automatic loading and unloading water bucket 3 and is also a passage for water in the small water storage tank 105 to the automatic loading and unloading water bucket 3.

The side wall of the water storage tank 1 is provided with a drain pipe II502 for preventing the water storage tank from having excessive water, the water storage tank 1 is prevented from being filled, and the drain pipe II502 is communicated with the water receiving tank II 5.

The automatic water adding and replaying barrel 3 is arranged below the water storage tank 1, only one group of automatic water adding and replaying barrels 3 is arranged in the embodiment, of course, 2 groups can be arranged according to the specific implementation situation, and a plurality of groups can be arranged according to the size of the generator, and the automatic water adding and replaying barrel 3 is included in the protection scope of the invention.

The automatic adding and replaying water barrel 3 comprises a barrel body 301, a water outlet of a water discharging hose 101 extends into the barrel body 301, certainly, the water outlet of the water discharging hose 101 can not extend into the barrel body 301, the water outlet of the water discharging hose 101 is opposite to an opening of the barrel body 301, but liquid is easy to splash out of the barrel body 301 during water discharging, and the automatic adding and replaying water barrel is equivalent to the technical scheme of the invention and is included in the protection scope of the invention; the barrel body 301 is vertically provided with a water discharging touch vertical rod I104, and the water discharging touch vertical rod I104 can move up and down along with the automatic water charging and discharging water bucket 3 and can be pressed to discharge water to touch the cross rod I103.

A push switch II302 is also installed in the barrel 301, and the push switch II302 has the same structure and performance as the push switch I102 in the small water storage tank 105 of the water storage tank 1. Most of the internal structures of the push switch I102 and the push switch II302 are the same as the prior art, and the push switch I and the push switch II are widely used in a toilet bowl flushing barrel.

As shown in fig. 7, a schematic structural diagram of the push switch I102 and the push switch II302 includes a switch 1021, a spring 1022 installed below the switch 1021, the spring 1022 installed on a fixed spring frame 1024, a lengthened pressure bar 1023, an upper movable fulcrum 1025, a lower movable fulcrum 1025, a lifting bar 1026, etc., which all have the existing structure, and the structure and performance thereof are the prior art, wherein the lengthened pressure bar 1023 is lengthened, and the flat valve is designed as a semi-circular ball valve 1027, so that the large resistance of the push switch when pressed downwards and the resistance of the push switch return valve are reduced.

Install the touching horizontal pole II303 that turns on water that can push down push type switch II302 on staving 301 mouth, the touching horizontal pole II303 that turns on water can be followed staving 301 edge and moved from top to bottom, it articulates at staving 301 edge to turn on water touching horizontal pole II303 middle part promptly, its theory of operation and mechanism are similar with the foretell touching horizontal pole I103 that turns on water, thereby realize pushing down push type switch II302, the corresponding push type switch II 302's of staving 301 bottom discharge outlet department installs the hose II304 that turns on water, the hose II304 hose delivery port that turns on water is connected with water receiving tank I2 case.

The barrel body 301 is also provided with a movable joint 306, the barrel body 301 is rotated or hinged with a weighting lever 401 through the movable joint 306, the preferable movable joint 306 is arranged at the upper edge of the barrel body 301, the structure of the movable joint can be that the end of the weighting lever 401 is provided with a shaft hole with two holes, the barrel body 301 is connected together by a round shaft clamp to form the movable joint 306, and other structures for realizing hinged or rotary connection can be also adopted, such as a hinge and the like; the former has the advantages that the barrel body 301 is always kept vertically downward, water in the barrel does not incline and seep outward, and when the barrel sinks, the small pressing plate of the movable joint 306 of the weight lever 401 presses the edge of the barrel body, so that the barrel body is fixed and stressed downward.

Certainly, further, the hose 101 that drains is connected with staving 301 through the connecting rod, guarantees staving 301 up-and-down motion, also can set up the slider at staving 301 outer wall, and the corresponding slide rail that is provided with vertical direction, and the slide rail motion can be followed to the slider to guarantee staving 301 up-and-down motion's stability, and staving 301 has better impetus, and staving 301 can not rock or slope about. Whether the technical scheme is adopted in the implementation process or not is a further technical scheme of the technical scheme, and the implementation of the technical scheme is not influenced.

One end of the weighting lever 401 is connected with the barrel body 301, the other end of the weighting lever 401 is provided with a weighting weight 403, the center of the weighting lever 401 is erected on a supporting point 402, a simple lever design is achieved, the upper surface of the middle of the weighting lever 401 is provided with a baffle cover 405, and a rolling inertia iron ball 404 is arranged in the baffle cover 405.

The weight of the inertia iron ball 404 must be the weight of the weight 403 capable of tilting the inertia iron ball 404, the automatic loading and replaying water barrel 3 (empty barrel) and the accessories connected with the inertia iron ball, and the weight of the weight capable of tilting the weight and the iron ball after the automatic loading and replaying water barrel 3 is filled with water. To determine the weight of the inertial iron ball 404. The moving space of the inertia iron ball 404 on the lever takes the fulcrum of the lever as a central point, and the length of the lever between the baffle plate of the blocking ball and the baffle plate can not exceed 1/3 of the total length of the lever to install the baffle plate. A semicircular cover is arranged above the space between the baffle plate and the baffle plate, the cover covers the inertia iron balls between the baffle plate and between the cover and the lever to prevent the inertia iron balls from falling off, and the inertia iron balls 404 mainly have two functions, namely, acceleration of the falling speed and increase of the force by means of inertia.

The water discharging hose II304 at the bottom of the automatic water adding and replaying bucket 3 is communicated with the water receiving tank I2, the water discharging touch vertical rod II203 is installed on the upper surface of the water receiving tank I2, when the automatic water adding and replaying bucket 3 descends, the water discharging touch vertical rod II203 can upwards jack the water discharging touch horizontal rod II303, the water discharging touch horizontal rod II303 realizes pressing down a press type switch II302 by utilizing the lever principle, the automatic water adding and replaying bucket 3 starts to discharge water, and water can enter the water receiving tank I2 along with the water discharging hose II 304.

One or more water hammer pumps 202 are further installed at the outer bottom of the water receiving tank I2, water is conveyed to the water storage tank 1 in a circulating mode without power consumption through a water hammer circulating pipeline 201, meanwhile, an anti-overflow drain pipe I204 is installed at a position 10 cm away from an edge opening of the water receiving tank I2, the main purpose of the anti-overflow drain pipe I204 is to prevent the water in the water receiving tank I2 from being too full and seeping outwards everywhere, and the drain pipe I204 is communicated with the water receiving tank II 5.

The preferred design of water receiving tank II5, below the water hammer pump 202 of water receiving tank I2, because there is surplus water in the use of water hammer pump 202, this moment the surplus water of water hammer pump 202 can flow into water receiving tank II5 through water hammer pump surplus water receiving pipe 205.

The water receiving tank II5 mainly has a buffer function, but can also be designed as a water pool, one or more float valve power supply touch water pumps 503 are also arranged in the water receiving tank II5, and circulating water of the float valve power supply touch water pumps 503 is connected with a water inlet at the position of 10 cm below the edge opening of the water storage tank 1 by a pipeline 501. When the water in the water receiving tank II5 reaches a certain height, the float valve floats upwards and is connected with the power switch water pump to start pumping water. When water is pumped to a certain degree, the water quantity is reduced, the float valve sinks, the power supply is separated, and water pumping is stopped. The water receiving tank II5 is preferably provided with a plurality of floating valve power supply touch water pumps with different heights. Therefore, the water receiving tank can be kept normal, the operation of circulating water is influenced due to faults, and redundant time is reserved for later-period maintenance.

The bottom of the barrel body 301 of the automatic loading and playback water barrel 3 is also provided with a pressure rod 305, the pressure rod 305 can lift along with the automatic loading and playback water barrel 3, namely, move up and down, a tilting rod assembly 6 is correspondingly arranged below the pressure rod 305, the tilting rod assembly 6 comprises a tilting rod I601 which is arranged below the pressure rod 305, one end of the tilting rod I601 is arranged below the pressure rod 305, a fulcrum 603 is arranged near the other end, the pressure rod 305 can press down the tilting rod I601, so that the other end of the tilting rod I601 tilts, a tilting rod II602 is correspondingly arranged above the tilting rod I601, namely, a tilting rod II602 is correspondingly arranged above the end of the tilting rod I601 near the fulcrum 603, the tilting rod I601 tilts upwards and presses the tilting rod II602 upwards, the tilting rod I601 resets and tilts again after the lifting of the pressure rod 305 upwards, and the eccentric design of the fulcrum of the tilting rod I601 adopted here ensures that the tilting rod I601 can reset and tilt again, namely, and the tilting rod I601 keeps a state that the tilting rod I601 is high left and the, certainly, the structure of additionally installing a tension spring and the like can be adopted, for example, the tension spring is additionally installed on the lower side of the end, away from the pressure rod 305, of the tilting rod I601, so that the tilting rod I601 is kept in a state of being high on the left and low on the right, and the tilting rod I601 can be tilted through a weight lump, which all shall be included in the protection scope of the present invention.

The tilting bar II602 is mounted on the change speed gear box 701 through a tilting bar mounting fixing shaft 604, namely, a mounting hole is formed in the outer wall of the change speed gear box 701, and the tilting bar II602 can be rotatably mounted through the tilting bar mounting fixing shaft 604; of course, the tilting lever II602 may also extend into the speed change gear box 701, an installation hole is formed in the inner wall of the speed change gear box 701, and the tilting lever II602 can be rotatably installed through the tilting lever installation fixing shaft 604.

The shape design of the tilting rod can be designed according to the design condition, and various types of tilting rods can be designed only in a labor-saving way, for example, the tilting rods are designed into a T shape, so that a plurality of groups of automatic water bucket discharging devices can be used, and the technical knowledge in the field is common.

A semi-elliptical gear 606 is arranged at one end of the tilting bar II602 close to the speed change gear box 701, a meshing gear 7021 is correspondingly arranged on the speed change gear box 701, the tilting bar II602 is designed, namely, the meshing gear 7021 can be correspondingly arranged at the input end of the speed change gear box 701, namely, the meshing gear 7021 is arranged at the input end of the outer speed change gear box 701, the semi-elliptical gear 606 can be meshed with the meshing gear 7021 and drives the meshing gear 7021 to rotate, the meshing gear 7021 can drive the speed change gear set 702 arranged in the speed change gear box 701 to rotate, and the rotation is transmitted to the lengthening shaft 801 of the inertia lengthening shaft assembly 8 through the speed change of the large gear and the small gear; it is also possible to design the tilting bar II602 to extend into the change speed gear box 701, the meshing gear 7021 is designed in the change speed gear box 701, and the meshing gear 7021 can drive the change speed gear set 702 arranged in the change speed gear box 701 to rotate.

The lifting spring 605 is further installed on the lower side of the semi-elliptical gear 606 of the seesaw bar II602, the other end of the lifting spring 605 is fixed on the speed change gear box 701, the lifting spring 605 mainly aims to enable the seesaw bar II602 to keep a seesaw state and return to the original position after being tilted by the seesaw bar I601, that is, when the seesaw bar I601 tilts upwards and presses the left end of the seesaw bar II602, and the lifting spring 605 arranged on the lower side of the semi-elliptical gear 606 is compressed and deformed after the right end of the seesaw bar II602 moves downwards, and after the seesaw bar I601 returns to the original position, the restoring force of the lifting spring 605 enables the seesaw bar II602 to return to the original position, and of course, the lifting spring 605 can also be installed on the upper side of the semi-elliptical gear 606, and can also achieve the technical effects that the seesaw bar II.

Of course, the other technical scheme can be adopted, namely the semi-elliptic gear 606 is not needed, the prior art can be directly adopted, for example, a pressure handle which can be contracted up and down and can rotate is a household mop, the mop is a dewatering mop, the mop is placed into a special rotatable dewatering barrel, and the mop can start to spin and dewater by pressing the lower part of the mop with the hand downwards, so that the mop can be separated from water quickly. The upper handle of the mop is connected with the warping rod II602 (the semielliptical gear 606 is removed), the warping rod II602 and the upper end of the mop are welded together (the angle is 90 degrees), the lower end of the mop is welded with the gear, the speed change gear box is horizontally arranged, the gear runs in parallel, one end welded with the mop gear is meshed with the speed change gear box meshing gear 7021, and the rest parts are unchanged.

The output end of the speed change gear box 701 is connected with an extension shaft 801, the extension shaft 801 penetrates through a bearing 804 on a support 803, an inertia wheel 802 is fixedly connected to the extension shaft 801, a transmission large gear 805 is installed at the end of the extension shaft 801, and the transmission large gear 805 is in meshing transmission with a transmission small gear 806 installed on a generator set extension shaft 902 of a generator set 9, so that the generator 901 is driven to work.

The equipment work flow is as follows: when the water discharge touch cross rod I103 is installed or moved back to the working position, namely the push switch I102 is pressed downwards, the water storage tank 1 starts to discharge water, the water in the water storage tank 1 flows into the automatic loading and playback water barrel 3 below through the water discharge hose I101, the automatic loading and playback water barrel 3 moves downwards due to the increase of the inflow water amount, the pressure rod 305 at the bottom of the barrel body 301 of the automatic loading and playback water barrel 3 presses the tilting left end of the tilting rod I601 downwards, the right end of the tilting rod I601 tilts upwards, the end can press the left end of the tilting rod II602 upwards to cause the right end of the tilting rod II602 to rotate downwards, the semi-elliptic gear 606 arranged at the end drives the meshing gear 7021 to rotate and transmits the rotation to the lengthening shaft 801 of the inertia lengthening shaft assembly 8 through the speed change of the large and small gears, thereby driving the generator 901 to work, when the automatic loading and playback water barrel 3 moves downwards to a certain position, the water discharge touch II203 can press the water discharge vertical rod to touch the, the automatic water adding and replaying bucket 3 starts to drain water, water can enter the water receiving tank I2 along the water draining hose II304, due to the design of the weighting lever 401 and the weighting weight 403, the water quantity of the automatic water adding and replaying bucket 3 is reduced and the automatic water adding and replaying bucket starts to rise, the tilting rod I601 and the tilting rod II602 reset, when the automatic water adding and replaying bucket 3 rises to a certain height, the water draining touch vertical rod I104 moves upwards along with the automatic water adding and replaying bucket 3, the water draining touch horizontal rod I103 is jacked again, and therefore through the design of the lever assembly and the automatic water adding and replaying bucket, force is applied to one end of the tilting rod through the gravity and inertia of the water flow, the semi-elliptic gear at the other end of the tilting rod drives the meshing gear to rotate easily, and the purposes of energy storage and power.

The present invention has been described in detail with reference to the specific and preferred embodiments, but it should be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and any modifications, equivalents and the like, which are within the spirit and principle of the present invention, should be included in the scope of the present invention.

Claims (10)

1. A lever gravity self-pressurization type power generation equipment comprises a power generation unit (9), and is characterized in that: the water storage tank is characterized by further comprising a water storage tank (1), a small water storage tank (105) is arranged in the water storage tank (1), a plurality of water inlet float valve switches (106) capable of enabling water stored in the water storage tank (1) to flow into the small water storage tank (105) are installed on the wall of the small water storage tank (105), a pressing switch I (102) is installed in the small water storage tank (105), a water discharging touch cross rod I (103) capable of rotating and pressing the pressing switch I (102) is correspondingly arranged on the pressing switch I (102), and a water discharging hose I (101) is communicated with the bottom of the pressing switch I (102) of the small water storage tank (105);

an automatic water adding and replaying bucket (3) is arranged below the water storage tank (1), the automatic water adding and replaying bucket (3) comprises a bucket body (301), a water outlet of the water draining hose I (101) extends into the bucket body (301), a water draining touch vertical rod I (104) is vertically arranged on the bucket body (301), and the water draining touch vertical rod I (104) can move up and down along with the automatic water adding and replaying bucket (3) to jack and press the water draining touch horizontal rod I (103);

a push switch II (302) is also arranged in the barrel body (301), and a water discharging touch cross rod II (303) capable of pressing the push switch II (302) downwards is rotatably arranged on the opening of the barrel body (301); a water discharge hose II (304) is communicated with the bottom of the barrel body (301) corresponding to the bottom of the push type switch II (302), and the water discharge hose II (304) is communicated with a water receiving tank I (2);

the barrel body (301) is further provided with a movable joint (306), the barrel body (301) is rotated or hinged with a weighting lever (401) through the movable joint (306), the other end of the barrel body is provided with a weighting weight (403), and the weighting lever (401) is erected on a supporting point (402);

the water discharging touch vertical rod II (203) is arranged on the upper surface of the water receiving tank I (2), and when the automatic water adding and replaying water bucket (3) descends, the water discharging touch vertical rod II (203) can upwards press and discharge the water discharging touch horizontal rod II (303);

the pressure rod (305) is further installed at the bottom of the barrel body (301), the tilting rod component (6) is correspondingly installed below the pressure rod (305), the tilting rod component (6) comprises a tilting rod I (601) located below the pressure rod (305), the pressure rod (305) can press down the tilting rod I (601), the other end of the tilting rod I (601) tilts, a tilting rod II (602) is correspondingly arranged above the tilting rod I (601), and the tilting rod I (601) can reset and tilt again after the pressure rod (305) rises upwards; stick up thick stick II (602) and rotate through sticking up pole installation fixed axle (604) and install on change speed gear (701), stick up thick stick II (602) and be provided with semiellipse gear (606) near change speed gear (701) one end, and then correspond on change speed gear (701) and be provided with meshing gear (7021), semiellipse gear (606) can mesh with meshing gear (7021), thereby drive meshing gear (7021) and rotate and transmit power for change speed gear (701), change speed gear (701) drive generating set (9).

2. The lever gravity self-pressurizing power generation device as claimed in claim 1, wherein: a fulcrum (603) is arranged below the tilting rod I (601).

3. A lever gravity self-pressurizing power generation apparatus as claimed in claim 1 or 2, wherein: the tilting rod I (601) can reset and tilt again by further comprising a pulling spring (605), wherein the pulling spring (605) is further installed on the lower side or the upper side of the semi-elliptic gear (606) of the tilting rod II (602), and the other end of the pulling spring (605) is fixed on the speed change gear box (701).

4. The lever gravity self-pressurizing power generation device as claimed in claim 1, wherein: still include inertia extension shaft subassembly (8), change speed gear box (701) are connected with generating set (9) through inertia extension shaft subassembly (8), inertia extension shaft subassembly (8) are including lengthening axle (801) of being connected with change speed gear box (701) output, transmission gear wheel (805) are installed to the other one end of lengthening axle (801), generating set (9) are including generator (901), generating set extension axle (902) are installed to generator (901) pivot end, generating set extension axle (902) are gone up to install and are can be with transmission gear wheel (805) engaged drive pinion (806).

5. The lever gravity self-pressurizing power generation device as claimed in claim 1, wherein: water receiving tank I (2) is through water hammer circulating line (201) and water storage tank (1) intercommunication, install water hammer pump (202) on water hammer circulating line (201), water hammer pump surplus water receiving pipe (205) with water receiving tank II (5) intercommunication is installed to water hammer pump (202) below, the surplus water of water hammer pump (202) flows in water receiving tank II (5) through water hammer pump surplus water receiving pipe (205).

6. The lever gravity self-pressurizing power generation device as claimed in claim 1, wherein: a baffle plate cover (405) is arranged on the upper surface of the middle part of the weighting lever (401), and a rolling inertia iron ball (404) is arranged in the baffle plate cover (405).

7. The lever gravity self-pressurizing power generation device as claimed in claim 4, wherein: an inertia wheel (802) is also arranged on the lengthened shaft (801).

8. The lever gravity self-pressurizing power generation device as claimed in claim 4 or 7, wherein: the lengthened shaft (801) penetrates through a bearing (804) on the support (803).

9. The lever gravity self-pressurizing power generation device as claimed in claim 1, wherein: the water storage tank is characterized by further comprising a water receiving tank II (5), one or more floating valve power supply touch water pumps (503) are further installed in the water receiving tank II (5), and circulating water of the floating valve power supply touch water pumps (503) is communicated with the water storage tank 1 through a pipeline (501).

10. The lever gravity self-pressurizing power generation device as claimed in claim 9, wherein: the edge opening of the water receiving tank I (2) is provided with an outward-diffusion-proof drain pipe I (204), and the drain pipe I (204) is communicated with the water receiving tank II (5).

Images