CN207377705U - With the device of buoyancy output power - Google Patents

Abstract

The utility model discloses a kind of devices with buoyancy output power, equipped with high liquid level fluid reservoir and low liquid level fluid reservoir, the first gate is equipped between two fluid reservoirs, the second gate is equipped in low liquid level fluid reservoir, equipped with buoyancy tank, buoyancy tank is equipped with air bleeding valve and liquid feed valve, the driven member that can be pulled by buoyancy tank is equipped in high liquid level fluid reservoir, driven member is equipped with tractive unit, during buoyancy tank floats to liquid level from the bottom of high liquid level fluid reservoir, buoyancy tank can withstand tractive unit upwards, so as to by tractive unit driven member be pulled to move up.The utility model has the advantages that generating power using buoyancy, burning fuel is not required, is conducive to environmental protection.

Description

With the device of buoyancy output power

Technical field

The utility model is related to the technology of power is generated using liquid buoyancy.

Background technology

Existing power output device is mostly by burning fuel, and there are certain environmental pollutions.

Utility model content

The purpose of this utility model is to provide a kind of device with buoyancy output power, and this method is not required to burning fuel, has Beneficial to environmental protection.

The utility model is realized in this way：The device of power is exported with buoyancy, if there are two fluid reservoir, two fluid reservoirs Respectively high liquid level fluid reservoir and low liquid level fluid reservoir, the liquid level of the liquid of high liquid level fluid reservoir storage are stored up higher than low liquid level The liquid level of the liquid of liquid chamber storage；

In the bottom of two fluid reservoirs, the first gate is set between two fluid reservoirs, when the first gate is opened, two The fluid connection of fluid reservoir, when the first closing gate, the liquid partition of two fluid reservoirs；

The upper end of two fluid reservoirs is open, and the second gate is equipped in low liquid level fluid reservoir, can when the second closing gate By the open closing in the upper end of low liquid level fluid reservoir；

Equipped with buoyancy tank, buoyancy tank is equipped with air bleeding valve and liquid feed valve, when the air bleeding valve and liquid feed valve are in opening state, and floats When case is fallen in the indoor liquid of low liquid level liquid storage, liquid can enter buoyancy tank via the liquid feed valve, be inoculated with the buoyancy tank of liquid and can sink Enter to the bottom of low liquid level fluid reservoir；

The first moving mechanism is equipped in the bottom of low liquid level fluid reservoir, is accepted by the first moving mechanism and sinks to low liquid level storage The buoyancy tank of liquid chamber bottom, and buoyancy tank movement is driven by the first moving mechanism, buoyancy tank is made to be moved to by the first gate opened The bottom of high liquid level fluid reservoir；

Be equipped with the air inlet pipe docked with buoyancy tank and drain pipe in the bottom of high liquid level fluid reservoir, air inlet pipe and drain pipe with One end of buoyancy tank docking is connected with self-sealing pipe joint, the other end and atmosphere of air inlet pipe, and the other end of drain pipe connects Low liquid level fluid reservoir is passed to, connection is there are two self-sealing pipe joint on buoyancy tank, in the bottom of high liquid level fluid reservoir equipped with pipe Road docking mechanism, pipeline docking mechanism are connected with the self-sealing pipe joint of air inlet pipe and drain pipe, by pipeline docking mechanism band The self-sealing pipe joint movement of dynamic air inlet pipe and drain pipe makes self-sealing pipe joint and the buoyancy tank of air inlet pipe and drain pipe Two self-sealing pipe joint docking and separation；

Equipped with the second moving mechanism and derricking gear, the second moving mechanism is connected with derricking gear, and the second moving mechanism can Derricking gear is driven to travel to and fro between the top of high liquid level fluid reservoir and the top of low liquid level fluid reservoir, derricking gear, which is connected with, to be lifted The hanging mechanisms of buoyancy tank；

The driven member that can be pulled by buoyancy tank is equipped in high liquid level fluid reservoir, driven member is equipped with tractive unit, in buoyancy tank from height During the bottom of liquid level fluid reservoir floats to liquid level, buoyancy tank can withstand tractive unit upwards, so as to by tractive unit pull from Moving part moves up.

As one of which embodiment, buoyancy tank locking mechanism, buoyancy tank locking are equipped in the bottom of the high liquid level fluid reservoir The buoyancy tank can be fixed and discharged in mechanism.

As one of which embodiment, the buoyancy tank locking mechanism is electromagnet.

As one of which embodiment, the hanging mechanisms are electromagnet.

As one of which embodiment, the drain pipe is in series with infusion pump.

As one of which embodiment, elevating mechanism is equipped in the bottom of the high liquid level fluid reservoir, elevating mechanism can incite somebody to action The buoyancy tank is elevated to higher than the indoor liquid level of low liquid level liquid storage.

As one of which embodiment, the driven member is the chain in a chain sprocket mechanism, and the tractive unit connects It is connected on chain, at least one sprocket wheel is connected with power output shaft in chain sprocket mechanism, and power output shaft extend out to institute It states outside high liquid level fluid reservoir, is rotated by chain wheel drive power output shaft.

As one of which embodiment, the driven member is the rod piece of a setting, and the tractive unit is connected on rod piece, Rod piece is connected with a runner, using the rod piece moved up runner is driven to rotate, runner is connected with power output shaft, by runner Power output shaft is driven to rotate.

The utility model has the advantages that generating power using buoyancy, burning fuel is not required, is conducive to environmental protection.

Description of the drawings

Fig. 1 is a kind of structure diagram of the utility model device；

Fig. 2 to Fig. 9 is the action process schematic diagram of Fig. 1 shown devices；

Figure 10 is the schematic diagram of another embodiment of chain sprocket mechanism；

Figure 11 is the schematic diagram with guide rail constraint buoyancy tank；

Figure 12 is another structure diagram of the utility model device.

Specific embodiment

For the ease of understanding the utility model, the utility model is described more fully with reference to the accompanying drawings.Attached drawing In give the better embodiment of the utility model.But the utility model can be realized in many different forms, and It is not limited to embodiments described herein.The purpose of providing these embodiments is that make the disclosure reason to the utility model The more thorough and comprehensive of solution.

It should be noted that when an element is considered as " connection " another element, it can be directly to separately One element may be simultaneously present centering elements.Term as used herein "left", "right" and similar statement are For illustrative purposes." first " described in the utility model, " second " do not represent specific quantity and order, are used only for title Differentiation.

With the device of buoyancy output power as shown in Figure 1, setting there are two fluid reservoir, two fluid reservoirs are respectively high liquid level storage Liquid chamber 2 and low liquid level fluid reservoir 3.The liquid level for the liquid 4 that high liquid level fluid reservoir 2 is stored is stored higher than low liquid level fluid reservoir 3 Liquid 5 liquid level.The liquid 4,5 is same liquid, can be but not limited to water.In two fluid reservoirs 2,3 First gate 6 is set between bottom, and when the first gate 6 is opened, the liquid 4,5 of two fluid reservoirs 2,3 connects, when the first gate During 6 closing, the liquid 4,5 of two fluid reservoirs 2,3 separates.The upper end of two fluid reservoirs 2,3 is open.In low liquid level fluid reservoir 3 Equipped with the second gate 7.It, can be by the open closing in the upper end of low liquid level fluid reservoir 3 when the second gate 7 is closed.

Equipped with buoyancy tank 8, buoyancy tank 8 is equipped with air bleeding valve 12 and liquid feed valve 13, when air bleeding valve 12 and liquid feed valve 13 are in open shape State, and when buoyancy tank 8 is fallen in the liquid 5 in low liquid level fluid reservoir 3, liquid can enter buoyancy tank 8 via liquid feed valve 13.It is inoculated with liquid The buoyancy tank 8 of body can sink to the bottom of low liquid level fluid reservoir 3.Existing machinery touching may be employed in air bleeding valve 12 and liquid feed valve 13 Formula valve or electric-controlled type valve.If using mechanical touching formula valve, it can set and use in the bottom of low liquid level fluid reservoir 3 In the convex block of touching valve.After buoyancy tank 8 sinks to the bottom of low liquid level fluid reservoir 3, the convex block just with air bleeding valve 12 and into Liquid valve 13 touches, so that air bleeding valve 12 and liquid feed valve 13 are opened.When air bleeding valve 12 and liquid feed valve 13 with the movement of buoyancy tank 8 and After leaving convex block, air bleeding valve 12 and liquid feed valve 13 are automatically closed under the action of therein spring.If air bleeding valve 12 and into Liquid valve 13 uses electric-controlled type valve, then position sensor may be employed to monitor the position of buoyancy tank 8, when buoyancy tank 8 sinks to low liquid level Behind the bottom of fluid reservoir 3, by electric signal air bleeding valve 12 and liquid feed valve 13 is controlled to open, when buoyancy tank 8 leaves low liquid level fluid reservoir 3 Afterwards, by electric signal air bleeding valve 12 and liquid feed valve 13 is controlled to close.

The first moving mechanism 14 is equipped in the bottom of low liquid level fluid reservoir 3, is sunk to by the undertaking of the first moving mechanism 14 low The buoyancy tank 8 of 3 bottom of liquid level fluid reservoir, and by the first moving mechanism 14 buoyancy tank 8 is driven to move, make buoyancy tank 8 through opening the One gate 6 is moved to the bottom of high liquid level fluid reservoir 2.First moving mechanism 14 may be employed but be not limited to leading screw and nut mechanism or Person's rack and pinion mechanism.

The air inlet pipe 17 docked with buoyancy tank 8 and drain pipe 18 are equipped in the bottom of high liquid level fluid reservoir 2.Air inlet pipe 17 and row One end docked with buoyancy tank 8 of liquid pipe 18 is connected to self-sealing pipe joint 19,20.The other end and air of air inlet pipe 17 Connection.The other end of drain pipe 18 is connected to low liquid level fluid reservoir 3.Infusion pump 21 is in series in drain pipe 18.On buoyancy tank 8 There are two self-sealing pipe joints 15,16 for connection.The self-sealing pipe joint may be employed commercially available finished product or using with floating Air bleeding valve 12 and 13 mutually isostructural valve of liquid feed valve on case 8 control in a manner that Mechanical course or electric signal control The closing and unlatching of connector.

Pipeline docking mechanism 22 is equipped in the bottom of high liquid level fluid reservoir 2.Pipeline docking mechanism 22 and air inlet pipe 17 and row The self-sealing pipe joint 19,20 of liquid pipe 18 connects.The self-styled of air inlet pipe 17 and drain pipe 18 is driven by pipeline docking mechanism 22 Formula pipe joint 19,20 is moved, make two of the self-sealing pipe joint 19,20 of air inlet pipe 17 and drain pipe 18 and buoyancy tank 8 from Envelope formula pipe joint 15,16 is docked and separation.Pipeline docking mechanism 22 may be employed but be not limited to leading screw and nut mechanism or tooth Take turns rackwork.

Equipped with the second moving mechanism 23 and derricking gear 24, the second moving mechanism 23 is connected with derricking gear 24, and second moves Motivation structure 23 can drive derricking gear 24 to travel to and fro between the top of high liquid level fluid reservoir 2 and the top of low liquid level fluid reservoir 3, lifting machine The lifting rope of structure 24 is connected with the hanging mechanisms 25 that can lift buoyancy tank 8.Second moving mechanism 23 may be employed but be not limited to screw spiral shell Parent agency or rack and pinion mechanism.Derricking gear 24 may be employed but be not limited to hoist engine.Second moving mechanism 23 and lifting Mechanism 24, hanging mechanisms 25 can also be combined into a kind of combined member, such as manipulator.Hanging mechanisms 25 can be used but be not limited to Electromagnet.If buoyancy tank 8 do not have magnetic conductivity, can on buoyancy tank 8 magnetizers such as fixed iron piece.

The chain sprocket mechanism being made of chain 9 and sprocket wheel 10 is equipped in high liquid level fluid reservoir 2.Using chain 9 as can The driven member pulled by buoyancy tank 8.Chain 9 is equipped with tractive unit 26.In buoyancy tank 8 liquid level is floated to from the bottom of high liquid level fluid reservoir 2 During, buoyancy tank 8 can withstand tractive unit 26 upwards, so as to pull chain 9 by tractive unit 26, by chain 9 with movable sprocket 10 It rotates.The shaft 11 extending out to outside high liquid level fluid reservoir 2 is connected on sprocket wheel 10, using the shaft 11 as power output shaft 11.Can also connect power output shaft 11 respectively on multiple sprocket wheels 10 in chain sprocket mechanism.

It elaborates below in conjunction with the accompanying drawings to the operation principle of Fig. 1 shown devices.As shown in Fig. 2, it is closed in the first gate 6 The second gate 7 is opened in the state of closing, buoyancy tank is put into the liquid 5 of low liquid level fluid reservoir 3, at this time the air bleeding valve 12 of buoyancy tank 8 Opening state is in liquid feed valve 13.After buoyancy tank 8 falls into liquid, liquid 5 enters buoyancy tank 8 by liquid feed valve 13, fills buoyancy tank 8 Full liquid.The buoyancy tank 8 for filling liquid sinks to the bottom of low liquid level fluid reservoir 3, and is accepted by the first moving mechanism 14.Then As shown in figure 3, opening the first gate 6 in the state of the closing of the second gate 7, buoyancy tank 8 is made to be moved to high liquid by the first gate 6 The bottom of position fluid reservoir 2.Then as shown in Fig. 4 to Fig. 5, in the state of the closing of the first gate 6, by 22 band of pipeline docking mechanism Two self-sealing pipe joints 15,16 of the self-sealing pipe joint 19,20 of dynamic air inlet pipe 17 and drain pipe 18 towards buoyancy tank 8 move It is dynamic, make two self-sealing pipe joints 15,16 of the self-sealing pipe joint 19,20 of air inlet pipe 17 and drain pipe 18 and buoyancy tank 8 Docking.Then as shown in fig. 6, opening infusion pump 21, the liquid in buoyancy tank 8 is drawn back to low liquid level fluid reservoir 3, meanwhile, air Enter buoyancy tank 8 through air inlet pipe 17.After the Liquid extracting in buoyancy tank 8, infusion pump 21 is closed, by 22 band of pipeline docking mechanism The movement of self-sealing pipe joint 19,20 of dynamic air inlet pipe 17 and drain pipe 18 resets, and makes the self-styled of air inlet pipe 17 and drain pipe 18 Formula pipe joint 19,20 is separated with two self-sealing pipe joints 15,16 of buoyancy tank 8.Then as shown in fig. 7, buoyancy tank 8 is in liquid Buoyancy float downward to liquid level.During buoyancy tank 8 floats, buoyancy tank 8 withstands tractive unit 26 upwards, passes through tractive unit 26 Chain 9 is pulled, is rotated by chain 9 with movable sprocket 10, by sprocket wheel 10 power output shaft 11 is driven to rotate, realizes power output.It connects It as shown in Fig. 7 to Fig. 8, by the second moving mechanism 23 derricking gear 24 is driven to be moved to the top of high liquid level fluid reservoir 2, lifted by crane Mechanism 24 is lifted buoyancy tank 8 using lifting rope and hanging mechanisms 25.Then as shown in figure 9, driving lifting by the second moving mechanism 23 Mechanism 24 is moved to the top of low liquid level fluid reservoir 3.During from Fig. 7 to Fig. 9, the second gate 7 can be open Can close.Then as shown in Fig. 2, being again turned on the second gate 7, buoyancy tank 8 is hung in by low liquid by derricking gear 24 again In liquid 5 in the fluid reservoir 3 of position.Hereafter the continuous circulating repetition above process makes buoyancy tank 8 be cycled between two fluid reservoirs 2,3 Movement exports power from power output shaft 11.In order to realize the continuous rotation of shaft 11, can in shaft 11 Flywheel, profit With the inertia of flywheel shaft 11 is made persistently to rotate.

In order to allow tractive unit 26 that can return to the bottom of high liquid level fluid reservoir 2, as shown in Figure 1, connecting in the end of chain 9 It is connected to counterweight 27.After buoyancy tank 8 leaves high liquid level fluid reservoir 2 as shown in Figure 9, chain 9 is pulled by counterweight 27, makes tractive unit 26 Back to the bottom of high liquid level fluid reservoir 2.Chain sprocket mechanism can also use the structure of chain shown in Fig. 10 Xun Huan walking, Multiple tractive units 26 are connected on chain 9.When one of tractive unit 26 is by buoyancy tank top to top, another tractive unit 26 is firm It is located at the bottom of high liquid level fluid reservoir 2 well, the arrival to meet buoyancy tank next time is ready.

In order to which power output shaft 11 is allowed only to be rotated towards single direction, can be installed between power output shaft 11 and sprocket wheel 10 single To bearing.Only when the buoyancy tank 8 that chain 9 is floated upwards pulls, sprocket wheel 10 just drives power output shaft 11 to rotate, and works as chain 9 when moving in the opposite direction, and sprocket wheel 10 dallies on power output shaft 11.

Power output shaft 11 can be connected directly between on sprocket wheel 10, can also be connected between power output shaft 11 and sprocket wheel 10 Gear shift is connect, sprocket wheel 10 drives power output shaft 11 to rotate by gear shift.

As a kind of embodiment, can not also must connect infusion pump 21 in drain pipe 18, but in high liquid level liquid storage The bottom of room 2 sets elevating mechanism, and elevating mechanism can elevate buoyancy tank 8 to higher than the liquid level in low liquid level fluid reservoir 3.This Sample in the case of no infusion pump 21, also can make the liquid in buoyancy tank 8 flow back to low liquid level fluid reservoir 3 by gravity.It rises Descending mechanism may be employed but be not limited to leading screw and nut mechanism or rack and pinion mechanism.

As preferred forms, can buoyancy tank locking mechanism be set in the bottom of high liquid level fluid reservoir 2.When buoyancy tank 8 with into When tracheae 17 and drain pipe 18 dock, buoyancy tank 8 is fixed by buoyancy tank locking mechanism, is finished when the liquid in buoyancy tank 8 flows out, And after buoyancy tank 8 is separated with air inlet pipe 17 and drain pipe 18, buoyancy tank 8 is discharged by buoyancy tank locking mechanism.Buoyancy tank locking mechanism can be with Using electromagnet.If buoyancy tank 8 do not have magnetic conductivity, can on buoyancy tank 8 magnetizers such as fixed iron piece.

In order to ensure that buoyancy tank can accurately reach precalculated position in lifting process, guide rail 28 may be employed to constrain buoyancy tank Movement locus.Figure 11 is a kind of embodiment that buoyancy tank coordinates with guide rail 28.In terms of the overlook direction of buoyancy tank 8, four of buoyancy tank 8 Angle carries recess, and four guide rails 28 are located in four recesses respectively, plays the role of constraining 8 movement locus of buoyancy tank.It is seen in Figure 11 To track 28 be track cross section.

The utility model device can also use structure shown in Figure 12 in addition to using structure shown in Fig. 1.Structure shown in Figure 12 Essentially identical with structure shown in Fig. 1, what the label identical with Fig. 1 in Figure 12 represented is the identical parts of function, structure.Figure 12 eliminate chain sprocket mechanism with the difference is that only for Fig. 1, using the rod piece 29 of a setting as can be pulled by buoyancy tank 8 Driven member.Tractive unit 26 is connected on rod piece 29.Rod piece 29 is connected with a runner 30.Using mobile rod piece 29 with turn Wheel 30 rotates.Runner 30 connects power output shaft 11, by runner 30 power output shaft 11 is driven to rotate, so as to fulfill the defeated of power Go out.There are many connection modes of rod piece 29 and runner 30, for example, rod piece 29 pressed against runner 30, rod piece 29 passes through frictional force band Turn wheel 30 rotates, alternatively, rod piece 29 is made rack, runner 30 is made and the rack meshed gears, composition rack-and-pinion Mechanism or, rod piece 29 and runner 30 are connected into slider-crank mechanism, runner 30 is used as crank, and rod piece 29 is as driving The sliding block that crank rotates.The structure and operating principle of other parts in Figure 12 are identical with Fig. 1 shown devices, repeat no more.

Embodiment described above only expresses the several embodiments of the utility model, and description is more specific and detailed, But therefore it can not be interpreted as the limitation to utility model patent scope.For those of ordinary skill in the art, exist On the premise of not departing from the utility model design, various modifications and improvements can be made, these belong to the utility model Protection domain.The protection domain of the utility model patent should be determined by the appended claims.

Claims (8)

1. the device of power is exported with buoyancy, it is characterized in that：

If there are two fluid reservoirs, two fluid reservoirs are respectively high liquid level fluid reservoir and low liquid level fluid reservoir, and high liquid level fluid reservoir is deposited The liquid level for the liquid put is higher than the liquid level of the liquid of low liquid level fluid reservoir storage；

In the bottom of two fluid reservoirs, the first gate is set between two fluid reservoirs, when the first gate is opened, two liquid storages The fluid connection of room, when the first closing gate, the liquid partition of two fluid reservoirs；

The upper end of two fluid reservoirs is open, and the second gate is equipped in low liquid level fluid reservoir, can will be low when the second closing gate The open closing in the upper end of liquid level fluid reservoir；

Equipped with buoyancy tank, buoyancy tank is equipped with air bleeding valve and liquid feed valve, and when the air bleeding valve and liquid feed valve are in opening state, and buoyancy tank falls During into the indoor liquid of low liquid level liquid storage, liquid can enter buoyancy tank via the liquid feed valve, be inoculated with the buoyancy tank of liquid and can sink to The bottom of low liquid level fluid reservoir；

The first moving mechanism is equipped in the bottom of low liquid level fluid reservoir, is accepted by the first moving mechanism and sinks to low liquid level fluid reservoir The buoyancy tank of bottom, and buoyancy tank movement is driven by the first moving mechanism, buoyancy tank is made to be moved to high liquid by the first gate opened The bottom of position fluid reservoir；

Be equipped with the air inlet pipe docked with buoyancy tank and drain pipe in the bottom of high liquid level fluid reservoir, air inlet pipe and drain pipe and buoyancy tank One end of docking is connected with self-sealing pipe joint, the other end and atmosphere of air inlet pipe, and the other end of drain pipe is connected to Low liquid level fluid reservoir, connection is there are two self-sealing pipe joint on buoyancy tank, in the bottom of high liquid level fluid reservoir equipped with pipeline pair Connection mechanism, pipeline docking mechanism are connected with the self-sealing pipe joint of air inlet pipe and drain pipe, by pipeline docking mechanism drive into The self-sealing pipe joint movement of tracheae and drain pipe, make air inlet pipe and drain pipe self-sealing pipe joint and two of buoyancy tank Self-sealing pipe joint is docked and separation；

Equipped with the second moving mechanism and derricking gear, the second moving mechanism is connected with derricking gear, and the second moving mechanism can drive Derricking gear travels to and fro between the top of high liquid level fluid reservoir and the top of low liquid level fluid reservoir, and derricking gear, which is connected with, can lift buoyancy tank Hanging mechanisms；

The driven member that can be pulled by buoyancy tank is equipped in high liquid level fluid reservoir, driven member is equipped with tractive unit, in buoyancy tank from high liquid level During the bottom of fluid reservoir floats to liquid level, buoyancy tank can withstand tractive unit upwards, so as to pull driven member by tractive unit It moves up.

2. the device of power is exported with buoyancy as described in claim 1, it is characterized in that：In the bottom of the high liquid level fluid reservoir Equipped with buoyancy tank locking mechanism, the buoyancy tank can be fixed and discharged to buoyancy tank locking mechanism.

3. the device of power is exported with buoyancy as claimed in claim 2, it is characterized in that：The buoyancy tank locking mechanism is electromagnetism Iron.

4. the device of power is exported with buoyancy as described in claim 1, it is characterized in that：The hanging mechanisms are electromagnet.

5. the device of power is exported with buoyancy as described in claim 1, it is characterized in that：The drain pipe is in series with infusion pump.

6. the device of power is exported with buoyancy as described in claim 1, it is characterized in that：In the bottom of the high liquid level fluid reservoir Equipped with elevating mechanism, elevating mechanism can elevate the buoyancy tank to higher than the indoor liquid level of low liquid level liquid storage.

7. the device of power is exported with buoyancy as described in claim 1, it is characterized in that：The driven member is a chain sprocket Chain in mechanism, the tractive unit are connected on chain, and the connection of at least one sprocket wheel is dynamic in chain sprocket mechanism Output shaft, power output shaft are extend out to outside the high liquid level fluid reservoir, are rotated by chain wheel drive power output shaft.

8. the device of power is exported with buoyancy as described in claim 1, it is characterized in that：The driven member is the bar of a setting Part, the tractive unit are connected on rod piece, and rod piece is connected with a runner, using the rod piece moved up runner are driven to rotate, Runner is connected with power output shaft, is rotated by runner driving power output shaft.