CN107605673A - Electricity generation system - Google Patents
Electricity generation system Download PDFInfo
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- CN107605673A CN107605673A CN201610542143.4A CN201610542143A CN107605673A CN 107605673 A CN107605673 A CN 107605673A CN 201610542143 A CN201610542143 A CN 201610542143A CN 107605673 A CN107605673 A CN 107605673A
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Abstract
The present invention, which discloses a kind of electricity generation system, to be included:Transmission device, transportation, the first moving member, the first magnetic force component and the first TRT.Transportation has accommodation space to carry material.Transmission device connection transportation part and the first moving member.First moving member is provided with the first magnetic force component, and the first moving member can load and unload weight change caused by material by transportation, be moved back and forth corresponding between the first height and the second height.First TRT is arranged on the path of motion of the first moving member, can be acted on the first magnetic force component interaction and be produced electric energy.Whereby, transportation can make the first TRT produce electric energy while material is loaded and unloaded, so as to reach the effect of environmental protection generates electricity.
Description
Technical field
The present invention relates to a kind of electricity generation system, more particularly to a kind of environment-friendly power generation system.
Background technology
In the world of modern civilization, electricity is the indispensable energy, as long as arround human lives, it is required for passing through electricity
Come the development for increasing the convenience of life or promoting industry, therefore, electric acquirement is very important.The generation of electricity at present
It is to be obtained by nuclear energy power generation and thermal power generation, but the row such as nuke rubbish and carbon dioxide can be produced due to such generating
Put, the injury for environment has a certain impact, so, the renewable energy generating system of wind-force, waterpower and solar energy gradually by
To attention.
However, the renewable sources of energy are taken from the resource of the Nature, source is obtained compared with can not be controlled by artificial, it is more unstable,
And the equipment cost of the current renewable sources of energy is higher, it still can not popularize and substitute traditional electricity generation system.Therefore, the present inventor is
Concentrate on studies and coordinate the utilization of scientific principle, and propose the present invention that is a kind of reasonable in design and being effectively improved above mentioned problem.
The content of the invention
It is a primary object of the present invention to provide a kind of electricity generation system, by transportation during material is loaded and unloaded because weight
Amount changes and moved, and produces electric energy whereby, and is the environment-friendly power generation system of low cost.
To achieve these goals, the present invention provides a kind of electricity generation system, and the electricity generation system includes:One transmission device,
One transportation, one first moving member and one first TRT.Transportation is connected to transmission device, and transportation has an accommodating sky
Between to carry material.First moving member is provided with one first magnetic force component, and the first moving member is connected to transmission device, and with transport
Part interlocks, and the first moving member loads and unloads weight change caused by material by transportation, in one first moving position and one second
Moved back and forth between moving position.First TRT is arranged on the path of motion of the first moving member, and first generates electricity
Device can act on the first magnetic force component interaction and produce electric energy.Wherein, transportation loads material in a loading position, is unloaded in one
Discharge position removal material, when transportation is located at loading position, the first moving member is located at the first moving position;When transportation is located at
During discharge position, the first moving member is located at the second moving position.
Preferably, the loading position is higher than the discharge position, when the transportation is located at the loading position, first movement
Part is located at first moving position;When the transportation is located at the discharge position, first moving member is located at second activity bit
Put.
Preferably, the electricity generation system also includes:One second moving member and one second TRT.Second moving member is set
There is one second magnetic force component, second moving member is connected to the transmission device, and second moving member loads and unloads thing by the transportation
Weight change caused by material, moved back and forth corresponding between one the 3rd moving position and one the 4th moving position.Second
TRT is located on the path of motion that second moving member moves back and forth, and second TRT can be with second magnetic
Power component interaction acts on and produces electric energy.
Preferably, the transmission device includes a power wheel, and the power wheel is connected with the transportation and first moving member,
The power wheel produces electric energy when the transportation and first moving member move back and forth respectively.
Preferably, the electricity generation system also includes:One drawing mechanism and a loading device.Drawing mechanism is used to fill material
It is filled in the accommodation space of the transportation.Loading device is used for the material for accepting the transportation institute removal.Wherein, the discharging fills
Put the distance with the reference plane for being more than the loading device with the distance of a reference plane.
Preferably, the electricity generation system also includes:One loop back device, including an at least hydraulic system, the loop back device are used
The drawing mechanism is transported to the material for being carried the loading device.
Preferably, first TRT and second TRT include a coil and a pipeline respectively, respectively the line
Set respectively around the pipeline corresponding to it, and form one first induction channels and one second induction channels respectively, this first
Pass through first induction channels and second sense on the path of motion that moving member and second moving member move back and forth respectively
Answer passage.
Preferably, the electricity generation system also includes:One hangs down again, is connected to first moving member;Wherein, the heavy vertical and fortune
Defeated part can provide the power of opposite direction to first moving member, so that first moving member can move back and forth.
Preferably, the electricity generation system also includes:One elastic component, it is connected to first moving member;Wherein, the elastic component with
The transportation can provide the power of opposite direction to first moving member, so that first moving member can move back and forth.
Preferably, first moving member is a coaster.
To achieve these goals, the present invention also provides a kind of electricity generation system, and the electricity generation system includes:One transmission dress
Put, a transportation, a moving member and one first TRT.Transportation is connected to transmission device, and transportation has an accommodating sky
Between to carry material, transportation is provided with one first magnetic force component.Moving member is connected to transmission device, and is interlocked with transportation,
Moving member loads and unloads weight change caused by material by transportation, between one first moving position and one second moving position
Move back and forth.First TRT is located on the path of motion of transportation, and the first TRT can be with the first magnetic force group
Part reciprocation and produce electric energy.Wherein, transportation loads material in a loading position, in a discharge position removal material, when
When transportation is located at loading position, moving member is located at the first moving position, and when transportation is located at discharge position, moving member is located at
Second moving position.
Preferably, the electricity generation system also includes:One second TRT, on the path of motion of the moving member, and
Second TRT can act on one second magnetic force component interaction being arranged on the moving member and produce electric energy.
Preferably, the electricity generation system also includes:One drawing mechanism and a loading device.Drawing mechanism is used to fill material
It is filled in the accommodation space of the transportation.Loading device is used for the material for accepting the transportation institute removal.Wherein, the discharging fills
Put and be more than the loading device and the distance of the reference plane with the distance of a reference plane.
Preferably, the electricity generation system also includes:One loop back device, the loop back device include an at least hydraulic system,
The loop back device is transported to the drawing mechanism to the material for being carried the loading device.
To achieve these goals, the present invention also provides a kind of electricity generation system, and the electricity generation system includes a transportation, tool
There is an accommodation space to carry material, and a height displacement is produced with the weight change of removal material by loading;And one
TRT, there is an at least magnetic force component, electricity generation system to be driven by the transportation and produce electric energy.
Beneficial effects of the present invention can be:The energy needed for magnetic force component is moved very due to the weight using material
It is low, and do not influenceed by weather environment, therefore this electricity generation system can use as the environment-friendly and green energy, there is provided stable and clean electricity
Energy.
For the enabled feature and technology contents for also further appreciating that the present invention, refer to below in connection with the present invention specifically
Bright and accompanying drawing, but institute's accompanying drawings are only provided and used with reference to explanation, are not used for the present invention person of being any limitation as.
Brief description of the drawings
Figure 1A~1F, 2 for the present invention electricity generation system first embodiment schematic diagram.
Fig. 3~4 are the schematic diagram of the second embodiment of the electricity generation system of the present invention.
Fig. 5 is the schematic diagram of the 3rd embodiment of the electricity generation system of the present invention.
Fig. 6 is the schematic diagram of the fourth embodiment of the electricity generation system of the present invention.
Fig. 7 is the schematic diagram of the 5th embodiment of the electricity generation system of the present invention.
Fig. 8~11 are the illustrative view of the feeding back device of the sixth embodiment of the present invention.
Embodiment
The electricity generation system of the present invention mainly includes transportation and TRT, TRT include an at least magnetic force component and
Corresponding coil, wherein transportation produce height displacement by loading with the weight change of removal material, and TRT is by transporting
The mobile of defeated part is used as power resources, drives the relative motion of magnetic force component and coil whereby to produce electric energy.Magnetic force component can
To be arranged at according to design requirement in transportation or its path of motion, electric energy is produced with the movement with transportation.In addition, generate electricity
One moving member interlocked with transportation can also be set in system, and magnetic force component is then arranged on moving member or is arranged on movement
On the path of motion of part.In other words, magnetic force component can be moved by carrier with the movement of transportation, whereby with line
Enclose reciprocation and produce electric energy.The electricity generating principle of TRT is to be converted into power institute work with electromagnetic induction principle
The device of electric energy, it is not added with repeating herein.
[first embodiment]
Figure 1A is referred to, Figure 1A is the schematic diagram of the first embodiment of the electricity generation system of the present invention.As illustrated, the system that generates electricity
System 1 includes a transportation 10, one first moving member 20, one first magnetic force component 30, one first TRT 40 and a transmission
Device D.Transportation 10 has been internally formed an accommodation space (not shown) to take up material.Transportation 10 is divided with the first moving member 20
It is not connected with transmission device D, and transportation 10 can be interlocked each other with the first moving member 20 by transmission device D.The
One magnetic force component 30 is arranged at the first moving member 20, and the first TRT 40 is arranged on the path of motion of the first moving member 20.
Electricity generation system 1 can be by carrying out material filling to transportation 10 or unloading divided by change the weight of transportation 10, when transportation 10
Weight when being more than the first moving member 20, transportation 10, which can be held, to be made to move down and drives the first moving member by transmission device D
20 move up;When the weight of transportation 10 is less than the first moving member 20, the first moving member 20 just starts to move down, transport
Part 10 is drawn and moved up by transmission device D.In other words, transportation 10 can be because weight caused by material filling or removal
Amount changes and produces a height displacement.
It is worth noting that, first moving member 20 of the present embodiment can be used as the carrier of the first magnetic force component 30 or
Single component is integrated into the first magnetic force component 30.In an alternative embodiment of the invention, the first moving member 20 itself also can be one
Magnetic force component is to be generated electricity.
Acted by material filling repeatedly, electricity generation system 1 can make the first moving member 20 in the first moving position L21
Move back and forth, be arranged on the first moving member 20 between (the second height H2) and the second moving position L22 (the first height H1)
First magnetic force component 30 is then according to this with the reciprocation of the first TRT 40 to produce electric energy.Transportation 10 is in a loading position
L11 loads material, in a discharge position L12 removal materials, has height between wherein loading position L11 and discharge position L12
Difference.For example, loading position L11 height (third height H3) is higher than discharge position L12 height (the 4th height H4).Institute
It can be ground or any plane to state reference plane G.
In practical application, the bottom of transportation 10 can be provided with a Dump gate 101, hold to optionally removal
Material between being empty.Dump gate 101 can be different according to Demand Design structure, the present embodiment is unrestricted.First generates electricity
Device 40 can include a coil 401, and coil 401 can be surround a pipeline 402 and be correspondingly formed one first induction channels
C1, and can be by the first induction channels C1 on the path of motion that the first moving member 20 moves back and forth.
Furthermore, it is understood that the weight of empty transportation 10 (not loading material) adds the first magnetic force less than the first moving member 20
The weight of component 30, and the overall weight for filling up the transportation 10 of material can add the first magnetic force more than the first moving member 20
The weight of component 30.Above-mentioned material is, for example, metal ball block, native stone or is available for the dead weight cargo etc. carried, this implementation not limiter
Expect material and shape.In addition, electricity generation system 1 can set chocking construction (not shown), transportation 10 is set to rest on filling
Position L11 or discharge position L12 is to carry out the filling of material and removal.After material filling or removal is completed, electricity generation system 1 can
To discharge chocking construction, transportation 10 is set to be interlocked with the first moving member 20, the first magnetic force component 30 will be with the first hair whereby
The reciprocation of electric installation 40 and produce electric energy.First magnetic force component 30 and the first TRT 40 are the originals exchanged using magnetic energy
Reason, the present embodiment do not limit its structure.
It is noted that in preferable embodiment, it can be the detector (not illustrating) by additionally setting, sentence
The real time position of disconnected first moving member 20 and transportation 10, corresponds to control transportation 10 progress material filling according to this or material unloads
Remove.For example, when detecting transportation 10 and being located at loading position L11, the filling of material can be carried out;When detecting transportation 10
During positioned at discharge position L12, the removal of material can be carried out.
Furthermore it is noted that the transmission device D can be a rope and several pulley assemblies as shown in Figure 1A
Formed, but be not limited to this, as shown in Figure 1B, transmission device D2 can also be oil sector, and transportation 10 and first is moved
Moving part 20 can be interlocked each other by oil sector, i.e. transportation 10 to the oil sector move when, first moving member 20 then to
Direction away from oil sector is moved, and vice versa.Utilize the drive mechanisms such as the assembly pulley in transmission device or oil hydraulic system
Design, thus it is possible to vary force direction, the load weight driven and displacement etc..For example, movable pulley system is utilized
It can utilize and drive the first moving member 20 of higher weight compared with the transportation 10 of low weight or less weight of material.Therefore,
In above-mentioned Figure 1A, the weight relationships between the moving member 20 of transportation 10 and first can be filled from move mode by different transmissions
The design put adjusts, and Figure 1A transmission device D is only one of them of embodiments of the invention, and the present invention is not only restricted to this.
As shown in Figure 1 C, in another embodiment, transmission device D3 can include assembly pulley and a taper structure, transportation 10 and
First moving member 20 is respectively arranged at the both sides of taper structure, and the moving member 20 of transportation 10 and first is connected by assembly pulley
Connect, whereby, the moving member 20 of transportation 10 and first can be by weight relationships each other, and are slided corresponding on taper structure
It is dynamic;Certainly, in actual applications, taper structure can correspond to the moving member 20 of transportation 10 and first and be provided with track, in
This is not any limitation as.Wherein, the set location of the first TRT 40a and drawing mechanism in figure, only a demonstration mode, not with
This is limited.
As shown in figure iD, in other implementations, transmission device D4 can also be the structure of similar seesaw, transport
The moving member 20 of part 10 and first can be the both ends for being respectively arranged at seesaw, relatively, drawing mechanism and the first TRT
The both ends that 40b also corresponds to neighbouring seesaw are set.
As described above, in practical application, the type of transmission device can be selected according to demand, and transportation 10 and
The path of motion of first moving member 20, then it can correspond to vertically to move, oblique movement or arc movement etc..Via upper
State bright, those skilled in the art should can deduce the other embodiment mode of transmission device, will not be repeated here.
In an alternative embodiment of the invention, the other end of the first moving member 20 can connect again vertical or spring to provide and transport
The power of the defeated opposite direction of part 10 is changed by the power of two opposite directions and the weight of transportation 10 to the first moving member 20,
The first moving member 20 is set to be moved back and forth among a path of motion.Vertical or spring can substitute the weight of aforementioned embodiments again
Power, and force direction can be changed for example, by the mechanism such as rope and pulley, make the first moving member 20 in non-vertical direction
It is mobile, such as moved on horizontal direction or slope, and TRT 40 can be equipped with its path of motion to carry out
Generate electricity.The force application mechanisms such as above-mentioned heavy vertical or spring are only a kind of embodiment of the present invention, and those skilled in the art are via above-mentioned reality
Other embodiment mode should can be deduced by applying the exposure of example, will not be repeated here.
In another embodiment of the invention, the first moving member 20 can by the conversion of force direction, and in plane or
Moved back and forth on slope.For example, Fig. 1 E and Fig. 1 F are refer to, the both ends of the first moving member 20 can be connected respectively
Transportation 10 and 70 (or the elastic components 80) that hang down again, transportation 10 and 70 (or the elastic components 80) that hang down again can provide the power of opposite direction extremely
First moving member 20, the first moving member 20 can be made to move back and forth whereby.In preferable application, the first moving member 20 can be with
It is coaster, the elastic component 80 can be with spring.On transmission device D5, D6 and aforementioned drive device shown in Fig. 1 E and Fig. 1 F
It is similar, repeated no more in this.
Referring to Fig. 2, electricity generation system 1 ' can also include one second moving member 21, one second magnetic force component 31 and one
Two TRTs 41, and it is connection fortune that electricity generation system 1 ', which can be corresponded to two transmission devices D, one of transmission device D,
The defeated moving member 20 of part 10 and first, and another transmission device D is then the moving member 21 of connection transportation part 10 and second.Second magnetic force group
Part 31 is arranged on the second moving member 21.Second TRT 41 includes a coil 411 and a pipeline 412, the ring of coil 411
Set around the pipeline 412 and be correspondingly formed one second induction channels C2, and the path of motion of the second moving member 21 passes through second
Second induction channels C2 of TRT 41.
First moving member 20 and the second moving member 21 transported piece 10 can drive simultaneously and carry out the movement of repeatedly.Its
In the first moving member 20 for example above-mentioned embodiment of move mode explanation, will not be repeated here.Second moving member 21 can pass through fortune
Defeated part 10 loads and unloads weight change caused by material, corresponding to the 3rd moving position L31 (the second moving member 21 and reference plane G away from
From the 4th height H4 ' position) with the 4th moving position L32 (the second moving member 21 and third height H3 ' with a distance from reference plane G
Position) between move back and forth, wherein third height H3 ' is more than the 4th height H4 '.Back and forth transported in the second moving member 21
While dynamic, the second magnetic force component 31 can with the reciprocation of the second TRT 41 and produce electric energy.Therefore, transportation 10 is in dress
During unloading material, electric energy can be produced by the first TRT 40 and the second TRT 41 simultaneously.From the foregoing,
Electricity generation system 1 ' can produce multiple electric energy by setting multigroup moving member, and its structure can be deduced by Fig. 2, no longer tired herein
State.
Special instruction, transportation 10, the first moving member 20 and the second moving member 21, can foundations in practical application
Demand Design is vertically lower upper movement, can also be against specific wall or along certain tracks, and is obliquely moved.Separately
Outside, in not bad practice, transmission device D pulley assembly can be provided with a power wheel (figure does not indicate), make according to this
, can be again when transportation 10, the first moving member 20 and the second moving member 21 are mutually interlocked to move back and forth by transmission device D
Extra electric energy is produced by power wheel.
[second embodiment]
Magnetic force component in the embodiment of the present invention can be selectively set in transportation 10 or on moving member 20, and the dress that generates electricity
Put, to being arranged on the path of motion of transportation 10 or moving member 20, or both sides set the structure of generating to be sent out to increase simultaneously
Electrical efficiency.
Referring to Fig. 3, its second embodiment for the electricity generation system of the present invention.As illustrated, electricity generation system 2 can be bag
A transportation 10, a moving member 20, one first magnetic force component 30, one first TRT 40 and a transmission device D are included.With it is preceding
State embodiment maximum difference to be, the first magnetic force component 30 can be disposed in transportation 10, and the first TRT
40 can be correspondingly arranged on the path of motion of transportation 10.Electricity generation system 2 can be by carrying out material dress to transportation 10
Fill out or unload divided by change its weight, can be with when transportation 10 is more than moving member 20 plus the weight of the first magnetic force component 30
Moving member 20 is driven to move up by transmission device D;When transportation 10 is less than movement plus the weight of the first magnetic force component 30
During part 20, it can move down by transmission device D moving member 20.
Acted by material filling repeatedly, electricity generation system 2 can make moving member 20 in the height of the first height H1 and second
Moved back and forth between H2, and transportation 10 is moved back and forth between a third height H3 and one the 4th height H4, be arranged at fortune
The first magnetic force component 30 on defeated part 10 is then according to this with the reciprocation of the first TRT 40 to produce electric energy.Transportation 10 is in one
Loading position L11 loads material, mobile when transportation 10 is located at loading position L11 in a discharge position L12 removal materials
The reference plane G of part 20 and one distance definition is the second height H2.When transportation 10 is located at discharge position L12, moving member 20 with
Reference plane G distance definition is the first height H1, wherein the first height H1 is more than the second height H2;Third height H3 is more than the 4th
Height H4.
Refer to Fig. 4, in other practice, electricity generation system 2 ' can also include one second magnetic force component 31 and
One second TRT 41.Second magnetic force component 31 is arranged on moving member 20.Second TRT 41 is arranged at moving member 20
Path of motion on.Wherein, the second TRT 41 can include a coil 411 and a pipeline 412, and coil 411 can be surround
Pipeline 412 is set, and is correspondingly formed one second induction channels C2.
Acted whereby by material filling repeatedly, electricity generation system 2 ' can be such that transportation 10 and moving member 20 carries out respectively
Move back and forth, and when transportation 10 and moving member 20 move back and forth, correspond to pass through the first induction channels C1 and second respectively
Induction channels C2, and the first magnetic force component 30 being arranged in transportation 10 will according to this with the reciprocation of the first TRT 40 with
Electric energy is produced, the second magnetic force component 31 being arranged on moving member 20 will produce with the reciprocation of the second TRT 41 according to this
Electric energy.In this way, while transportation 10 loads and unloads material, can be by the first TRT 40 and the second TRT 41 simultaneously
Produce electric energy.
[3rd embodiment]
Referring to Fig. 5, Fig. 5 is the schematic diagram of the 3rd embodiment of electricity generation system of the present invention.As illustrated, electricity generation system 3
Including:One transportation 10, one first moving member 20, one first magnetic force component 30, one first TRT 40, one second, which generate electricity, to be filled
Put 41, one loading device 50, a drawing mechanism 60, a loop back device A, a touch device B and a transmission device D.On transport
The related start of part 10, the first moving member 20, the first TRT 40, the second TRT 41 and a transmission device D is closed, and please be joined
Previous embodiment is read, is repeated no more in this, in the present embodiment, mainly it is illustrated that, electricity generation system 3 can be by holding
Expect that device 50 accepts the material of 10 removals of transportation, and the material that will be carried by loop back device A in loading device 50, return
Drawing mechanism 60 is delivered to, and is again recharged material into transportation 10 by drawing mechanism 60, a start is formed according to this and follows
Ring.In practical application, at least some that the loop back device A carries out energy used in loopback operation comes from additionally
The external force of input, it is to be understood that the external force can be electric power or other natural forces, such as, but not limited to come from eminence
The gravity of material, it is of course possible to which understanding, the external force can also be mechanical force, such as, but not limited to artificial to carry.In addition, return
The start number relation of device A start number and the moving member 20 of transportation 10 and first is sent to be changed according to demand, example
Such as can be the moving member 20 of transportation 10 and first per start twice or after specific times, loop back device A just carries out single secondary
Start.Wherein, the discharging control and the discharging of transportation 10 control of drawing mechanism 60, can be detected by touch device B
The position of transportation 10 is reached.
Furthermore, it is understood that loading device 50 includes a material collecting tank 501, material collecting tank 501 is corresponding to be located at the first TRT
40 lower section, to accept the material of 10 removals of transportation.In preferably embodiment, material collecting tank 501 can include one
Dump gate 5011, Dump gate 5011 are optionally opened, and the bottom in material collecting tank 501 can be obliquely (by remote
Position from Dump gate 5011 tilts to the direction of Dump gate 5011);Whereby, when Dump gate 5011 is opened, positioned at the material collecting tank
At least one of material in 501 can be by gravity traction, and is moved to the direction of Dump gate 5011, and then passes through the Dump gate
5011 outside removals.Wherein, the material collecting tank 501 shown in the present embodiment figure and the pattern of Dump gate 5011 are only wherein one demonstration
Mode, practical application are not limited to the embodiment shown in figure.
Loop back device A can be that neighbouring loading device 50 is set, to assist the thing that will be carried in the material collecting tank 501
Material, is shipped back drawing mechanism 60.It on loop back device A in practical application, can be selected according to demand, such as can be logical
Cross a hydraulic system (aftermentioned embodiment will be explained in) or can be by several pulley gears etc., seldom limited in this
System.Drawing mechanism 60 can load several material (not shown), and drawing mechanism 60 can optionally discharge it and be carried at least
The material of a part.Drawing mechanism 60, which includes, to be put hopper 61 and is arranged at a discharging opening 62 for putting the bottom of hopper 61, is put
Hopper 61 is to house material, and discharging opening 62 is provided with discharge door 621, and discharge door 621 then corresponds to the position of transportation 10
Set.In practical application, the inwall of hopper 61 is preferably put, can be oblique, and makes to be arranged at and puts in hopper 61
Material, can be by gravity traction when discharge door 621 is opened, and is moved naturally to discharge door 621.Wherein, discharge door 621
Opening and closing time, and its institute's residence time is opened each time, it can design according to actual demand, be seldom any limitation as in this.Separately
Outside, putting in hopper 61 can have to prevent feed blocking in the mechanism or relevant design of discharging opening 62, for example, such as material
For solid, then rabbling mechanism can be set in putting in hopper 61.
Touch device B can be adjacent to the TRT 40 of transportation 10 or first to set.Touch device B is sensing
The position of transportation 10, with different according to the position where transportation 10, and correspond to the discharge door 621 for controlling discharging opening 62 and be somebody's turn to do
The keying of the Dump gate 101 of transportation 10.Touch device B can be to multiple described by a control device in practical application
Dump gate, discharge door are controlled.
Specifically, when touch device B sensings are positioned at the transportation 10 of the lower section of discharging opening 62, during neighbouring discharging opening 62, touch
Dynamic device B opens corresponding control the discharge door 621 of drawing mechanism 60;And when touch device B senses the transportation 10 positioned at remote
When separating out the position of material mouth 62 (that is, being adjacent to loading device 50), touch device B opens corresponding control the discharging of transportation 10
Door 101, and enable the material removal that the transportation 10 is carried it into the material collecting tank 501 of loading device 50.Should in reality
It in, touch device B induction mode, quantity and its set location, can be selected according to demand, not add to limit in this
System, for example, single individual touch device B can be disposed on drawing mechanism 60 and be filled with the discharging opening 62 corresponding first generating
Between putting 40 one end, and touch device B can be by way of ultrared sensing, measure touch device B and transportation
10 distance, the position of transportation 10 is judged according to this;Or can also be that there are two shake-up in other example
Device B, two touch device B are respectively arranged at discharging opening 62 between one end of the first TRT 40 corresponding to it, and
Between first TRT 40 and loading device 50, and when transportation 10 is moved to the position of neighbouring discharging opening 62, touched corresponding
Dynamic neighbouring touch device B, when relatively the transportation 10 is adjacent to loading device 50, touch neighbouring touch device by corresponding
B。
[fourth embodiment]
Referring to Fig. 6, Fig. 6 is the fourth embodiment of the electricity generation system of the present invention, this example and previous embodiment are most very much not
Same place is that the drawing mechanism 60 of electricity generation system 4 can have two discharging openings 62;The first above-mentioned moving member 20 is also
Can be the function with carrying, transport and removal material, i.e. the first moving member 20 also includes a Dump gate 201.As schemed
Show, specifically, in practical application, drawing mechanism 60 can in turn be arranged the material carried by two discharging openings 62
Go out, according to this alternately by material filling in the moving member 20 of transportation 10 and first, and transportation 10 is taken turns with the first moving member 20
After material is accepted on stream ground, pass through corresponding the first TRT 40 and the second TRT 41 by corresponding, make the first hair according to this
The TRT 41 of electric installation 40 and second produces electric energy in turn.Certainly, in preferably practicing, what the present embodiment was proposed
Electricity generation system 4 can also include the loop back device A and touch device B contained just like previous embodiment.
[the 5th embodiment]
Referring to Fig. 7, Fig. 7 is the schematic diagram of the fifth embodiment of the present invention.As illustrated, electricity generation system 5 includes a fortune
Defeated part 10, one first moving member 20, one second moving member 21, one first magnetic force component 30, one second magnetic force component 31, one the 3rd
Magnetic force component 32, one first TRT 40, one second TRT 41 and one the 3rd TRT 42, a loading device 50,
One drawing mechanism 60 and a transmission device D.The present embodiment and previous embodiment, maximum different place be, transportation 10, the
Can be that corresponding first TRT 40, second that passes through is sent out respectively on the path of motion of one moving member 20 and the second moving member 21
The TRT 42 of electric installation 41 and the 3rd, according to this, transportation 10 by drawing mechanism 60, enter with loading device 50 by relative start
The handling of row material, and when interlocking the first moving member 20 and the second moving member 21 while moving back and forth, the first generating can be made
Device 40, the second TRT 41 and the 3rd TRT 42 produce electric energy simultaneously, and can effectively lift overall electricity generation system
Electricity generation efficiency.Wherein, identically with previous embodiment, the 3rd TRT 42 can include a coil 421 and a pipeline
422, coil 421 can surround pipeline 422 to set, to be correspondingly formed one the 3rd induction channels C3;And the second moving member 21
When moving back and forth, it can correspond to and pass through the 3rd induction channels C3, so that the 3rd TRT 42 is corresponding to produce electric energy.
[sixth embodiment]
In the present embodiment, the main embodiment for illustrating loop back device A.Also referring to Fig. 8 to Figure 11,
Loop back device A includes one first hydraulic means 10 ', one second hydraulic means 20 ', a reply hydraulic means 30 ' and once housed
Groove 40 '.First hydraulic means 10 ', one second hydraulic means 20 ', a reply hydraulic means 30 ' interval are arranged side by side, and lower appearance
Groove 40 ' is put then to be arranged between the first hydraulic means 10 ' and the second hydraulic means 20 '.
First hydraulic means 10 ' is located at the plummer 12 ' on the top of first piston 11 ' including a first piston 11 ' and one.Hold
Microscope carrier 12 ' can be risen or fallen by first piston 11 '.First piston 11 ' can be high to one first with the above-mentioned plummer 12 ' of lifting
Locate H11, above-mentioned plummer 12 ' can be reduced to one first lower H12 (as shown in figure 11).The first eminence H11 of the present embodiment
It can be the extreme higher position that first piston 11 ' raises the plummer 12 ' arrival;First lower H12 can be that first piston 11 ' drops
The extreme lower position that low above-mentioned plummer 12 ' reaches.
Second hydraulic means 20 ' is connected to above-mentioned first hydraulic means 10 ' with the first pipeline P1, and the first pipeline P1 can be set
Put a control valve V1.Second hydraulic means 20 ' of this embodiment can be flexible multi-section type hydraulic means, but not limited to this, example
It such as can be such as motor ladder, tiltedly lift and coordinate the hydraulic means of multi-section type.Second hydraulic means 20 ' include a second piston 21 ',
And the chute 22 ' located at the top of second piston 21 '.The liftable first lifting position H21 that is located at of chute 22 ' is (such as Fig. 9 institutes
Show) and the second lifting position H22 (as shown in figure 11) between.In the present embodiment, under the second lifting position H22 height is less than
The position of storage tank 40 '.First lifting position H21 is higher than the first eminence H11 of plummer 12 '.In practical application, chute
22 ' bottom 221 can be rendered as it is skewed.
Reply hydraulic means 30 ' and be connected to the 3rd piston including one the 3rd piston 31 ' and a liftable forced section 32 '
31’.Reply hydraulic means 30 ' and the second hydraulic means 20 ' is connected to the second pipeline P2, and first is connected to the 3rd pipeline P3
Hydraulic means 10 ';Second pipeline P2 is provided with a control valve V2, and the 3rd pipeline P3 is provided with a control valve V3.Wherein, reply
Hydraulic means 30 ' is to be configured to temporarily store hydraulic fluid F ', to be recycled to the first hydraulic means 10 ' in due course.
Lower storage tank 40 ' is placed in the side of the first hydraulic means 10 ', and is fixed on a buffer position Hf, the buffer position
Hf is less than above-mentioned first lower H12.Lower storage tank 40 ' is sent to temporarily undertaking by the plummer 12 ' of the first hydraulic means 10 '
Material S, and be transferred to the chute 22 ' of above-mentioned second hydraulic means 20 ' again in due course.
Special instruction, also referring to Fig. 5 and Fig. 8, the plummer 12 ' of the first hydraulic means 10 ' can be to
Accept the material S for coming from material collecting tank 501;Specifically, Fig. 5 material collecting tank 501 can have a Dump gate 5011, discharging
Door 5011 can make at least a portion material in material collecting tank 501, in the plummer 12 ' of removal to Fig. 8.In further embodiment
In, the material collecting tank 501 shown in Fig. 5 can directly be the plummer 12 ' of the first hydraulic means 10 ';That is, gathering materials shown in Fig. 5
Groove 501 can be directly arranged on the first piston 11 ' in Fig. 8.
As can be seen from figures 8 and 9, as the quantitative material S of the carrying of plummer 12 ', and the first pipeline P1 control valve V1 is opened
Qi Shi, plummer 12 ' will drop to the first lower H12 because of gravity and by the first eminence H11, and be located at the first hydraulic means originally
Hydraulic fluid F ' in 10 ', it will be flow to by the first hydraulic means 10 ' in the second hydraulic means 20 ', and make to carry material S according to this
Chute 22 ', the first lifting position close to drawing mechanism 60 (as shown in Figure 5) is increased to by the second lifting position H22
H21。
When the chute 22 ' for carrying material S is raised to the first lifting position of neighbouring drawing mechanism 60 (as shown in Figure 5)
When putting H21, the first pipeline P1 control valve V1, the second pipeline P2 control valve V2 and the 3rd pipeline P3 control valve V3 will be by
Control is closed, and makes chute 22 ' can be by the material S removals carried into drawing mechanism 60 (as shown in Figure 5).The same time,
, can be by the material S removals carried into lower storage tank 40 ' positioned at the first lower H12 plummer 12 '.
As shown in FIG. 9 and 10, when chute 22 ' is by contained material S removals to drawing mechanism 60 (as shown in Figure 5)
Afterwards, the second pipeline P2 control valve V2 will be opened, and the hydraulic fluid F ' in the second hydraulic means 20 ', it will by the
Two hydraulic means 20 ', which are flow to, is replied in hydraulic means 30 ', and chute 22 ' can be moved by the first lifting position H21 and returned back to
Neighbouring second lifting position H22 (as shown in Figure 8) position, and be injected with hydraulic fluid F ' reply hydraulic means 30 ', it the
Three pistons 31 ' and forced section 32 ' will be extruded and rise, and at least a portion of the bottom surface of chute 22 ' will be with replying hydraulic pressure according to this
The forced section 32 ' of device 30 ' is mutually supported, and the location of chute 22 ' will slightly below lower storage tank 40 '.
As shown in Figures 10 and 11, when the position of chute 22 ' is in the position less than lower storage tank 40 ', and one of its bottom surface
When point being resisted against forced section 32 ', chute 22 ' be located at one the 3rd lifting position H23, and the 3rd lifting position H23 is higher than second
Lifting position H22, and the material in lower storage tank 40 ' can be discharged into chute 22 ', now, control valve V3 can maintain to close
Close to fix the position of chute 22 '.After the completion of discharging, the 3rd pipeline P3 control valve V3 will be opened by control, according to this by
Power portion 32 ' will be compressed and be moved down by chute 22 ', and then be caused positioned at the hydraulic fluid replied in hydraulic means 30 '
F ' can be by the 3rd pipeline P3, and flow in the first hydraulic means 10 ', and makes the plummer 12 ' for being located at the first lower H12 originally
The first eminence H11 is moved upward to, such loop back device A (as shown in Figure 5) is similar to Fig. 8 state, Jin Erke by returning back to
Complete a cycle operation.
In the above-described embodiments, control valve V1~V3 can make chute 22 ' according to the corresponding open and close of work requirements
Feeding can be carried out to eminence and coordinate the charging and discharging of plummer 12 ', complete the process of Matter Transfer dispatching.
It the foregoing is only the preferable possible embodiments of the present invention, non-therefore the limitation present invention the scope of the claims, therefore such as
The equivalence techniques done with description of the invention and schema content changes, and is both contained in protection scope of the present invention.
Claims (15)
1. a kind of electricity generation system, it is characterised in that the electricity generation system includes:
One transmission device;
One transportation, the transmission device is connected to, there is the transportation accommodation space to carry material;
One first moving member, be provided with one first magnetic force component, first moving member is connected to the transmission device, and with the transport
Part interlocks, and first moving member loads and unloads weight change caused by material by the transportation, in one first moving position and one
Moved back and forth between second moving position;And
One first TRT, it is arranged on the path of motion of first moving member, and first TRT can with this
One magnetic force component interaction acts on and produces electric energy;
Wherein, the transportation loads material in a loading position, and in a discharge position removal material, wherein the loading position is with being somebody's turn to do
There is a difference in height between discharge position.
2. electricity generation system as claimed in claim 1, it is characterised in that the loading position is higher than the discharge position, when the transport
When part is located at the loading position, first moving member is located at first moving position;When the transportation is located at the discharge position,
First moving member is located at second moving position.
3. electricity generation system as claimed in claim 1, it is characterised in that the electricity generation system also includes:
One second moving member, one second magnetic force component is provided with, second moving member is connected to the transmission device, second movement
Part loads and unloads weight change caused by material by the transportation, corresponding to one the 3rd moving position and one the 4th moving position it
Between move back and forth;And
One second TRT, it is located on the path of motion that second moving member moves back and forth, and the second generating dress
Putting can act on the second magnetic force component interaction and produce electric energy.
4. electricity generation system as claimed in claim 1, it is characterised in that the transmission device includes a power wheel, the power wheel
It is connected with the transportation and first moving member, the power wheel moves back and forth respectively in the transportation and first moving member
When produce electric energy.
5. electricity generation system as claimed in claim 1, it is characterised in that the electricity generation system also includes:
One drawing mechanism, in the accommodation space by material filling to the transportation;And
One loading device, for accepting the material of the transportation institute removal;
Wherein, the distance of the drawing mechanism and a reference plane is more than the distance with the reference plane of the loading device.
6. electricity generation system as claimed in claim 5, it is characterised in that the electricity generation system also includes:One loop back device, including
An at least hydraulic system, the loop back device are transported to the drawing mechanism to the material for being carried the loading device.
7. electricity generation system as claimed in claim 3, it is characterised in that first TRT and second TRT difference
Include a coil and a pipeline, respectively the line is set around the pipeline corresponding to it respectively, and forms one first sensing respectively
Lead to respectively on the path of motion that passage and one second induction channels, first moving member and second moving member move back and forth
Cross first induction channels and second induction channels.
8. electricity generation system as claimed in claim 1, it is characterised in that the electricity generation system also includes:One hangs down again, is connected to this
First moving member;Wherein, heavy hang down can provide the power of opposite direction to first moving member with the transportation, so that this first is moved
Moving part can move back and forth.
9. electricity generation system as claimed in claim 1, it is characterised in that the electricity generation system also includes:One elastic component, is connected to
First moving member;Wherein, the elastic component and the transportation can provide the power of opposite direction to first moving member so that this
One moving member can move back and forth.
10. electricity generation system as claimed in claim 8 or 9, it is characterised in that first moving member is a coaster.
11. a kind of electricity generation system, it is characterised in that the electricity generation system includes:
One transmission device;
One transportation, the transmission device is connected to, the transportation has an accommodation space to carry material, and the transportation is provided with
One first magnetic force component;
One moving member, the transmission device is connected to, and is interlocked with the transportation, the moving member loads and unloads material institute by the transportation
Caused weight change, moved back and forth between one first moving position and one second moving position;And
One first TRT, first TRT are located on the path of motion of the transportation, and first TRT
It can be acted on the first magnetic force component interaction and produce electric energy;
Wherein, the transportation loads material in a loading position, and in a discharge position removal material, wherein the loading position is with being somebody's turn to do
There is a difference in height between discharge position.
12. electricity generation system as claimed in claim 11, it is characterised in that the electricity generation system also includes:One second, which generates electricity, fills
Put, on the path of motion of the moving member, and second TRT can be with one second magnetic force that is arranged on the moving member
Component interaction acts on and produces electric energy.
13. electricity generation system as claimed in claim 11, it is characterised in that the electricity generation system also includes:
One drawing mechanism, in the accommodation space by material filling to the transportation;And
One loading device, for accepting the material of the transportation institute removal;
Wherein, the distance of the drawing mechanism and a reference plane is more than the loading device and the distance of the reference plane.
14. electricity generation system as claimed in claim 13, it is characterised in that the electricity generation system also includes:One loop back device, institute
Stating loop back device includes an at least hydraulic system, and the loop back device is transported to this to the material that is carried the loading device and gone out
Expect device.
15. a kind of electricity generation system, it is characterised in that the electricity generation system includes:
One transportation, there is an accommodation space to carry material, and one is produced with the weight change of removal material by loading
Height displacement;And
One TRT, there is an at least magnetic force component, electricity generation system to be driven by the transportation and produce electric energy.
Priority Applications (1)
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CN201610542143.4A CN107605673A (en) | 2016-07-11 | 2016-07-11 | Electricity generation system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201610542143.4A CN107605673A (en) | 2016-07-11 | 2016-07-11 | Electricity generation system |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN110821765B (en) * | 2019-11-21 | 2020-10-09 | 顾金宏 | New energy generator |
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CN1576575A (en) * | 2003-07-29 | 2005-02-09 | 于明华 | Hydraulic lifting machine |
JP2005180410A (en) * | 2003-12-15 | 2005-07-07 | Saburo Tsutsui | Method of power generation by gravity of water |
CN104791207A (en) * | 2015-03-18 | 2015-07-22 | 沈阳建筑大学 | Elastic resonance power generating device driven by rotational inertia |
CN204981020U (en) * | 2015-07-17 | 2016-01-20 | 沛康实业有限公司 | Energy-saving hydraulic system |
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CN1576575A (en) * | 2003-07-29 | 2005-02-09 | 于明华 | Hydraulic lifting machine |
JP2005180410A (en) * | 2003-12-15 | 2005-07-07 | Saburo Tsutsui | Method of power generation by gravity of water |
CN104791207A (en) * | 2015-03-18 | 2015-07-22 | 沈阳建筑大学 | Elastic resonance power generating device driven by rotational inertia |
CN204981020U (en) * | 2015-07-17 | 2016-01-20 | 沛康实业有限公司 | Energy-saving hydraulic system |
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