CN104852545A - Power generation device for converting minimal mechanical energy into electric energy - Google Patents
Power generation device for converting minimal mechanical energy into electric energy Download PDFInfo
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- CN104852545A CN104852545A CN201510221828.4A CN201510221828A CN104852545A CN 104852545 A CN104852545 A CN 104852545A CN 201510221828 A CN201510221828 A CN 201510221828A CN 104852545 A CN104852545 A CN 104852545A
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Abstract
The present invention relates to the technical field of power generation devices and discloses a power generation device for converting the minimal mechanical energy into the electric energy, which comprises a coil and two magnet sets arranged at an interval. Each magnet set comprises a magnet, an upper concentrating flux plate arranged on the upper end surface of the magnet, and a lower concentrating flux plate arranged on the lower end surface of the magnet. The coil is arranged between the two magnet sets. A center plate capable of swing up and down, or horizontally moving up and down, is penetrated through the coil between the two magnet sets. The two ends of the center plate are respectively provided with an abutting end. The two abutting ends respectively abut against the concentrating flux plates in the two magnet sets and the two concentrating flux plates are different in magnetism. The two abutting ends respectively abut against the concentrating flux plates and the two concentrating flux plates are different in magnetism. Along with the up-down swing or the up-down horizontal movement of the center plate, magnetic induction lines, which penetrate the center plate and the center of the coil, are varied in direction to generate the current in the coil. Therefore, the device can be used for powering up electronic products. Electronic products can be powered by the device without any batteries. Therefore, a series of problems caused by the adoption of batteries is avoided. The device is strong in usage reliability and environmentally-friendly to use. The cost of users is saved.
Description
Technical field
The present invention relates to the technical field of Blast Furnace Top Gas Recovery Turbine Unit (TRT), particularly relate to the Blast Furnace Top Gas Recovery Turbine Unit (TRT) that milli machine can be converted to electric energy.
Background technology
Electronic product is widely used in life, and low power dissipation electron product can use battery as the power supply of work usually, as appliance switch, remote controller etc.Use battery to have limitation as power supply, it is limited to there is useful life in it, and needs repeat buying battery and the problem that uses of periodic replacement battery, and these problems can the use cost of remarkable adding users; In addition, because battery easily gets rusty and leakage, like this, for the electronic product of some security protection effects, use battery greatly can reduce the reliability of electronic product, and the round-the-clock needs that the energy is provided for a long time cannot be met, when meeting with illegal invasion, electronic product is inoperative because of battery failure possibly, brings loss to user.
In addition, battery great majority are disposable products, and its life cycle is shorter, as needed Long-Time Service, then constantly must buy battery, the financial burden of adding users; Moreover manufacturing battery not only needs consumption of natural resource, and a large amount of old and useless batterys is dropped, and can bring adverse influence, not environmentally to environment.
Summary of the invention
The object of the present invention is to provide milli machine can be converted to the Blast Furnace Top Gas Recovery Turbine Unit (TRT) of electric energy, be intended to solve electronic product of the prior art and adopt battery as power supply, there is dependability difference, adding users use cost and problem not environmentally.
The present invention realizes like this, milli machine can be converted to the Blast Furnace Top Gas Recovery Turbine Unit (TRT) of electric energy, comprise coil and two group of magnets, two described group of magnets are arranged separately, and each described group of magnets comprises magnet, is located at the upper conduction magnetic board of described magnet upper surface and is located at the lower magnetic conductive board of described magnet lower surface; Described coil is arranged between two described group of magnets, be equipped with in described coil and swing up and down between two described group of magnets or the central plate of upper and lower translation, the two ends of described central plate are formed with the abutment end extended to outside described coil respectively, and two abutment ends of described central plate are connected to the magnetic conductive board that in two group of magnets, magnetic is different respectively.
Milli machine provided by the invention can be converted to the Blast Furnace Top Gas Recovery Turbine Unit (TRT) of electric energy, the magnetic conductive board different with two group of magnets magnetic respectively due to two abutment ends of central plate abuts, make to produce magnetic induction line in central plate, namely magnetic induction line is through thiol, further, along with central plate swings up and down or upper and lower translation, the magnetic induction line direction through central plate and hub of a spool changes, make the electric wire generation current in coil, can power for electronic product; Electronic product adopts above-mentioned milli machine can be converted to the Blast Furnace Top Gas Recovery Turbine Unit (TRT) of electric energy, then can not need to adopt battery as power supply, thus avoid the series of problems using battery existence, electronic product dependability is stronger, greatly save user cost, and use environmental protection.
Accompanying drawing explanation
Fig. 1 is the schematic perspective view that milli machine that the embodiment of the present invention one provides can be converted to the Blast Furnace Top Gas Recovery Turbine Unit (TRT) of electric energy;
Fig. 2 is the exploded perspective schematic diagram one that milli machine that the embodiment of the present invention one provides can be converted to the Blast Furnace Top Gas Recovery Turbine Unit (TRT) of electric energy;
Fig. 3 is the exploded perspective schematic diagram two that milli machine that the embodiment of the present invention one provides can be converted to the Blast Furnace Top Gas Recovery Turbine Unit (TRT) of electric energy;
Fig. 4 is the schematic front view one that a kind of milli machine that the embodiment of the present invention one provides can be converted to the Blast Furnace Top Gas Recovery Turbine Unit (TRT) of electric energy;
Fig. 5 is the schematic front view two that a kind of milli machine that the embodiment of the present invention one provides can be converted to the Blast Furnace Top Gas Recovery Turbine Unit (TRT) of electric energy;
Fig. 6 is the schematic front view one that milli machine that the embodiment of the present invention two provides can be converted to the Blast Furnace Top Gas Recovery Turbine Unit (TRT) of electric energy;
Fig. 7 is the schematic front view two that milli machine that the embodiment of the present invention two provides can be converted to the Blast Furnace Top Gas Recovery Turbine Unit (TRT) of electric energy.
Fig. 8 is the electricity generating principle schematic diagram one that milli machine that the embodiment of the present invention two provides can be converted to the Blast Furnace Top Gas Recovery Turbine Unit (TRT) of electric energy;
Fig. 9 is the electricity generating principle schematic diagram two that milli machine that the embodiment of the present invention two provides can be converted to the Blast Furnace Top Gas Recovery Turbine Unit (TRT) of electric energy;
Figure 10 is the schematic front view one that another kind of milli machine that the invention process row two provide can be converted to the Blast Furnace Top Gas Recovery Turbine Unit (TRT) of electric energy;
Figure 11 is the schematic front view two that another kind of milli machine that the invention process row two provide can be converted to the Blast Furnace Top Gas Recovery Turbine Unit (TRT) of electric energy.
Embodiment
In order to make object of the present invention, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the present invention is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the present invention, be not intended to limit the present invention.
Below in conjunction with specific embodiment, realization of the present invention is described in detail.
As shown in Fig. 1 ~ 11, it is preferred embodiment provided by the invention.
Embodiment one
With reference to shown in Fig. 1 ~ 5, the milli machine that the present embodiment provides can be converted to the Blast Furnace Top Gas Recovery Turbine Unit (TRT) 1 of electric energy, can be used in the electronic product such as wireless switching, remote controller, as long as need the low-consumption wireless electronic product of power supply this milli machine can be adopted to be converted to the Blast Furnace Top Gas Recovery Turbine Unit (TRT) 1 of electric energy, for providing power supply for it.
The Blast Furnace Top Gas Recovery Turbine Unit (TRT) 1 that the milli machine that the present embodiment provides can be converted to electric energy comprises central plate 14, coil 11 and two group of magnets 12.Wherein, two group of magnets 12 are arranged separately, form interval region 17 between the two, and each group of magnets 12 comprises magnet 122, upper conduction magnetic board 121 and lower magnetic conductive board 123, upper conduction magnetic board 121 is arranged on the upper surface of magnet 122, lower magnetic conductive board 123 is arranged on the lower surface of magnet 122, like this, because the two ends magnetic of magnet 122 is different, and on the upper surface being separately positioned on magnet 122 due to upper conduction magnetic board 121 and lower magnetic conductive board 123 and lower surface, magnetic gap is formed between upper conduction magnetic board 121 and lower magnetic conductive board 123, in each group of magnets 12, between upper conduction magnetic board 121 and lower magnetic conductive board 123, magnetic is different, that is magnetic induction line is produced between upper conduction magnetic board 121 and lower magnetic conductive board 123.
Central plate 14 and coil 11 are placed in the interval region 17 of two group of magnets 12, and coil 11 is set in the periphery of central plate 14, that is, and the middle part of central plate 14 thorough coil 11; The two ends of central plate 14 are extended outside coil 11, form abutment end 142 respectively, and central plate 14 upper and lower translation or swing up and down between two group of magnets 12, thus make two of central plate 14 abutment ends 142 respectively alternately the magnetic conductive board different with magnetic in two group of magnets 12 abut.
When central plate 14 swing up and down or upper and lower translation time, because the abutment end 142 at central plate 14 two ends abuts with magnetic conductive board different in two group of magnets 12 respectively, thus, have by the magnetic induction line in central plate 14 one end to other end direction in central plate 14, now, magnetic induction line is also through the center of coil 11; When central plate 14 swings up and down or after upper and lower translation, now, the magnetic of the magnetic conductive board that the abutment end 142 of central plate 14 abuts changes, thus, direction through the magnetic induction line of central plate 14 then changes, thus, direction through the magnetic induction line of coil 11 also changes, as can be seen here, once to swing up and down or after upper and lower translation when central plate 14 completes, direction through the magnetic induction line of coil 11 then changes, and then can produce immediate current in the electric wire of coil 11, utilizes this electric current then power supply can be provided to supply for electronic product.
The above-mentioned Blast Furnace Top Gas Recovery Turbine Unit (TRT) 1 provided, it central plate 141 can be swung up and down or the mechanical energy of upper and lower translation is converted to electric energy, realize the effect that milli machine can be converted to electric energy, make the electric wire generation current in coil 11, like this, adopt above-mentioned milli machine can be converted to the Blast Furnace Top Gas Recovery Turbine Unit (TRT) 1 of electric energy, electronic product does not then need to adopt battery etc. as power supply, the series of problems using battery to exist can be avoided, make the dependability of electronic product strong, greatly reduce customer using cost, and can not impact environment etc., use comparatively environmental protection.
The small mechanical external force that the actions such as " milli machine energy " herein refers to by shaking, pushing, pressing produce, usually between 0.5N-10N, the mechanical energy utilizing this small is to produce the direct current energy of 1.5V-5V, for low power dissipation electron product provides power supply, thus stop the use of battery, reduce the pollution of environment.
In the present embodiment, the middle part of central plate 14 is formed with hinged end 141, this hinged end 141 hinge arrangement, like this, central plate 14 with its hinged end 141 for fulcrum, two hinged ends 141 of central plate 14 can swing up and down, and realize respectively the alternately magnetic conductive board different with magnetic in two group of magnets 12 and abut.
Particularly, the hinged end 142 at central plate 14 two ends is arranged in the magnetic gap of group of magnets 12, central plate 14 is with hinged end 141 for fulcrum swings up and down, and two of central plate abutment ends 142 alternately abut against with the upper conduction magnetic board 121 of two group of magnets 12 or lower magnetic conductive board 123 respectively.
With reference to shown in Fig. 1 ~ 5, the magnetic induction line direction of two magnetic conduction groups 12 in the present embodiment is identical, and the magnetic of upper conduction magnetic board 121 is N pole, the magnetic of lower magnetic conductive board 123 is S pole, certainly, according to actual needs, the magnetic pole that also can arrange upper conduction magnetic board 121 is S pole, and the magnetic pole of lower magnetic conductive board 123 is N pole.
With reference to shown in 4, when the abutment end 142 on central plate 14 left side has been lifted up, when namely having put upward, abutment end on the right of it 142 is past towards the bottom, now, the abutment end 142 on central plate 14 left side is connected to the upper conduction magnetic board 121 (N pole) of the group of magnets 12 on the left side, abutment end on the right of central plate 14 142 is connected to the lower magnetic conductive board 123 (S pole) of the group of magnets 12 on the right, now, magnetic induction line direction in central plate 14 is then from left to right, and the direction namely through the magnetic induction line in the middle part of coil 11 is from left to right.
With reference to shown in Fig. 5, when the abutment end 142 of central plate 14 has been lifted up, namely put upward, the abutment end 142 on its left side is past towards the bottom, now, abutment end on the right of central plate 14 142 abuts the upper conduction magnetic board 121 (N pole) of the group of magnets 12 on the right, the abutment end 142 on central plate 14 left side is connected to the lower magnetic conductive board 123 (S pole) of the group of magnets 12 on the left side, now, magnetic induction line direction in central plate 14 is then from right to left, and the direction namely through the magnetic induction line in the middle part of coil 11 is from right to left.As can be seen here, after central plate 14 completes and once lifts up, the direction through the magnetic induction line of coil 11 then changes, thus the electric wire in coil 11 then can produce immediate current, utilizes this electric current then power supply can be provided to supply for electronic product.
In the present embodiment, hinged seat 15 is provided with between two group of magnets 12, hinged end in the middle part of central plate 14 141 is hinged on this hinged seat 15, thus utilizes this hinged cooperation, makes central plate 14 can with the junction of the hinged end 141 of central plate 14 and hinged seat 15 for fulcrum swings up and down.
Particularly, hinged slotted eye 151 is provided with in hinged seat 15, the hinged end 141 of central plate 14 is placed in the hinged slotted eye 151 of hinged seat 15, thus it is hinged to realize between central plate 14 and hinged seat 15, and namely the hinged slotted eye 151 of hinged seat 15 becomes the swing pivot of central plate 14.
Particularly, arrange a hinged seat 15 in the both sides of central plate 14 respectively, like this, in arranging separately between two hinged seats 15, be distributed in the both sides of central plate 14, like this, the both sides of central plate 14 are then connected with hinged seat 15 respectively by hinged end 141.
Certainly, as other embodiment, also can be that other structure realizes the hinged of central plate 14, realize swinging up and down of the hinged end 142 at central plate 14 two ends.
With reference to shown in Fig. 1 ~ 5, in each group of magnets 12, the inner of upper conduction magnetic board 121 and the inner of lower magnetic conductive board 123 extend towards interval region 17 respectively, and extend the medial extremity of magnet 122, form elongated end, like this, for each group of magnets 12, elongated area 16 is then defined between the elongated end of upper conduction magnetic board 121 and lower magnetic conductive board 123, namely form magnetic gap, like this, two abutment ends 142 of central plate 14 are in the magnetic gap of two group of magnets 12 respectively, thus the swinging up and down with its hinged end 141 of central plate 14 thereupon, the abutment end 142 of central plate 14 is replaced abut with the upper conduction magnetic board 121 of group of magnets 12 or lower magnetic conductive board 123.
Or as other embodiment, upper conduction magnetic board 121 also can not form elongated end with the inner side of lower magnetic conductive board 123, like this, directly utilize the medial end of the abutment end 142 of central plate 14 and upper conduction magnetic board 121 or lower magnetic conductive board 123 to abut then can.
In the present embodiment, central plate 14 comprises middle lath 143 and two side plate bars, and wherein, lath 143 is located in coil 11, and the two ends of middle lath 143 extend to outside the two ends of coil 11, form above-mentioned abutment end 142; Two side plate bars are respectively formed at the both sides of middle lath 143, the inner of side plate bar is connected to the side of middle lath 143, its outer end extends outwardly layout, form the hinged lath 144 be arranged in parallel with middle lath 143, form interval between this hinged lath 144 and middle lath 143, and the end of hinged lath 144 forms above-mentioned hinged end 141.
When coil 11 is enclosed within after outside middle lath 143, above-mentioned side plate bar is formed outside online circle 11, like this, can not be formed interfere the assembling between coil 11 and central plate 14.
Or as other embodiments, the planform of central plate 14 can also be other various structures forms, is not limited to above-mentioned version.
During in order to make the abutting of the abutment end 142 of central plate 14 and upper conduction magnetic board 121 or lower magnetic conductive board 123, contact area is more etc., in the present embodiment, the curved sigmoid of abutment end 142 of central plate 14 is arranged, certainly, it can be convexly curved upward, or decurvation etc.
In the present embodiment, the Blast Furnace Top Gas Recovery Turbine Unit (TRT) 1 that milli machine can be converted to electric energy also comprises base plate 13, and two above-mentioned group of magnets 12 and hinged seat 15 are placed on this base plate 13 respectively, like this, is convenient to the integral arrangement of whole Blast Furnace Top Gas Recovery Turbine Unit (TRT) 1.
In order to accelerate the swing speed of central plate 14, the magnetic induction line direction change namely through coil 11 is faster, and in the electric wire in coil 11, electric current is larger.In the present embodiment, Blast Furnace Top Gas Recovery Turbine Unit (TRT) 1 also includes flexure strip 10, and one end of this flexure strip 10 is fixedly connected with central plate 14, the other end extends outwardly, vacant layout, like this, by the strain of operating flexibility sheet 10, make flexure strip 10 flexural deformation, then can realize utilizing flexure strip 10 to drive central plate 14 to swing, and, under the driving of this flexure strip 10, the swing speed of central plate 14 is very fast, and the magnetic induction line direction realizing passing rapidly through coil 11 changes effect faster.
The deployment scenarios of flexure strip 10 can be diversified, and in the present embodiment, one end of flexure strip 10 is connected on central plate 14, and its other end extends to outside coil 11.
One end of flexure strip 10 is connected on central plate 14, and the length direction of center of extension plate 14 extends layout, like this, can better utilize the drive force central plate 14 of flexure strip 10 to swing.
As a preferred embodiment, one end of flexure strip 10 is connected to the middle part of central plate 14, and its other end extends to the outside of coil 11.Certainly, as other embodiment, flexure strip 10 can be also other deployment scenarios, is not limited to above-mentioned set-up mode.
Embodiment two
With reference to shown in Fig. 6 ~ 11, the difference of the present embodiment and embodiment one is:
In the present embodiment, in two group of magnets 12, the direction of magnetic induction line is different, the group of magnets 12 on the left side, and its upper conduction magnetic board 121 is S pole, and its lower magnetic conductive board 123 is N pole, and the magnetic induction line direction of this group of magnets 12 is from bottom to top; In the group of magnets 12 on the right, its upper conduction magnetic board 121 is N pole, and lower magnetic conductive board 123 is S pole, and the magnetic induction line direction of this group of magnets 12 is from top to bottom.That is, for these two group of magnets 12, the direction of magnetic induction line is different.
Certainly, as other embodiment, the placement orientation of two group of magnets 12 also can be exchanged, and is not limited to the modes of emplacement in the present embodiment.
The specific implementation generating operation that the milli machine that the present embodiment provides can be converted to the Blast Furnace Top Gas Recovery Turbine Unit (TRT) 1 of electric energy is as follows: with reference to shown in 6 or 8, time initial, two abutment ends 142 of central plate 14 abut with the lower magnetic conductive board 123 of two group of magnets 12 respectively, like this, direction through the magnetic induction line of central plate 14 is then by left-to-right, namely, the direction through the magnetic induction line in the middle part of coil 111 is by left-to-right, when after central plate 14 translation upward, with reference to shown in Fig. 7 or 9, central plate 14 misplaces after translation between two group of magnets 12, now, two abutment ends 142 of central plate 14 abut with the upper conduction magnetic board 121 of two group of magnets 12 respectively, like this, direction through the magnetic induction line of central plate 14 is then to left by the right side, namely, direction through the magnetic induction line in the middle part of coil 111 is to left by the right side, like this, in the process of central plate 14 upper and lower translation, misplace between central plate 14 and two group of magnets 12 upper and lower translation, the direction of the magnetic induction line in the middle part of through coil 11 is changed, electric wire in coil 11 also produces immediate current, utilize this electric current then power supply can be provided to supply for electronic product.
In the present embodiment, the medial extremity flush arrangement of the medial extremity of upper conduction magnetic board 121, the medial extremity of lower magnetic conductive board 123 and magnet 122, form smooth planing surface, the end of two abutment ends 142 of central plate 14 is concordant with the medial end of upper conduction magnetic board 121 and lower magnetic conductive board 123 respectively, like this, misplacing in the process of upper and lower translation between central plate 14 and two group of magnets 12, is then that the end of central plate 14 abuts with the medial end of the medial end of upper conduction magnetic board 121 or lower magnetic conductive board 123.
Or, as other embodiment, with reference to shown in Figure 10 and 11, in each group of magnets 12, the medial extremity of upper conduction magnetic board 121 and the medial extremity of lower magnetic conductive board 123 extend towards interval region 17 respectively, and extend the medial extremity of magnet 122, form elongated end, like this, for each group of magnets 12, then elongated area is defined between the elongated end of upper conduction magnetic board 121 and lower magnetic conductive board 123, like this, two abutment ends 142 of central plate 14 are in the elongated area of two group of magnets 12 respectively, thus, when the abutment end 142 of central plate 14 abuts with upper conduction magnetic board 121 or lower magnetic conductive board 123, then be connected to the lower surface of upper conduction magnetic board 121 or the upper surface of lower magnetic conductive board 123.
Certainly, as other embodiment, the abutment between the abutment end 142 of central plate 14 and upper conduction magnetic board 121 or lower magnetic conductive board 123 can also be other various structures mode, is not limited to two kinds of above-mentioned modes.
In addition, in order to accelerate the swing speed of central plate 14, the magnetic induction line direction change namely through coil 11 is faster, and in the electric wire in coil 11, electric current is larger.Also flexure strip 10 can be connected on central plate 14, one end of this flexure strip 10 is fixedly connected with central plate 14, and the other end extends outwardly, vacant layout, like this, by the strain of operating flexibility sheet 10, make flexure strip 10 flexural deformation, then can realize utilizing flexure strip 10 to drive central plate 14 upper and lower translation, and, under the driving of this flexure strip 10, the translational speed of central plate 14 is very fast, and the magnetic induction line direction realizing passing rapidly through coil 11 changes effect faster.
The deployment scenarios of flexure strip 10 can be diversified, and preferably, one end of flexure strip 10 is connected on central plate 14, and its other end extends to outside coil 11.As a preferred embodiment, flexure strip 10 can with central plate 14 in being arranged vertically.Certainly, as other embodiment, flexure strip 10 can be also other deployment scenarios, is not limited to above-mentioned set-up mode.
In addition, the central plate 14 in the present embodiment is in vertical bar shape, and it is applied in the center of coil 11; Or according to actual needs, the shape of central plate can also be other various shape, is specifically determined by actual needs.
The foregoing is only preferred embodiment of the present invention, not in order to limit the present invention, all any amendments done within the spirit and principles in the present invention, equivalent replacement and improvement etc., all should be included within protection scope of the present invention.
Claims (12)
1. milli machine can be converted to the Blast Furnace Top Gas Recovery Turbine Unit (TRT) of electric energy, it is characterized in that, comprise coil and two group of magnets, two described group of magnets are arranged separately, and each described group of magnets comprises magnet, is located at the upper conduction magnetic board of described magnet upper surface and is located at the lower magnetic conductive board of described magnet lower surface; Described coil is arranged between two described group of magnets, be equipped with in described coil and swing up and down between two described group of magnets or the central plate of upper and lower translation, the two ends of described central plate are formed with the abutment end extended to outside described coil respectively, and two abutment ends of described central plate are connected to the magnetic conductive board that in two group of magnets, magnetic is different respectively.
2. milli machine as claimed in claim 1 can be converted to the Blast Furnace Top Gas Recovery Turbine Unit (TRT) of electric energy, it is characterized in that, the Blast Furnace Top Gas Recovery Turbine Unit (TRT) that described milli machine can be converted to electric energy also includes flexure strip, and one end of described flexure strip is fixedly connected on described central plate, the vacant layout of the other end.
3. milli machine as claimed in claim 1 or 2 can be converted to the Blast Furnace Top Gas Recovery Turbine Unit (TRT) of electric energy, it is characterized in that, the magnetic induction line direction identical set of two described group of magnets; The middle part hinge arrangement of described central plate, formed hinged end, described central plate with its hinged end for fulcrum swings up and down.
4. milli machine as claimed in claim 3 can be converted to the Blast Furnace Top Gas Recovery Turbine Unit (TRT) of electric energy, it is characterized in that, the hinged end at described central plate two ends is placed in the magnetic gap of two described group of magnets respectively, described central plate is that fulcrum swings up and down with hinged end, and two of described central plate abutment ends alternately abut against with the upper conduction magnetic board of two described group of magnets or lower magnetic conductive board respectively.
5. milli machine as claimed in claim 4 can be converted to the Blast Furnace Top Gas Recovery Turbine Unit (TRT) of electric energy, it is characterized in that, in each described group of magnets, the inner of described upper conduction magnetic board and the inner of lower magnetic conductive board extend respectively inwardly, form the elongated end extended outside described magnet medial extremity, form elongated area between the elongated end of described upper conduction magnetic board and the elongated end of lower magnetic conductive board, the abutment end of described central plate is placed in described elongated area.
6. milli machine as claimed in claim 3 can be converted to the Blast Furnace Top Gas Recovery Turbine Unit (TRT) of electric energy, it is characterized in that, described central plate comprises the side plate bar that middle lath and two lay respectively at described middle lath both sides, described middle lath is located in described coil, and the two ends of described middle lath extend to outside described coil respectively, form described abutment end; The inner of described side plate bar is connected to the side of described middle lath, and the outer end of described side plate bar extends outwardly, and form the hinged lath be arranged in parallel with described middle lath, the end of described hinged lath forms described hinged end.
7. milli machine as claimed in claim 3 can be converted to the Blast Furnace Top Gas Recovery Turbine Unit (TRT) of electric energy, and it is characterized in that, be provided with hinged seat described in two between group of magnets, the hinged end of described central plate is articulated with described hinged seat.
8. milli machine as claimed in claim 7 can be converted to the Blast Furnace Top Gas Recovery Turbine Unit (TRT) of electric energy, and it is characterized in that, be provided with hinged slotted eye in described hinged seat, the hinged end of described central plate is movably placed in described hinged slotted eye.
9. milli machine as claimed in claim 1 or 2 can be converted to the Blast Furnace Top Gas Recovery Turbine Unit (TRT) of electric energy, and it is characterized in that, described in two groups, the direction of the magnetic induction line of group of magnets is different, and described central plate is upper and lower translation between two described group of magnets.
10. milli machine as claimed in claim 9 can be converted to the Blast Furnace Top Gas Recovery Turbine Unit (TRT) of electric energy, it is characterized in that, the medial end of described upper conduction magnetic board and the medial end flush arrangement of lower magnetic conductive board, and concordant with the end of the abutment end of described central plate.
11. milli machines as claimed in claim 9 can be converted to the Blast Furnace Top Gas Recovery Turbine Unit (TRT) of electric energy, it is characterized in that, the medial extremity flush arrangement of the medial extremity of described upper conduction magnetic board, the medial extremity of magnet and lower magnetic conductive board, form smooth planing surface, the abutment end of described central plate is at described planing surface upper and lower translation.
12. milli machines as claimed in claim 9 can be converted to the Blast Furnace Top Gas Recovery Turbine Unit (TRT) of electric energy, and it is characterized in that, described central plate is vertical bar shape.
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CN201810977367.7A CN109038998B (en) | 2015-04-30 | 2015-04-30 | Power generation device for converting micro mechanical energy into electric energy |
CN201510221828.4A CN104852545B (en) | 2015-04-30 | 2015-04-30 | Milli machine can be converted to the power generator of electric energy |
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CN105162303A (en) * | 2015-09-17 | 2015-12-16 | 北京微能高芯科技有限公司 | Micro power generation device and generating method based on permanent magnet material |
CN105374143A (en) * | 2015-10-27 | 2016-03-02 | 北京微能高芯科技有限公司 | Self-power intelligent door and window sensor and signal transmission method thereof |
CN107820714A (en) * | 2016-06-24 | 2018-03-20 | 刘远芳 | Controller and its control system with electric energy generation device |
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Also Published As
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CN109038998A (en) | 2018-12-18 |
CN104852545B (en) | 2018-10-09 |
CN109038998B (en) | 2021-04-06 |
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