CN106981948A - A kind of Magnetic drive generator and electricity generation system - Google Patents

Abstract

The present invention provides a kind of Magnetic drive generator and electricity generation system, is related to technical field of generators.The Magnetic drive generator includes supplying the pipeline of flow of fluid, rotates at least one the rotatable impeller being arranged in pipeline, and TRT, TRT includes rotor and stator, rotor includes the first rotor, the first rotor be made up of magnetic material and along impeller rotation direction it is circumferentially disposed, the first rotor and impeller synchronous axial system are so that coil cutting magnetic induction line on stator and in producing induced-current in coil.It can be generated electricity with safe and efficient, environmental protection, while the effectively hidden danger of prevent leakage.The electricity generation system includes above-mentioned Magnetic drive generator, it can utilize above-mentioned Magnetic drive electrical power generators, and the lead electrically connected with coil, lead is electrically connected with power supply unit or electric storage device, it is available for power supply unit, electric storage device etc. to use, i.e. the electricity generation system is generating, power supply integration system, effectively improves liquid phase, the utilization rate of gaseous fluid.

Description

A kind of Magnetic drive generator and electricity generation system

Technical field

The present invention relates to technical field of generators, in particular to a kind of Magnetic drive generator and electricity generation system.

Background technology

Electricity is a kind of important energy, and the production and living of people all be unable to do without electricity, and motor is to turn the energy of other forms Change the plant equipment of electric energy into, generator includes stator and rotor, and generator is made up of stator, rotor and the part of support three, sends out The species of motor has many kinds, but its operation principle is all based on the law of electromagnetic induction and law of electromagnetic force.It is divided into from principle same Walk generator, asynchronous generator, single-phase generator, threephase generator；It is divided into steam turbine generator, hydraulic generator from producing method Machine, diesel-driven generator, gasoline engine generator etc.；It is divided into thermoelectric generator, hydroelectric generator, wind-driven generator etc. from the energy.

Although also there is the water pipe electricity generator for providing power supply at present, mainly a whole set of generator is placed in pipeline, Generated electricity by the kinetic energy of the flow of fluid in pipeline, but for flammable fluid, there is the potential safety hazard fired, and need By electric power output, therefore to also need to solve the sealing problem of pipeline by holes on pipeline, there is the hidden danger of electric leakage, the whole series hair Motor volume is big, not easy heat radiation, influences service life, fails safety standards.

The content of the invention

It is an object of the invention to provide a kind of Magnetic drive generator, it is acted on by being spaced magnetic induction, safely and effectively Generated electricity, environmental protection, while effectively preventing the hidden danger of electric leakage.

Another object of the present invention is to provide a kind of electricity generation system, it can utilize above-mentioned Magnetic drive electrical power generators, Electricity supply and use equipment is used, and effectively improves liquid phase, the utilization rate of gaseous fluid.

What embodiments of the invention were realized in：

A kind of Magnetic drive generator, it includes the pipeline of confession flow of fluid, at least one that rotation is arranged in pipeline can The impeller of rotation, and TRT, TRT include rotor and stator, and rotor includes the first rotor, and the first rotor is by magnetic Property material be made and along impeller rotation direction it is circumferentially disposed, the first rotor and impeller synchronous axial system are so that coil on stator Cutting magnetic induction line and in producing induced-current in coil.

A kind of electricity generation system, it includes above-mentioned Magnetic drive generator, and the lead electrically connected with coil, lead electrical connection There are power supply unit or electric storage device.

The beneficial effect of the embodiment of the present invention is：

Impeller is arranged in pipeline, and the kinetic energy flowed by liquid phase in pipeline or gaseous fluid drives wheel rotation, simultaneously Impeller drives the first rotor to rotate, and makes the coil cutting magnetic induction line on stator and in producing induced-current in coil, so as to carry out Generate electricity, effectively reduce the hidden danger of gas leakage, leakage and electric leakage, safety and stability.

In addition, including the electricity generation system of above-mentioned Magnetic drive generator, as long as supply fluid continual and steady in pipeline, just may be used Continual and steady generating, for being that various electronic equipments or electric storage device are powered, effectively improves the utilization rate of fluid.

Brief description of the drawings

In order to illustrate the technical solution of the embodiments of the present invention more clearly, below will be attached to what is used required in embodiment Figure is briefly described, it will be appreciated that the following drawings illustrate only certain embodiments of the present invention, therefore is not construed as pair The restriction of scope, for those of ordinary skill in the art, on the premise of not paying creative work, can also be according to this A little accompanying drawings obtain other related accompanying drawings.

The cross-sectional view for the Magnetic drive generator that Fig. 1 provides for first embodiment of the invention；

The structural representation for the pipeline that Fig. 2 provides for first embodiment of the invention；

The structural representation for the impeller that Fig. 3 provides for first embodiment of the invention；

The structural representation for the stator that Fig. 4 provides for first embodiment of the invention；

The structural representation for the Magnetic drive generator that Fig. 5 provides for first embodiment of the invention；

The structural representation for the Magnetic drive generator that Fig. 6 provides for second embodiment of the invention；

Fig. 7 is A-A profile structure diagram in Fig. 6；

The cross-sectional view for another impeller that Fig. 8 provides for second embodiment of the invention；

The structural representation for the Magnetic drive generator that Fig. 9 provides for third embodiment of the invention.

In figure：100a- Magnetic drive generators；100b- Magnetic drive generators；100c- Magnetic drive generators；20- pipelines； 210- accommodating chambers；211- directed fluid inlets；213- diversion outlets；215- fixed covers；30- impellers；311- impeller bodies；317- first Mounting groove；320- blades；330- impeller axles；40- TRTs；411- grooves；The mounting grooves of 413- second；414- lids；415- Power hole；420- mounting holes；430- stators；431- coils；433- shells；440- rotors；441- the first rotors；Second turn of 443- Son；450- installation cavitys.

Embodiment

To make the purpose, technical scheme and advantage of the embodiment of the present invention clearer, below in conjunction with the embodiment of the present invention In accompanying drawing, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is A part of embodiment of the present invention, rather than whole embodiments.The present invention implementation being generally described and illustrated herein in the accompanying drawings The component of example can be arranged and designed with a variety of configurations.

Therefore, the detailed description of embodiments of the invention below to providing in the accompanying drawings is not intended to limit claimed The scope of the present invention, but be merely representative of the present invention selected embodiment.Based on the embodiment in the present invention, this area is common The every other embodiment that technical staff is obtained under the premise of creative work is not made, belongs to the model that the present invention is protected Enclose.

It should be noted that：Similar label and letter represents similar terms in following accompanying drawing, therefore, once a certain Xiang Yi It is defined in individual accompanying drawing, then it further need not be defined and explained in subsequent accompanying drawing.

In the description of the invention, it is necessary to which explanation, the orientation or position relationship of the instruction such as term " interior ", " outer " are base In orientation shown in the drawings or position relationship, or the orientation usually put when using of the invention product or position relationship, only It is to be described for the ease of the description present invention with simplified, rather than indicates or imply that the device or element of meaning must be with specifically Orientation, with specific azimuth configuration and operation, therefore be not considered as limiting the invention.In addition, term " first ", " the Two " etc. are only used for distinguishing description, and it is not intended that indicating or implying relative importance.

In the description of the invention, in addition it is also necessary to explanation, unless otherwise clearly defined and limited, term " setting ", " installation ", " connected ", " connection " should be interpreted broadly, for example, it may be fixedly connected or be detachably connected, or one Connect body；Can be mechanical connection or electrical connection；Can be joined directly together, can also be indirect by intermediary It is connected, can is the connection of two element internals.For the ordinary skill in the art, on being understood with concrete condition State the concrete meaning of term in the present invention.

First embodiment

The present embodiment provides a kind of electricity generation system (not shown), and it includes the Magnetic drive generator 100a of electrical connection and drawn Line, lead is electrically connected with power supply unit or electric storage device.

Specifically, referring to Fig. 1, Magnetic drive generator 100a includes pipeline 20, impeller 30 and TRT 40.Pipeline 20 can be the pipeline for having pressure difference, or isobaric pipeline, also be not specifically limited herein.

Also referring to Fig. 1 and Fig. 2, pipeline 20 is communicated with accommodating chamber 210, the two ends of the correspondence accommodating chamber 210 of pipeline 20 With directed fluid inlet 211 and diversion outlet 213, so that the fluid in pipeline 20 enters accommodating chamber 210 through directed fluid inlet 211, most Flowed out afterwards by diversion outlet 213.The cross section of accommodating chamber 210 can be circle, rectangle, trapezoidal, irregular geometric form etc., this reality Apply in example, the cross section of accommodating chamber 210 is circle.The axis of directed fluid inlet 211 and diversion outlet 213 can with it is parallel, overlap or Angled to set, directed fluid inlet 211 is overlapped with the axis of diversion outlet 213 in the present embodiment.

Impeller 30 is arranged in accommodating chamber 210, so that fluid forces impeller 30 is rotated.

Please continue to refer to Fig. 1, in order to further increase the pressure differential of directed fluid inlet 211 and diversion outlet 213, strengthen fluid To the driving force of impeller 30, it is preferred that the cross-sectional area of directed fluid inlet 211 is less than the cross-sectional area of diversion outlet 213.Its In, the shape of cross section of directed fluid inlet 211, such as can be deltiod, bar shaped, preferably deltiod.Diversion outlet 213 Shape of cross section may be configured as circle, rectangle, trapezoidal etc., and this area staff can be set according to the actual requirements, herein Do not limit.

It is highly preferred that the axis of the axis of directed fluid inlet 211 and diversion outlet 213 can with it is parallel, overlap or angled set Put, the axis of impeller 30 and the flow direction of fluid can also it is vertical, parallel or it is angled set, in the present embodiment, water conservancy diversion enters The axis of mouth 211 is overlapped with the axis of diversion outlet 213, and the axis of directed fluid inlet 211 is vertical with the axis of impeller 30, i.e. leaf The axis of wheel 30 is vertical with the flow direction of fluid, further driving force of the increase fluid to impeller 30.

Specifically, referring to Fig. 3, impeller 30 includes impeller body 311 and impeller axle 330.

Wherein, the quantity of impeller 30 can be one, or multiple, such as two, three, in the present embodiment, The quantity of impeller 30 is one.

Impeller body 311 is offered in the first mounting groove 317, the present embodiment along its rotation direction at least provided with side, Side of the impeller body 311 along its rotation direction offers the first mounting groove 317, and it is remote that the first mounting groove 317 is opened in impeller 30 From the side of accommodating chamber 210.Impeller axle 330 is arranged in the first mounting groove 317, and impeller axle 330 is connected with impeller body 311.

Alternatively, impeller 30 also includes blade 320, and blade 320 is connected with impeller body 311, and blade 320 can be flat board Blade, circular arc narrow blades, curved blade, wing blades, plate curve backward inclined blade etc., are not specifically limited, belong to herein In in the scope of the present invention.

Also referring to Fig. 3 and Fig. 4, TRT 40 includes stator 430 and rotor 440, and rotor 440 includes first turn Son 441, the first rotor 441 be made up of magnetic material and along impeller 30 rotation direction it is circumferentially disposed.

Specifically, continuing with Fig. 1, Fig. 3 and Fig. 4 is referred in the lump, the first rotor 441 is enclosed located at the first mounting groove 317 Side wall, specifically, the first rotor 441 enclose the madial wall located at the first mounting groove 317, and the first rotor 441 is the magnetic circle of ring-type Or magnetic block, magnetic block is uniformly distributed in the side wall of the first mounting groove 317.Magnetic circle and magnetic block be preferably volume compared with Small, more light magnetic circle, so as to ensure the stability that the first rotor 441 is rotated.In other embodiments of the present invention, impeller 30 It can also be connected with the first rotor 441 by power transmission shaft (not shown).

Stator 430 includes shell 433 and the coil 431 being arranged in shell 433, and coil 431 is electrically connected with lead, outside The mounting groove 317 of shell 433 and first coordinates so that coil 431 is located in the first mounting groove 317.So as to the first rotor 441 and impeller 30 synchronous axial systems are so that the cutting magnetic induction line of coil 431 on stator 430 and in producing induced-current in coil 431.

Also referring to Fig. 4 and Fig. 5, shell 433 is provided with mounting hole 420, the second mounting groove 413 and lid 414.

Mounting hole 420 is used to fix side of the impeller axle 330 away from the body of impeller 30, makes impeller 30 is continual and steady to turn It is dynamic.Preferably, mounting hole 420 is arranged at shell 433 close to the side of impeller 30.It is highly preferred that shell 433 is close to impeller 30 Side is embedded in the first mounting groove 317, and the first mounting groove 317 of sealing.

Shell 433 is covered to be used to seal accommodating chamber 210 in accommodating chamber 210, and anti-fluid flow goes out, while sealing first is installed Groove 317, prevents fluid from entering the internal corrosion rotor 440 of the first mounting groove 317 and the contaminated-fluid of rotor 440.

Preferably, shell 433 is provided with groove 411, is equipped with sealing gasket (not shown) in groove 411, impeller body 311 with The clamping of groove 411, on the one hand further enhances closed type, on the other hand spacing to impeller body 311, stabilizes it generating.

Second mounting groove 413 is arranged at side of the shell 433 away from impeller 30, and coil 431 is installed on the second mounting groove 413 Interior, coil 431 coordinates with the first rotor 441, when the first rotor 441 is rotated, makes the cutting magnetic induction of coil 431 on stator 430 Line simultaneously produces induced-current in the coil 431.

Lid 414 is arranged at the opening of the second mounting groove 413, specifically, and lid 414 is removable installed in the second peace At the opening of tankage 413, dismountable mode is not done herein such as can be clamping, be interference fitted, be threadedly coupled or be hinged Limit, it is highly preferred that lid 414 offers power hole 415, export the lead electrically connected with coil 431, it is safer, whole It is clean, while convenient use.

Magnetic drive generator 100a operation principle is：Fluid driven impeller 30 is rotated, and the impeller 30 of rotation, which drives, to be set Rotated in the first rotor 441 of the first mounting groove 317, the mounting groove 317 of shell 433 and first coordinates so that coil 431 is located at the In one mounting groove 317, so that the first rotor 441 is with the cutting magnetic induction line of coil 431 and in generation induced-current in coil 431.

Second embodiment

Fig. 6 is refer to, the present embodiment provides a kind of Magnetic drive generator 100b, its Magnetic drive provided with first embodiment Generator 100a structure is similar, and difference is, between impeller 30, TRT 40 and TRT 40 and impeller 30 Matching relationship.

Rotor 440 includes the rotor 443 of the first rotor 441 and second.

Wherein, the first rotor 441 is arranged at impeller body 311 along its rotation direction at least provided with side, specifically, One rotor 441 is along impeller body 311 positioned at the circumferentially disposed of at least one end, it should be noted that, impeller 30 can also be overall The first rotor 441, the i.e. generally magnetic material of impeller 30 is set to be made.

In the present embodiment, the first rotor 441 is arranged at two ends of impeller body 311,

The use of magnetic material is effectively reduced, is avoided waste, while improving generating efficiency.

In the present embodiment, referring to Fig. 7, it is in quincuncial solid cylinder that impeller 30, which is cross section,.

Referring to Fig. 8, it is in quincuncial open tubular column that another impeller 30 that the present embodiment is provided, which can also include cross section, Body, and as made from magnetic material in quincuncial solid magnet as the first rotor 441, the first rotor 441 is arranged at sky In stem body, and the first rotor 441 and hollow cylinder eccentric setting, so that fluid is easy to promote impeller 30 to rotate.

Second rotor 443 is made up of magnetic material, and the second rotor 443 is oppositely arranged and homopolarity with the first rotor 441, therefore By magnetic drives, magnetic force drives the second rotor 443 to rotate when the first rotor 441 is rotated, the cutting magnetic induction line of coil 431 and in line Induced-current is produced in circle 431.Homopolarity described herein refers to positioned at the same side of the rotor 443 of the first rotor 441 and second Polarity is identical, relative side opposite polarity, thus the first rotor 441 is attracted each other with the second rotor 443 by magnetic force, The second rotor 443 is driven to rotate so as to which the first rotor 441 is synchronous.

In order to further enhance the attraction between the rotor 443 of the first rotor 441 and second, the first rotor 441 and second Rotor 443 is oppositely arranged and coaxially, axis of second rotor 443 along coil 431, which is rotated, to be set so that coil 431 cuts second turn The magnetic induction line of son 443.

Preferably, the position of the correspondence of pipeline 20 the first rotor 441 is communicated with installation cavity 450, and installation cavity 450 is away from pipeline 20 One end sealing, impeller 30 rotates and is arranged in installation cavity 450, and the second rotor 443 is arranged at that installation cavity 450 is outer and the second rotor 443 is corresponding with the position of the first rotor 441, and the second rotor 443 is with the synchronous axial system of the first rotor 441 so that coil on stator 430 431 cut the magnetic induction line of the second rotors 443 and in generation induced-current in coil 431.The setting of installation cavity 450 makes second simultaneously Rotor 443, stator 430 are easily installed firmly, while being prevented effectively from fluid leakage hidden danger, stable safety.

In the present embodiment, the axis of pipeline 20 is vertical with the axis of installation cavity 450, axis and the impeller 30 of installation cavity 450 Diameter parallel.

Preferably, the second rotor 443 is rotatably arranged at the outer wall of pipeline 20, so that the rotor of the first rotor 441 and second The distance between 443 is small, and magnetic consumption is low, effectively improves generating efficiency.

In other embodiments of the invention, it can also set and be oppositely arranged between the rotor 443 of the first rotor 441 and second And at least one layer of magnetic material of homopolarity, at least one layer of magnetic material can be arranged in installation cavity 450, can also be arranged at peace It behave affectedly outside 450, drives the second rotor 443 to walk around by magnetic material dynamic, be not specifically limited herein.

In the present embodiment, impeller 30 can be applied to impeller for waist wheel, ball wheel, flat pattern gear, parallel curved gear etc. are various Axle 330 is horizontally set at the impeller 30 in accommodating chamber 210.

Impeller 30 is that cross section can be rectangle, circle, random geometry etc., to the horizontal stroke of impeller 30 in the present embodiment Section is not limited, and the quantity of impeller 30 can be one, or multiple, in the present embodiment, the quantity of preferred impeller 30 For one, and fluid flow direction is vertical with impeller axle 330, and flow of fluid impeller 30 is rotated.

In others embodiment of the invention, the cylinder that impeller 30 can also be in the figure of eight for cross section, leaf preferably now 30 quantity are taken turns for two, the impeller axle 330 of two impellers 30 is parallel, and two impellers 30 are under the driving of fluid, driven mutually Other side rotates, and effectively improves generating efficiency.

Magnetic drive generator 100b operation principle is：Fluid driven impeller 30 is rotated, and the impeller 30 of rotation drives first Rotor 441 is rotated, and the first rotor 441 drives the second rotor 443 to rotate by Magnetic drive, so that the cutting magnetic induction line of coil 431 is simultaneously In generation induced-current in coil 431.

3rd embodiment

It refer to Fig. 9, the present embodiment provides a kind of Magnetic drive generator 100c, the Magnetic drive of itself and first embodiment generates electricity Machine 100a is roughly the same, and the difference of the two is that the TRT 40 of the present embodiment, impeller 30 and cooperation therebetween are closed System.

The axis of directed fluid inlet 211 and diversion outlet 213 can with it is parallel, overlap or it is angled set, led in the present embodiment The angled setting of axis of inflow entrance 211 and diversion outlet 213.

The first rotor 441 is arranged at side of the impeller 30 away from accommodating chamber 210, and the shape of the first rotor 441 can be according to tool Body torsion needs to may be configured as various geometries, does not limit herein.

For further fixed impeller 30, preferably there is fixed cover 215 in accommodating chamber 210,

The one end of impeller axle 330 away from TRT 40 is rotatably embedded in fixed cover 215.

Rotor 440 includes the rotor 443 of the first rotor 441 and second.

Wherein, the first rotor 441 is arranged at impeller body 311 along its rotation direction at least provided with side, specifically, One rotor 441 is along impeller body 311 positioned at the circumferentially disposed of at least one end, it should be noted that, impeller 30 can also be overall The first rotor 441, the i.e. generally magnetic material of impeller 30 is set to be made.

Second rotor 443 is made up of magnetic material, and the second rotor 443 is oppositely arranged and homopolarity with the first rotor 441, therefore By magnetic drives, magnetic force drives the second rotor 443 to rotate when the first rotor 441 is rotated, the cutting magnetic induction line of coil 431 and in line Induced-current is produced in circle 431.Homopolarity described herein refers to positioned at the same side of the rotor 443 of the first rotor 441 and second Polarity is identical, relative side opposite polarity, thus the first rotor 441 is attracted each other with the second rotor 443 by magnetic force, The second rotor 443 is driven to rotate so as to which the first rotor 441 is synchronous.

In order to further enhance the attraction between the rotor 443 of the first rotor 441 and second, the first rotor 441 and second Rotor 443 is oppositely arranged and coaxially.Axis of second rotor 443 along coil 431, which is rotated, to be set so that coil 431 cuts second turn The magnetic induction line of son 443.Second rotor 443 is arranged at outside accommodating chamber 210 and the second rotor 443 is corresponding with the position of the first rotor 441, Sealing for improving pipeline 20, prevents fluid leakage.

Magnetic drive generator 100c operation principle is：Fluid driven impeller 30 is rotated, and the impeller 30 of rotation drives first Rotor 441 is rotated, and the first rotor 441 drives the second rotor 443 to rotate by Magnetic drive, so that the cutting magnetic induction line of coil 431 is simultaneously In generation induced-current in coil 431.

In summary, the present invention is provided Magnetic drive generator and electricity generation system, by being spaced magnetic induction safely and effectively Generated electricity, environmental protection, generating efficiency is high, while effectively preventing the hidden danger of gas leakage, leakage.Simultaneously by Magnetic drive generator and Electricity generation system electricity be able to can be used by power supply unit, electric storage device etc., effectively improve liquid phase in pipeline, gaseous fluid Utilization rate.

The preferred embodiments of the present invention are the foregoing is only, are not intended to limit the invention, for the skill of this area For art personnel, the present invention can have various modifications and variations.Within the spirit and principles of the invention, that is made any repaiies Change, equivalent substitution, improvement etc., should be included in the scope of the protection.

Claims (10)

1. a kind of Magnetic drive generator, it is characterised in that be arranged at including the pipeline for flow of fluid, rotation in the pipeline At least one rotatable impeller, and TRT, the TRT include rotor and stator, and the rotor includes first Rotor, the first rotor be made up of magnetic material and rotation direction along the impeller circumferentially disposed, the first rotor With the impeller synchronous axial system so that coil cutting magnetic induction line on the stator and in producing induced-current in the coil.

2. Magnetic drive generator according to claim 1, it is characterised in that the stream of the axis of the impeller and the fluid Dynamic direction is vertical.

3. Magnetic drive generator according to claim 2, it is characterised in that the impeller is at least set along its rotation direction Put side and offer the first mounting groove, the first rotor is enclosed located at the side wall of first mounting groove and synchronous with the impeller Motion, the stator includes shell and the coil being arranged in the shell, the shell and first mounting groove Coordinate so that the coil is located in first mounting groove.

4. Magnetic drive generator according to claim 3, it is characterised in that the first rotor is enclosed located at the described first peace The madial wall of tankage.

5. Magnetic drive generator according to claim 1, it is characterised in that the rotor also includes being made up of magnetic material The second rotor, second rotor is fixed on outside the pipeline, and the first rotor and the second rotor are oppositely arranged and coaxially, Axis of second rotor along the coil, which is rotated, to be set so that the coil on the stator cuts the bitrochanteric magnetic Feel line.

6. Magnetic drive generator according to claim 5, it is characterised in that the position of the pipeline correspondence the first rotor Put and be communicated with installation cavity, the wheel rotation is arranged in the installation cavity, the first rotor is located at extremely along the impeller One end is circumferentially disposed less, and one end sealing of the installation cavity away from the pipeline, second rotor is arranged at the peace Outer and described second rotor of behaveing affectedly is corresponding with the first rotor position.

7. Magnetic drive generator according to claim 6, it is characterised in that the axis of the pipeline and the installation cavity Axis is vertical, the diameter parallel of the axis of the installation cavity and the impeller.

8. Magnetic drive generator according to claim 5, it is characterised in that second rotor is rotatably arranged at institute State the outer wall of pipeline.

9. Magnetic drive generator according to claim 1, it is characterised in that there is the pipeline directed fluid inlet to go out with water conservancy diversion Mouthful, the cross-sectional area of the directed fluid inlet is less than the cross-sectional area of the diversion outlet.

10. a kind of electricity generation system, it is characterised in that including the Magnetic drive generator described in claim any one of 1-9, Yi Jiyu The lead of the coil electrical connection, the lead is electrically connected with power supply unit or electric storage device.