CN204707017U - A kind of Blast Furnace Top Gas Recovery Turbine Unit (TRT), controller and switching system - Google Patents

Abstract

The utility model discloses a kind of Blast Furnace Top Gas Recovery Turbine Unit (TRT), controller and switching system, wherein, Blast Furnace Top Gas Recovery Turbine Unit (TRT) comprises: magnetite component, and it is for generation of magnetic field; Be wound with the magnetic conductor of power coil, when magnetic conductor and magnetite component produce relative movement, the magnetic flux of power coil changes, thus produces electric energy.This Blast Furnace Top Gas Recovery Turbine Unit (TRT) is configuration rotor and stator not, and the numerous coil configured compared to existing Blast Furnace Top Gas Recovery Turbine Unit (TRT) and the structure of its complexity, this generating device structure is more simple, and its coil quantity also greatly reduces.So just make this Blast Furnace Top Gas Recovery Turbine Unit (TRT) can have less volume, thus be applicable to various application demand, particularly less to Blast Furnace Top Gas Recovery Turbine Unit (TRT) volume requirement application demand.

Description

A kind of Blast Furnace Top Gas Recovery Turbine Unit (TRT), controller and switching system

Technical field

The utility model relates to electric and electronic technical field, specifically, relates to a kind of Blast Furnace Top Gas Recovery Turbine Unit (TRT), controller and switching system.

Background technology

Along with development that is industrial and sensing technology, increasing power consumption equipment starts to become requisite part in people's daily life.And many power consumption equipments in actual use, due to environmental limitations, its electric power system starts the key factor becoming the application of constraint power consumption equipment.

Mechanical energy generation technology based on the electromagnetic induction principle of conductive coil can produce enough large electric current and voltage.And mostly existing Blast Furnace Top Gas Recovery Turbine Unit (TRT) is the circular configuration adopting traditional coil and rotor.This makes the volume of existing Blast Furnace Top Gas Recovery Turbine Unit (TRT) relatively large, can not meet the power demands to the comparatively harsh power consumption equipment of space requirement.

Utility model content

For solving the problem, the utility model provides a kind of Blast Furnace Top Gas Recovery Turbine Unit (TRT), and described Blast Furnace Top Gas Recovery Turbine Unit (TRT) comprises:

Magnetite component, it is for generation of magnetic field;

Be wound with the magnetic conductor of power coil, when described magnetic conductor and described magnetite component produce relative movement, the magnetic flux of described power coil changes, thus produces electric energy.

According to an embodiment of the present utility model,

Described magnetite component is " U " body, and it comprises the first magnetite end and the second magnetite end, and described magnetic conductor part extends in the space between described first magnetite end and the second magnetite end; Or,

Described magnetite component is square body, and it comprises the first magnetite end and the second magnetite end, described magnetic conductor and described magnetite member contact or near arranging.

According to an embodiment of the present utility model, described magnetite component comprises permanent magnet and the first magnetic field bundling piece, the end thereof contacts of described first magnetic field bundling piece and described permanent magnet, form described first magnetite end, for the magnetic flux density of one end of permanent magnet described in boundling, wherein

When described magnetic conductor or magnetite component are subject to external force, described magnetic conductor and described first magnetic field bundling piece produce relative movement, and the magnetic flux of the power coil be wrapped on described magnetic conductor is changed, thus produce electric energy.

According to an embodiment of the present utility model, described first magnetite component also comprises the second magnetic field bundling piece, and described second magnetic field bundling piece contacts with the other end of described permanent magnet, form described second magnetite end, for the magnetic flux density of the other end of permanent magnet described in boundling, wherein

When described magnetic conductor or magnetite component are subject to external force, described magnetic conductor and the second magnetic field bundling piece produce relative movement, and the magnetic flux of the power coil be wrapped on described magnetic conductor is changed, thus produce electric energy.

According to an embodiment of the present utility model, described Blast Furnace Top Gas Recovery Turbine Unit (TRT) comprises multiple described magnetite component, and described multiple magnetite component is oppositely arranged, adjacent setting or be arranged side by side.

According to an embodiment of the present utility model, the first magnetite end of described multiple magnetite component is positioned at the homonymy of described magnetic conductor and polarity is contrary or identical each other.

In addition, in the specific implementation, further, multiple magnetite component can common housing and/or magnetic field bundling piece.

According to an embodiment of the present utility model, described magnetic conductor comprises the first magnetic conduction end and the second magnetic conduction end, and when described magnetic conductor and described magnetite component produce relative movement, described first magnetic conduction end and the second magnetic conduction end keep moving in the same way or counter motion.

The utility model additionally provides a kind of controller, and described controller comprises:

As above the Blast Furnace Top Gas Recovery Turbine Unit (TRT) described in any one;

Button portion, it is connected with described Blast Furnace Top Gas Recovery Turbine Unit (TRT), for applying external force to the magnetite component of described Blast Furnace Top Gas Recovery Turbine Unit (TRT) or magnetic conductor, makes to produce relative movement between described magnetite component and magnetic conductor, and then the magnetic flux of the power coil be wrapped on magnetic conductor is changed, thus generation current;

Signal transmission circuit, it is connected with described Blast Furnace Top Gas Recovery Turbine Unit (TRT), for producing control signal according to the electric current received from described Blast Furnace Top Gas Recovery Turbine Unit (TRT) and outwards sending.

According to an embodiment of the present utility model:

Described button portion comprises button and key support, and described button is connected with described magnetite component or magnetic conductor, and for described magnetite component or magnetic conductor being drawn high or forced down under the effect of external force, described key support is for supporting described button; Or,

Described button portion comprises button and elastic component, described button is connected with described magnetite component or magnetic conductor, for applying external force to described magnetite component or magnetic conductor, to press down or to draw high magnetite component in Blast Furnace Top Gas Recovery Turbine Unit (TRT) or magnetic conductor, described elastic component is arranged on bottom described magnetite component or magnetic conductor, for when external force is cancelled, described magnetite component or magnetic conductor are returned to home position.

According to an embodiment of the present utility model, described button portion also comprises:

Guide rail, described magnetite component or magnetic conductor are arranged on described guide rail, and under the effect of described button, described magnetite component or magnetic conductor are along described guide rail movement.

According to an embodiment of the present utility model, described controller comprises multiple button portion and Blast Furnace Top Gas Recovery Turbine Unit (TRT), each button portion and Blast Furnace Top Gas Recovery Turbine Unit (TRT) are connected respectively, preferably, described controller comprises multiple signal transmission circuit, wherein, each signal transmission circuit and each Blast Furnace Top Gas Recovery Turbine Unit (TRT) connect one to one.

The invention also discloses a kind of switching system, described switching system comprises:

As above the controller described in any one;

The switch portion corresponding with described controller, closed or disconnect under the effect of its control signal sent at described controller, thus control the operating state of respective external electrical equipment.

According to an embodiment of the present utility model, described switch portion comprises signal receiving module and switch module, and described signal receiving module receives the control signal that described controller sends, and controls described switch module disconnection or closed according to described control signal.

Blast Furnace Top Gas Recovery Turbine Unit (TRT) provided by the utility model is configuration rotor and stator not, but comprises magnetite component, magnetic conductor and power coil.The numerous coil configured compared to existing Blast Furnace Top Gas Recovery Turbine Unit (TRT) and the structure of its complexity, generating device structure provided by the utility model is more simple, and its coil quantity also greatly reduces.So just make this Blast Furnace Top Gas Recovery Turbine Unit (TRT) can have less volume, thus be applicable to various application demand, particularly less to Blast Furnace Top Gas Recovery Turbine Unit (TRT) volume requirement application demand.

Built-in power generation device in the controller of switching system provided by the utility model, this makes controller can not re-use battery to provide the electric energy needed for work, has stopped environmental pollution in the future.The mode that this switching system can adopt wireless remote control to control, and built-in signal encryption chip.This just makes in construction and decoration, can no longer need to arrange connection circuit, which simplifies circuit arrangement, reduces deployment cost.

Owing to adopting wireless signal to be connected between controller with switch portion, this effectively prevent the generation of electric shock accidents in routine use process, thus ensure that the safety of user and electric device.This controller can adopt button layout design, outward appearance and using method the same with traditional switch, not do not change user's use habit, be more easily accepted.Controller in this switching system, because structure is more simple, therefore also just can adopt ultrathin design, and such product is also just more attractive in appearance.And controller can adopt the method such as double faced adhesive tape or clamp to arrange and be installed to wall optional position, and conveniently change position in the future, this just efficiently solves traditional remote controller and easily throws out without care conveniently and make to use next time the problem being not easy to find, and can also overcome traditional switch simultaneously and be inconvenient to change the defects such as position.

Other features and advantages of the utility model will be set forth in the following description, and, partly become apparent from specification, or understand by implementing the utility model.The purpose of this utility model and other advantages realize by structure specifically noted in specification, claims and accompanying drawing and obtain.

Accompanying drawing explanation

In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, do simple introduction by accompanying drawing required in embodiment or description of the prior art below:

Fig. 1 is the structural representation of the generating assembling device according to the utility model embodiment;

Fig. 2 and Fig. 3 is front view according to the Blast Furnace Top Gas Recovery Turbine Unit (TRT) of the utility model embodiment and vertical view respectively;

Fig. 4 is the vertical view of the Blast Furnace Top Gas Recovery Turbine Unit (TRT) according to the utility model embodiment;

Fig. 5 is the front view of the Blast Furnace Top Gas Recovery Turbine Unit (TRT) according to the utility model embodiment;

Fig. 6 is the front view of the Blast Furnace Top Gas Recovery Turbine Unit (TRT) according to the utility model embodiment;

Fig. 7 a is the vertical view of the Blast Furnace Top Gas Recovery Turbine Unit (TRT) according to the utility model embodiment;

Fig. 7 b is the vertical view of the Blast Furnace Top Gas Recovery Turbine Unit (TRT) according to the utility model embodiment;

Fig. 8 a and Fig. 8 b is front view according to the magnetite component of the utility model embodiment and left view respectively;

Fig. 8 c is the front view of the magnetite component according to the utility model embodiment;

Fig. 9 is the structural representation of the controller according to the utility model embodiment;

Figure 10 is the structural representation of the controller according to the utility model embodiment;

Figure 11 is the structural representation of the switching system according to the utility model embodiment.

Embodiment

Describe execution mode of the present utility model in detail below with reference to drawings and Examples, to the utility model, how application technology means solve technical problem whereby, and the implementation procedure reaching technique effect can fully understand and implement according to this.It should be noted that, only otherwise form conflict, each embodiment in the utility model and each feature in each embodiment can be combined with each other, and the technical scheme formed is all within protection range of the present utility model.

Meanwhile, in the following description, many details have been set forth for illustrative purposes, to provide the thorough understanding to the utility model embodiment.But, it will be apparent to those skilled in the art that the utility model can detail here or described ad hoc fashion be implemented.

embodiment one:

Fig. 1 shows the structural representation of the Blast Furnace Top Gas Recovery Turbine Unit (TRT) that the present embodiment provides.

As shown in Figure 1, the Blast Furnace Top Gas Recovery Turbine Unit (TRT) that the present embodiment provides comprises magnetite component 101, magnetic conductor 102 and power coil 103.Wherein, magnetite component 101 is for generation of stabilizing magnetic field, and power coil 103 is around being fixed on magnetic conductor 102.When being moved under the effect in external force when magnetic conductor 102 and/or magnetite component 101, between magnetite component 101 and magnetic conductor 102, also just produce relative movement.Because power coil 103 is fixed on magnetic conductor 102, when therefore producing relative movement between magnetic conductor 102 and magnetite component 101, also relative movement can be produced between power coil 103 and magnetite component 101, so also just cause the magnetic flux through power coil 103 to change, thus make power coil 103 produce electric energy.

Particularly, as shown in Figure 1, in the present embodiment, magnetic conductor 102 is in " U " shape, and it comprises the first magnetic conduction end 102a and has space between the second magnetic conduction end 102b, the first magnetic conduction end 102a and the second magnetic conduction end 102b.Magnetite component 101 is arranged in the space between the first magnetic conduction end 102a and the second magnetic conduction end 102b.

In the first moment, the first magnetic conduction end 102a of magnetic conductor 102 contacts with one end (such as N pole) of magnetite component 101.Because magnetic conductor 102 can boundling magnetic flux density control the direction of magnetic flux, the therefore polarity identical (such as N pole) of one end of magnetite component 101 that will be in contact with it of the polarity of magnetic conductor 102.

In the second moment, magnetic conductor 102 is moved under the effect of external force, make its first magnetic conduction end 102a depart from one end (such as N pole) of magnetite component 101, the second magnetic conduction end 102b contacts with the other end (such as S pole) of magnetite component 101 simultaneously.The polarity identical (such as S pole) of the other end of the magnetite component 101 be in contact with it due to the polarity of magnetic conductor 102, therefore during the second moment, the polarity of magnetic conductor 102 there occurs change (becoming S pole from N pole) relative to the first moment.Power coil 103 to be looped around on magnetic conductor 102 and mobile with magnetic conductor 102, and therefore from the first moment to the second moment, the magnetic flux of power coil 103 there occurs change, thus produces electric energy.

Certainly, in other embodiments of the present utility model, magnetic conductor 102 can not also contact with magnetite component 101 or only with the end thereof contacts of magnetite component 101, such magnetite component 101 is distance the first magnetic conduction end 102a of magnetic conductor 102 or the second magnetic conduction end 102b is not different in the same time, thus the magnetic flux of the power coil 103 be wrapped on magnetic conductor 102 is changed, and then generation electric energy, the utility model is not limited thereto.

It should be noted that, in different embodiment of the present utility model, the number of turn and the quantity of the power coil 103 that magnetic conductor 102 is wound around can adjust according to actual needs, simultaneously, the position that power coil 103 is looped around on magnetic conductor 102 also can adjust according to actual needs, and the utility model is not limited thereto.Such as in different embodiment of the present utility model, a position of magnetic conductor 102, b position and/or c position can be provided with power coil 103.

In addition, also it should be noted that, in different embodiment of the present utility model, it is stressed that what be moved both can be magnetic conductor 102, also can be magnetite component 101, can also be magnetic conductor 102 and magnetite component 101, as long as the magnetic flux of the power coil 103 be looped around on magnetic conductor 102 can be made to change, the utility model be not limited thereto equally simultaneously.

As can be seen from foregoing description, the Blast Furnace Top Gas Recovery Turbine Unit (TRT) that the present embodiment provides is configuration rotor and stator not, but comprises magnetite component, magnetic conductor and power coil.The numerous coil configured compared to existing Blast Furnace Top Gas Recovery Turbine Unit (TRT) and the structure of its complexity, the generating device structure that the present embodiment provides is more simple, and its coil quantity also greatly reduces.The Blast Furnace Top Gas Recovery Turbine Unit (TRT) so just making the present embodiment provide can have less volume, thus is applicable to various application demand, particularly less to Blast Furnace Top Gas Recovery Turbine Unit (TRT) volume requirement application demand.

embodiment two:

Fig. 2 and Fig. 3 respectively illustrates front view and the vertical view of the Blast Furnace Top Gas Recovery Turbine Unit (TRT) that the present embodiment provides.

As shown in Figure 2, the power coil 203 that the Blast Furnace Top Gas Recovery Turbine Unit (TRT) that the present embodiment provides comprises magnetite component 201, magnetic conductor 202 and is wrapped on magnetic conductor 202.Wherein, magnetite component 201 is " U " body, and comprise the first magnetite end (i.e. A end) and the second magnetite end (i.e. B end), the first magnetite end and the second magnetite end stretch out from the main body of magnetite component 201, thus form " U " word structure.One end (i.e. C end and the D end) part of magnetic conductor 202 extends in the space between the first magnetite end and the second magnetite end.

In the present embodiment, magnetite component 201 comprises permanent magnet 204, first magnetic field bundling piece 205 and the second magnetic field bundling piece 206.Wherein, first magnetic field bundling piece 205 contacts with one end (such as N pole) of permanent magnet 204, form the first magnetite end (i.e. A end), second magnetic field bundling piece 206 contacts with the other end (such as S pole) of permanent magnet 204, forms the second magnetite end (i.e. B end).

It should be noted that, in other embodiments of the present utility model, magnetite component 201 also can not comprise the first magnetic field bundling piece 205 and/or the second magnetic field bundling piece 206, the corresponding site of the first magnetic field bundling piece 205 and/or the second magnetic field bundling piece 206 can be made up of permanent magnet 204, namely permanent magnet 204 is as " L " body or " U " body, and the utility model is not limited thereto.Meanwhile, in other embodiments of the present utility model, one end of magnetic conductor 202 can not also extend in the space between the first magnetite end and the second magnetite end, and the utility model is not limited thereto equally.

In the present embodiment, magnetite component 201 also includes housing 207.Housing 207 wraps permanent magnet 204, first magnetic field bundling piece 205 and the second magnetic field bundling piece 206, and is being formed with opening towards one end of magnetic conductor 202, so that magnetic conductor 202 and magnetite component 201 can carry out relative movement.

In the present embodiment, housing 207 can fixing as a whole by permanent magnet 204, first magnetic field bundling piece 205 and the second magnetic field bundling piece 206, and this entirety be connected with other parts.This structure effectively can ensure permanent magnet 204 and the first magnetic field bundling piece 205 and the second magnetic field bundling piece 206 reliable contacts, so that reliably boundling is carried out in the first magnetic field bundling piece 205 and the second magnetic field bundling piece 206 pairs of magnetic fields, the fixed form between permanent magnet 204, first magnetic field bundling piece 205 and the second magnetic field bundling piece 206 three can also be simplified simultaneously, reduce volume and the cost of magnetite component.

It should be noted that, in other embodiments of the present utility model, other rational methods can also be adopted to fix permanent magnet 204, first magnetic field bundling piece 205 and the second magnetic field bundling piece 206, such as adopt colloid to be fixed, the utility model is not limited thereto.

As can be seen from Figure 3, the magnetic conductor 202 of the Blast Furnace Top Gas Recovery Turbine Unit (TRT) that the present embodiment provides is " U " body, it comprises the first magnetic conduction end (i.e. C end) and the second magnetic conduction end (i.e. D end), wherein, magnetic conductor end and the second end are in identical state (namely in the space that the first magnetic field bundling piece 205 and the second magnetic field bundling piece 206 are formed, first magnetic conduction end is in the identical height and position of y-axis with the second magnetic conduction end), when magnetic conductor and magnetite component produce relative movement, the first magnetic conduction end and the second magnetic conduction end keep moving in the same way.Certainly, in other embodiments of the present utility model, magnetic conductor end and the first magnetic field bundling piece also can keep counter motion (when such as the first magnetic conduction end moves upward along y-axis, the second magnetic conduction end moves downward along y-axis), and the utility model is not limited thereto.

In the present embodiment, power coil 203 is wrapped in a position of magnetic conductor 202.It should be noted that, in other embodiments of the present utility model, power coil 203 can also be positioned at other rational position places of magnetic conductor 202, and such as b position and/or c position, the utility model is not limited thereto.In addition, in other embodiments of the present utility model, magnetic conductor 202 can also be wound with multiple power coil, each power coil position can be arranged on rational position on magnetic conductor according to actual needs, the utility model is not limited thereto equally.

Certainly, in other embodiments of the present utility model, magnetic conductor can also be other Reasonable Shape, " E " body such as shown in Fig. 4, also or other axisymmetric bodies such as rhabodoid, " work " body, " king " body, annular solid, " day " body or " order " body, also or (such as, each magnetic conductive part is shaft-like by multiple magnetic conductive part be arranged side by side, and separate) form, the utility model is not limited thereto.

When supposing for the first moment, the C end of magnetic conductor 202 contacts with the first magnetite end (namely A holds) of magnetite component 201 with D end, and the polarity of such magnetic conductor 202 is by identical with the polarity of the first magnetite end (such as N pole).When moving down along the y-axis direction under the effect of magnetic conductor 202 in external force, C end and D end are by disengaging first magnetic field bundling piece 205, and the magnetic flux of such power coil 203 will change, thus generation electric energy.

Magnetic conductor 202 continues to move down along the y-axis direction under the effect of external force, and when the second moment, its C holds and contacts with the second magnetic field bundling piece 206 with D end.During the first moment, the polarity of magnetic conductor 202 is identical with the polarity of the first magnetic field bundling piece 205 (such as N pole), and during the second moment, the polarity of magnetic conductor 202 is identical with the polarity of the second magnetic field bundling piece 206 (such as S pole).From the first moment to the second moment, the polarity of magnetic conductor 202 there occurs reversion, and the variable quantity of the magnetic flux of power coil 203 is also maximum, and its electric current produced is also maximum.

Certainly, in other embodiments of the present utility model, the moving range of magnetic conductor 202 can also adjust according to actual needs, such as only move at the zone line in the space that the first magnetic field bundling piece 205 and the second magnetic field bundling piece 206 are formed, or only move in the first half region, also or in the outside of void area move, the utility model is not limited thereto.

In addition, also it should be noted that, in other embodiments of the present utility model, magnetite component 201 can also be other Reasonable Shape, and the utility model is not limited thereto equally.

Such as, as shown in Figure 5, in an embodiment of the present utility model, compared to the Blast Furnace Top Gas Recovery Turbine Unit (TRT) shown in Fig. 2 and Fig. 3, the permanent magnet 204 of this Blast Furnace Top Gas Recovery Turbine Unit (TRT) and the first magnetic field bundling piece 205 and the second magnetic field bundling piece 206 wide, thus form a square structure.Meanwhile, in this embodiment, the C of magnetic conductor 202 end and D hold all with magnetite member contact, and along the side surface generation relative movement of magnetite component.Certainly, in other embodiments of the present utility model, the C of magnetic conductor 202 end and D end can not also with magnetite member contact, but be arranged on the position of close magnetite component.When magnetite component and magnetic conductor 202 produce relative movement, C end and the D end of magnetic conductor 202 keep certain intervals with magnetite component.

As can be seen from foregoing description, similar with the Blast Furnace Top Gas Recovery Turbine Unit (TRT) provided shown in embodiment one, the Blast Furnace Top Gas Recovery Turbine Unit (TRT) that the present embodiment provides has the feature that structure is simple, volume is little equally.In addition, the Blast Furnace Top Gas Recovery Turbine Unit (TRT) that the present embodiment provides arranges by the two ends at permanent magnet the magnetic flux density that magnetic conductor comes boundling permanent magnet two ends respectively, contribute to improving the variable quantity of the magnetic flux of power coil when magnetic conductor and magnetite component produce relative movement like this, thus the electric energy that increase power coil produces.

embodiment three:

Fig. 6 shows the structural representation of the Blast Furnace Top Gas Recovery Turbine Unit (TRT) that the present embodiment provides.

As shown in Figure 6, compared to the Blast Furnace Top Gas Recovery Turbine Unit (TRT) shown in embodiment two, the power coil 304 that the Blast Furnace Top Gas Recovery Turbine Unit (TRT) device that the present embodiment provides comprises two magnetite components (i.e. the first magnetite component 301 and the second magnetite component 302), magnetic conductor 303 and is wrapped on magnetic conductor 303.First magnetite component 301 is identical with the structure of the magnetite component 201 shown in embodiment two with the second magnetite component 302, does not repeat them here.

As can be seen from Figure 6, in the present embodiment, the first magnetite component 301 and the second magnetite component 302 staggered relatively, magnetic conductor 303 is placed between the first magnetite component 301 and the second magnetite component 302.One end of magnetic conductor 303 (such as G end) extend into the A end of the first magnetite component 301 and B hold between space in, the E that the other end (such as H end) extends into the first magnetite component 302 holds and F hold between space in.

The same port of different magnetite component is identical with the distance between magnetic conductor.Such as, the A port of the first magnetite component and the E port of the second magnetite component are same port, and B port and F port are same port.In the present embodiment, the distance between the A port of the first magnetite component 301 and magnetic conductor 303 equals the distance between the E port of the second magnetite component 302 and magnetic conductor 303.

It should be noted that, in other embodiments of the present utility model, G end and/or H end also can not extend in corresponding space, and the utility model is not limited thereto.

When supposing for the first moment, magnetic conductor 303 G end and the A end in contact of the first magnetite component 301, because the first magnetite component 301 and the second magnetite component 302 are oppositely arranged, the therefore G end of magnetic conductor 303 and the E end in contact of the second magnetite component 302.The polarity of such magnetic conductor 303 is held with the A of the first magnetite component 301 identical with the polarity that the E of the second magnetite component 302 holds (such as N pole).When moving down along the y-axis direction under the effect of magnetic conductor 303 in external force, the E of the A end and the second magnetite component 302 that depart from the first magnetite component 301 respectively holds by the C end of magnetic conductor 303 and D end, the magnetic flux of such power coil 304 will change, thus produce electric energy.

Magnetic conductor 303 continues to move down along the y-axis direction under the effect of external force, and when the second moment, its C holds and D end is held with the B of the first magnetite component 301 respectively and the F end in contact of the second magnetite component 302.During the first moment, the polarity of magnetic conductor 303 is identical with the polarity that the A of the first magnetite component 301 holds (such as N pole), and during the second moment, the polarity of magnetic conductor 202 is identical with the polarity that the B of the first magnetite component 301 holds (such as S pole).From the first moment to the second moment, the polarity of magnetic conductor 303 there occurs reversion, and the variable quantity of the magnetic flux of power coil 304 is also maximum, and its electric current produced is also maximum.

In the present embodiment, the first magnetite end (A end) of the first magnetite component and the first magnetite end (i.e. E end) of the second magnetite component are positioned at the homonymy of magnetic conductor 303 (such as, as can be seen from Figure 6, A end and E end are all positioned at the top of magnetic conductor 303) and polarity is identical each other.Such as, the A end of the first magnetite component 301 and the E end of the second magnetite component 302 are N pole, and the B end of the first magnetite component 301 and the F end of the second magnetite component 302 are S pole.

It should be noted that, in other embodiments of the present utility model, the first magnetite end of the first magnetite component and the second magnetite component can also be positioned at the homonymy of magnetic conductor and polarity is contrary each other, and the utility model is not limited thereto.Such as in an embodiment of the present utility model, the A end of the first magnetite component 301 and the F end of the second magnetite component 302 are N pole, and the B end of the first magnetite component 301 and the E end of the second magnetite component 302 are S pole.

Certainly, in other embodiments of the present utility model, the moving range of magnetic conductor 303 and move mode can also adjust according to actual needs, and the utility model is not limited thereto.Simultaneously, in embodiment of the present utility model, first magnetite component and the second magnetite component can also adopt other rational arrangement modes (such as arranged adjacent or laid out in parallel etc.), simultaneously, first magnetite component and the second magnetite component can also share a set of shells and/or magnetic conductor, and the utility model is not limited thereto equally.Such as, in an embodiment of the present utility model, the first magnetite component and the second magnetite component have employed arrangement mode as shown in Figure 7a, and the opening direction of the first magnetite component 301 is perpendicular.

The vertical view of Blast Furnace Top Gas Recovery Turbine Unit (TRT) as shown in Figure 7b, in an embodiment of the present utility model, the first magnetite component 301 and the second magnetite component 302 can also be arranged side by side.First magnetite component 301 both can be identical with the polarity of the same port of the second magnetite component 302, also can be different, and the two can share a set of shells or magnetic conductor.Now, the position of polarity only with it in the first magnetite component 301 of the C end of magnetic conductor 303 is relevant, and the position of polarity only with it in the second magnetite component 302 of the D end of magnetic conductor 303 is relevant.

Certainly, in other embodiments of the present utility model, between the first magnetite component 301 and the second magnetite component 302, interval can not also be there is, in addition, these two magnetite components can also share a set of shells and/or magnetic conductor, and as shown in Fig. 8 a, Fig. 8 b and Fig. 8 c, the utility model is not limited thereto.In this embodiment, the permanent magnet of the first magnetite component and the second magnetite component is respectively permanent magnet 204a and permanent magnet 204b, and permanent magnet 204a and permanent magnet 204b is arranged side by side, the first magnetite end (i.e. A end) is positioned at the homonymy of magnetic conductor and polarity is contrary each other.

First magnetite component and the second magnetite component share the first magnetic field bundling piece 205 and the second magnetic field bundling piece 206.Because the first magnetite end polarity of the first magnetite component and the second magnetite component is contrary, therefore the polarity of its second magnetite end is also contrary.Like this, the left end of the first magnetic field bundling piece 205 will be N pole, and right-hand member will be S pole.And the left end of the second magnetic field bundling piece 206 will be S pole, right-hand member will be N pole.

In the first moment, the first magnetic conduction end of " U " shape magnetic conductor contacts with the left end of the first magnetic field bundling piece 205, and the second magnetic conduction end contacts with the right-hand member of the first magnetic field bundling piece 205.So, the first magnetic conduction end of magnetic conductor will become N pole, and right-hand member will become S pole.In the second moment, the first magnetic conduction end of " U " shape magnetic conductor contacts with the left end of the second magnetic field bundling piece 206, and the second magnetic conduction end contacts with the right-hand member of the second magnetic field bundling piece 206.So, the first magnetic conduction end of magnetic conductor will become S pole, and right-hand member will become N pole.In the second moment, the change that the polarity at magnetic conductor two ends occurred compared to the first moment, this also just makes the magnetic flux of the power coil be wrapped on magnetic conductor change, thus produces electric energy.

In an embodiment of the present utility model, the permanent magnet 204a in the magnetite component shown in Fig. 8 a and Fig. 8 b and permanent magnet 204b can also with the first magnetic field bundling piece 205 and the second magnetic field bundling piece 206 wide.Now, the front view of this magnetite component will be the square body shown in Fig. 8 c.

The structure of Fig. 8 a, Fig. 8 b and the magnetite component shown by Fig. 8 c is due to shared magnetic field bundling piece, its structure is more simple, volume is less, meanwhile, and the magnetic flux of this structure also favourable increase power coil, to improve the variable quantity of power coil magnetic flux, thus increase the electric energy produced.

In addition; it should be noted that; the quantity of the power coil that the Blast Furnace Top Gas Recovery Turbine Unit (TRT) that the present embodiment provides comprises and arrangement mode thereof are only used to clearly set forth the purpose of this utility model, principle and advantage, and it is not as the restriction to the protection range required by the utility model.

It is pointed out that in other embodiments of the present utility model, what under the effect of external force, produce movement can also be the first magnetite component 301 and the second magnetite component 302, and the utility model is not limited thereto.Such as in an embodiment of the present utility model, magnetic conductor 303 maintains static, first magnetite component 301 and the second magnetite component 302 make phase position therebetween to change (such as counter motion under the effect of external force, or move to equidirectional with different speed respectively), the magnetic flux of such power coil 304 also can change, thus produces electric energy.

Certainly, in other embodiments of the present utility model, Blast Furnace Top Gas Recovery Turbine Unit (TRT) can also comprise two or more magnetite component, each magnetite component can adopt and be oppositely arranged, is disposed adjacent or is arranged side by side, simultaneously, the all right common housing of part or all of magnetite component or magnetic conductor, the utility model is not limited thereto.

As can be seen from foregoing description, in the Blast Furnace Top Gas Recovery Turbine Unit (TRT) that the present embodiment provides, because the increase of magnetite number of components, the magnetic strength amount through power coil inside effectively can be increased.When magnetic, component and power coil are subjected to displacement, power coil internal magnetic flux changes larger, thus the electricity produced is larger, effectively meets the work requirements of relatively high power circuit.

The present embodiment additionally provides a kind of controller, and this controller does not need additionally to access external power source, but is powered by the Blast Furnace Top Gas Recovery Turbine Unit (TRT) described in above-mentioned any one.This controller comprises Blast Furnace Top Gas Recovery Turbine Unit (TRT) described above, button portion and signal transmission circuit.Wherein, button portion is connected with Blast Furnace Top Gas Recovery Turbine Unit (TRT), for applying external force to the magnetite component of Blast Furnace Top Gas Recovery Turbine Unit (TRT) or magnetic conductor, making to produce relative displacement between magnetite component and magnetic conductor, thus the magnetic flux of the power coil be looped around on magnetic conductor is changed with generation current.Signal transmission circuit is connected with the power coil in Blast Furnace Top Gas Recovery Turbine Unit (TRT), for producing according to the electric current received from Blast Furnace Top Gas Recovery Turbine Unit (TRT) and outwards transmitting control signal, to control corresponding external equipment.

Fig. 9 shows the structural representation of the controller that the present embodiment provides.

As shown in Figure 9, in the controller that provides of the present embodiment, button portion comprises button 901 and key support 902.Wherein, key support 902 is fixed on base plate 903, and is arranged on the middle part of button 901, with support keys 901.When one end of button 901 receives pressing, due to the support of key support 902, will be declined by by end, the other end then rises accordingly.Certainly, in other embodiments of the present utility model, support 902 can also be arranged on one end of button 901, and the utility model is not limited thereto.

Blast Furnace Top Gas Recovery Turbine Unit (TRT) is arranged on the side of key support 902, and it comprises magnetite component 904 and magnetic conductor 905, magnetic conductor 905 is wound with power coil 909.In the present embodiment, magnetite component 904 is connected with button 901 by buckle 908, and magnetic conductor 905 is fixed on base plate 903.Certainly, in other embodiments of the present utility model, magnetite component and button 901 can also adopt other reasonable manners to be connected, and such as hinge etc., the utility model is not limited thereto.

In order to ensure that magnetite component 904 can move according to predetermined direction when being subject to external force, the button portion of the controller that the present embodiment provides also comprises guide rail 907.Magnetite component 904 is arranged on guide rail 907.Like this, when magnetite component 904 is subject to external force, just can move along the direction of guide rail 907.It should be noted that, in other embodiments of the present utility model, other reasonable manners can also be adopted to ensure the direction of motion of magnetite component 904 when being subject to External Force Acting, and the utility model is not limited thereto.

As shown in Figure 9, when a place of button 901 is pressed, a place of button 901 can decline, thus drives magnetite component 904 to move downward along guide rail 907 by buckle 908.In the present embodiment, when magnetite component 904 drops to minimum point, its first end 904a will contact with magnetic conductor 905, thus make the polarity of magnetic conductor 905 identical with the polarity (such as N pole) of the first end 904a of magnetite component 904.In the process that magnetite component 904 moves down along guide rail 907, the magnetic flux being looped around the power coil 909 on magnetic conductor 905 changes, and thus produces electric energy.

When the b place of button 901 is pressed, the b place of button 901 can decline, and will rise in a place, thus drives magnetite component 904 to move upward along guide rail 907 by buckle 908.In the present embodiment, when magnetite component 904 rises to peak, its second end 904b will contact with magnetic conductor 905, thus make the polarity of magnetic conductor 905 identical with the polarity (such as S pole) of the second end 904b of magnetite component 904.In the process that magnetite component 904 moves up along guide rail 907, the magnetic flux being looped around the power coil 909 on magnetic conductor 905 changes, and thus produces electric energy.

It should be noted that, in other embodiments of the present utility model, can also the first magnetite component 904 be fixedly installed on base plate 903, magnetic conductor 905 be arranged on guide rail 907, thus magnetic conductor 905 is moved along guide rail 907 under the effect of external force, the utility model is not limited thereto.

As shown in Figure 9, in the present embodiment, signal transmission circuit 906 is arranged on base plate 903, and it is connected with the power coil 909 in Blast Furnace Top Gas Recovery Turbine Unit (TRT).When power coil 909 is because of magnetic flux change during generation current, signal transmission circuit 906 can generate corresponding control signal according to this electric current, and this control signal is outwards sent, to control the external equipment be attached thereto.In the present embodiment, the control signal of generation can be converted to wireless signal and send by signal transmission circuit 906, and certainly, in other embodiments of the present utility model, control signal also can send in the mode of the signal of telecommunication, and the utility model is not limited thereto.

Certainly, in other embodiments of the present utility model, controller can also adopt other reasonable manners, such as button one end is fixed, one end is connected with magnetite component in addition, with External Force Acting in button one end, makes it drive magnetite component to move, other are as above described in example, and the utility model is not limited thereto.Such as, in another embodiment of the present utility model, controller have employed structure as shown in Figure 10.

Can find out in conjunction with Figure 10 and Fig. 9, the controller shown in Figure 10 is compared and the controller shown in Fig. 9, and it only there are differences in the implementation in button portion.Therefore, only the fit system of button portion and button portion and Blast Furnace Top Gas Recovery Turbine Unit (TRT) is described below, clearly to set forth the characteristic of this controller.

As shown in Figure 10, this button portion comprises button 1001 and elastic component 1002.Wherein, button 1001 is connected with magnetite component 904, for applying external force to magnetite component 904, move downward along guide rail 907 to make magnetite component 904, and make the elastic component 1002 be fixed between base plate 903 and magnetite component 904 produce deformation (such as when elastic component is spring, spring is compressed).In the process that magnetite component 904 moves downward, the magnetic flux being wrapped in the power coil 909 on magnetic conductor 905 changes, thus generation current.

When being applied to the external force on magnetite component 904 and cancelling, the elastic component 1002 that deformation occurs will return to reset condition (such as when elastic component is spring, spring recovers), thus magnetite component 904 is moved upward along guide rail 907.In the process that magnetite component 904 moves upward, the magnetic flux being wrapped in the power coil 909 on magnetic conductor 905 also can change, and now power coil 909 also can generation current.

With the controller class shown in Fig. 9 seemingly, button 1001 and elastic component 1002 can also be set to be connected with magnetic conductor 905, and meanwhile, magnetic conductor 905 is arranged on guide rail 907.Like this, when button 1001 is pressed, magnetic conductor 905 can move downward along guide rail 907, and makes elastic component 1002 produce deformation, and power coil 909 in this course magnetic flux changes, thus generation current.When being applied to the external force on button 1001 and being cancelled, the elastic component 1002 that deformation occurs recovers, thus magnetic conductor 905 is moved upward along guide rail 907, and power coil 909 in this course magnetic flux also can change, thus generation current.

In addition, in other embodiments of the present utility model, controller can also comprise multiple button and Blast Furnace Top Gas Recovery Turbine Unit (TRT), each button is corresponding with each Blast Furnace Top Gas Recovery Turbine Unit (TRT) to be connected, and the electric current of generation is exported to signal transmission circuit that is same or each correspondence, to produce control signal by signal transmission circuit and to export, the utility model is not limited thereto equally.

As can be seen from foregoing description, the controller architecture that the present embodiment provides is more compact, and button can be designed to circle, ellipse or other shapes, and product-forming is more succinctly attractive in appearance.

The utility model additionally provides a kind of switching system, and the controller of this switching system does not need extraneous power supply, and its Blast Furnace Top Gas Recovery Turbine Unit (TRT) configured by therein provides electric energy.Figure 11 shows the structural representation of the switching system that the present embodiment provides.

As shown in figure 11, the switching system that the present embodiment provides comprises controller 1101 and switch portion 1102.Wherein, controller 1101 adopts controller as above, and its internal configurations has Blast Furnace Top Gas Recovery Turbine Unit (TRT).When the button of controller 1101 is pressed or unclamps, controller 1101 will produce corresponding control signal.Switch portion 1102 is connected with controller 1101, closed or disconnect under the effect of its control signal sent at controller 1101, thus realizes on-off action, so just can control the operating state of outside electrical equipment.

Switch portion 1102 comprises signal receiving module 1103 and switch module 1104.Signal receiving module 1103 receives the control signal that controller sends, and carrys out the closed of control switch module 1104 according to this control signal or disconnect.In the present embodiment, the wireless signal received can be converted to the signal of telecommunication by signal receiving module 1103, to obtain corresponding control signal.Switching function in switch module 1104 adopts relay to realize, and certainly, in other embodiments of the present utility model, switch module 1104 can also adopt other rational components and parts or circuit to realize, and the utility model is not limited thereto.

Along with people's living standard improves and scientific and technological development day by day, various electric equipment use amount in people's daily life gets more and more.The controller of various electrical work can be controlled and also become requisite circuit arrangement, and controlled object modal be contactor.Along with the raising of people's living standard, increasing people adopt " concealed wire " (namely electric wire being constructed inside wall by spool is default) to carry out cloth circuits.But traditional switch system is all need live wire to draw, and be arranged into correct position, so just increase the complexity of household lines, also add the cost of construction and decoration, and in routine use process, may meet accident electric shock accidents.

As can be seen from foregoing description, built-in power generation device in the controller of switching system provided by the utility model, this makes controller can not re-use battery to provide the electric energy needed for work, has stopped environmental pollution in the future.This switch portion is connected by wireless signal with controller, and this also makes in construction and decoration, can no longer need to arrange connection circuit, which simplifies circuit arrangement, reduces deployment cost; Effectively prevent the generation of electric shock accidents in routine use process simultaneously, thus ensure that the safety of user and electric device.This controller can adopt button layout design, outward appearance and using method the same with traditional switch, not do not change user's use habit, be more easily accepted.Controller in this switching system, because structure is more simple, therefore also just can adopt ultrathin design, and such product is also just more attractive in appearance.And, controller can adopt the method such as double faced adhesive tape or clamp to arrange and be installed to wall optional position, and conveniently change position in the future, this just efficiently solves traditional remote controller and easily throws out without care conveniently and make to use next time the problem being not easy to find, and can also overcome traditional switch simultaneously and be inconvenient to change the defects such as position.

It should be understood that embodiment disclosed in the utility model is not limited to ad hoc structure disclosed herein, treatment step or material, and the equivalent of these features that those of ordinary skill in the related art understand should be extended to substitute.It is to be further understood that term is only for describing the object of specific embodiment as used herein, and and do not mean that restriction.

Special characteristic, structure or characteristic that " embodiment " mentioned in specification or " embodiment " mean to describe in conjunction with the embodiments are included at least one embodiment of the present utility model.Therefore, specification various places throughout occur phrase " embodiment " or " embodiment " might not all refer to same embodiment.

Conveniently, multiple project, construction unit, component units and/or material can appear in common list as used herein.But each element that these lists should be interpreted as in this list is identified as member unique separately respectively.Therefore, when not having reverse side to illustrate, in this list, neither one member only can appear in common list the actual equivalent of other member any being just interpreted as same list based on them.In addition, can also come together with reference to various embodiment of the present utility model and example together with for the alternative of each element at this.Should be understood that, these embodiments, example and substitute and be not interpreted as equivalent each other, and be considered to representative autonomous separately of the present utility model.

In addition, described feature, structure or characteristic can be attached in one or more embodiment in any other suitable manner.In superincumbent description, provide some concrete details, such as shape etc., to provide the complete understanding to embodiment of the present utility model.But those skilled in the relevant art will understand, the utility model just can realize without the need to above-mentioned one or more concrete details, or also can adopt the realizations such as other method, assembly, material.In other example, known structure, material or operation are not shown specifically or describe in order to avoid fuzzy various aspects of the present utility model.

Although above-mentioned example is for illustration of the principle of the utility model in one or more application, but for a person skilled in the art, when not deviating from principle of the present utility model and thought, obviously can in form, the details of usage and enforcement does various amendment and need not creative work be paid.Therefore, the utility model is limited by appending claims.

Claims (15)

1. a Blast Furnace Top Gas Recovery Turbine Unit (TRT), is characterized in that, described Blast Furnace Top Gas Recovery Turbine Unit (TRT) comprises:

Magnetite component, it is for generation of magnetic field;

Be wound with the magnetic conductor of power coil, when described magnetic conductor and described magnetite component produce relative movement, the magnetic flux of described power coil changes, thus produces electric energy.

2. Blast Furnace Top Gas Recovery Turbine Unit (TRT) as claimed in claim 1, is characterized in that,

Described magnetite component is " U " body, and it comprises the first magnetite end and the second magnetite end, and described magnetic conductor part extends in the space between described first magnetite end and the second magnetite end; Or,

Described magnetite component is square body, and it comprises the first magnetite end and the second magnetite end, described magnetic conductor and described magnetite member contact or near arranging.

3. Blast Furnace Top Gas Recovery Turbine Unit (TRT) as claimed in claim 2, it is characterized in that, described magnetite component comprises permanent magnet and the first magnetic field bundling piece, the end thereof contacts of described first magnetic field bundling piece and described permanent magnet, forms described first magnetite end, for the magnetic flux density of one end of permanent magnet described in boundling, wherein

When described magnetic conductor or magnetite component are subject to external force, described magnetic conductor and described first magnetic field bundling piece produce relative movement, and the magnetic flux of the power coil be wrapped on described magnetic conductor is changed, thus produce electric energy.

4. Blast Furnace Top Gas Recovery Turbine Unit (TRT) as claimed in claim 3, it is characterized in that, described first magnetite component also comprises the second magnetic field bundling piece, described second magnetic field bundling piece contacts with the other end of described permanent magnet, form described second magnetite end, for the magnetic flux density of the other end of permanent magnet described in boundling, wherein

When described magnetic conductor or magnetite component are subject to external force, described magnetic conductor and the second magnetic field bundling piece produce relative movement, and the magnetic flux of the power coil be wrapped on described magnetic conductor is changed, thus produce electric energy.

5. the Blast Furnace Top Gas Recovery Turbine Unit (TRT) according to any one of claim 2 ~ 4, is characterized in that, described Blast Furnace Top Gas Recovery Turbine Unit (TRT) comprises multiple described magnetite component, and described multiple magnetite component is oppositely arranged, adjacent setting or be arranged side by side.

6. Blast Furnace Top Gas Recovery Turbine Unit (TRT) as claimed in claim 5, it is characterized in that, the first magnetite end of described multiple magnetite component is positioned at the homonymy of described magnetic conductor and polarity is contrary or identical each other.

7. Blast Furnace Top Gas Recovery Turbine Unit (TRT) as claimed in claim 6, is characterized in that, multiple magnetite component common housing and/or magnetic field bundling piece.

8. Blast Furnace Top Gas Recovery Turbine Unit (TRT) as claimed in claim 1, it is characterized in that, described magnetic conductor comprises the first magnetic conduction end and the second magnetic conduction end, and when described magnetic conductor and described magnetite component produce relative movement, described first magnetic conduction end and the second magnetic conduction end keep moving in the same way or counter motion.

9. a controller, is characterized in that, described controller comprises:

Blast Furnace Top Gas Recovery Turbine Unit (TRT) according to any one of claim 1 ~ 8;

Button portion, it is connected with described Blast Furnace Top Gas Recovery Turbine Unit (TRT), for applying external force to the magnetite component of described Blast Furnace Top Gas Recovery Turbine Unit (TRT) or magnetic conductor, makes to produce relative movement between described magnetite component and magnetic conductor, and then the magnetic flux of the power coil be wrapped on magnetic conductor is changed, thus generation current;

Signal transmission circuit, it is connected with described Blast Furnace Top Gas Recovery Turbine Unit (TRT), for producing control signal according to the electric current received from described Blast Furnace Top Gas Recovery Turbine Unit (TRT) and outwards sending.

10. controller as claimed in claim 9, is characterized in that:

Described button portion comprises button and key support, and described button is connected with described magnetite component or magnetic conductor, and for described magnetite component or magnetic conductor being drawn high or forced down under the effect of external force, described key support is for supporting described button; Or,

Described button portion comprises button and elastic component, described button is connected with described magnetite component or magnetic conductor, for applying external force to described magnetite component or magnetic conductor, to press down or to draw high magnetite component in Blast Furnace Top Gas Recovery Turbine Unit (TRT) or magnetic conductor, described elastic component is arranged on bottom described magnetite component or magnetic conductor, for when external force is cancelled, described magnetite component or magnetic conductor are returned to home position.

11. controllers as claimed in claim 10, it is characterized in that, described button portion also comprises:

Guide rail, described magnetite component or magnetic conductor are arranged on described guide rail, and under the effect of described button, described magnetite component or magnetic conductor are along described guide rail movement.

12. controllers according to any one of claim 9 ~ 11, it is characterized in that, described controller comprises multiple button portion and Blast Furnace Top Gas Recovery Turbine Unit (TRT), and each button portion and Blast Furnace Top Gas Recovery Turbine Unit (TRT) are connected respectively.

13. controllers as claimed in claim 12, it is characterized in that, described controller comprises multiple signal transmission circuit, and wherein, each signal transmission circuit and each Blast Furnace Top Gas Recovery Turbine Unit (TRT) connect one to one.

14. 1 kinds of switching systems, is characterized in that, described switching system comprises:

Controller according to any one of claim 9 ~ 13;

The switch portion corresponding with described controller, closed or disconnect under the effect of its control signal sent at described controller, thus control the operating state of respective external electrical equipment.

15. switching systems as claimed in claim 14, it is characterized in that, described switch portion comprises signal receiving module and switch module, and described signal receiving module receives the control signal that described controller sends, and controls described switch module disconnection or closed according to described control signal.