CN206135681U - Miniature generating set - Google Patents
Miniature generating set Download PDFInfo
- Publication number
- CN206135681U CN206135681U CN201621049184.1U CN201621049184U CN206135681U CN 206135681 U CN206135681 U CN 206135681U CN 201621049184 U CN201621049184 U CN 201621049184U CN 206135681 U CN206135681 U CN 206135681U
- Authority
- CN
- China
- Prior art keywords
- board
- magnetic conductive
- magnetic
- left end
- magnetic conduction
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Withdrawn - After Issue
Links
Landscapes
- Toys (AREA)
Abstract
The utility model relates to a miniature generating set, characteristics are including electricity generation structure, base, installation cover and press the wane structure, but the installation cover is established on the installation frame and the luffing motion, the electricity generation structure includes magnetic conduction pole, solenoid, upward magnetic conduction board, permanent magnet reach magnetic conduction board down, going up magnetic conduction board, lower magnetic conduction board and permanent magnet and all fixing in the installation cover, the permanent magnet is located between the left end of magnetic conduction board and lower magnetic conduction board, the magnetic conduction pole is fixed on the installation frame, and the left end of magnetic conduction pole is close to the permanent magnet and lies in the magnetic conduction board and down between the left end of magnetic conduction board, and the right -hand member of magnetic conduction pole lies in the magnetic conduction board and down between the right -hand member of magnetic conduction board, but goes up magnetic conduction board and lower relative solenoid of magnetic conduction board and magnetic conduction pole luffing motion, press wane structure pivoted and establish on the base, press the left and right both ends luffing motion that the wane structure drove the installation cover. Its advantage does: the operational reliability is high, and the generated energy is big, and is small, satisfies the all -weather permanent demand of using of user, economic environmental protection, and adaptability is wide.
Description
Technical field
The utility model is related to a kind of miniature power generating device.
Background technology
Electronic product is widely used in life, and low power dissipation electron product generally uses battery as the power supply of work,
Such as electric switch, electronic door bell and remote control.There is limitation using battery as power supply, it is short that it has service life, need
Periodic replacement battery, the use cost of user is higher;Due also to battery easily gets rusty and leakage, electronic product can be substantially reduced
Reliability, and the round-the-clock permanent needs that the energy is provided cannot be met, make troubles to user;Manufacture battery not only needs to consume
Resource, and substantial amounts of old and useless battery is dropped, and pollutes environment.There is a kind of micro generation product at present, but its generated energy is little, no
Battery can completely be replaced.
The content of the invention
The purpose of this utility model is to overcome the deficiencies in the prior art and provide a kind of miniature power generating device, functional reliability
Height, generated energy is big, and small volume meets the round-the-clock permanent demand for using of user, and economic and environment-friendly, wide adaptability can replace completely
Battery.
In order to achieve the above object, a kind of miniature power generating device of the present utility model be achieved in that it is characterized in that
Including electrification structure, base, installation set and pressing seesaw structure;Wherein
Installation frame is provided with the base, the installation is set on installation frame and can swing up and down;
The electrification structure includes magnetic conductive pole, solenoid, upper conduction magnetic board, permanent magnet and lower magnetic conductive board;The upper magnetic conduction
Plate, lower magnetic conductive board and permanent magnet are each attached in installation set, the permanent magnet be located at upper conduction magnetic board and lower magnetic conductive board left end it
Between;The solenoid is around being located on magnetic conductive pole, and solenoid and magnetic conductive pole are located between upper conduction magnetic board and lower magnetic conductive board, described
Magnetic conductive pole is fixed on installation frame, the left end of magnetic conductive pole near permanent magnet and be located at upper conduction magnetic board and lower magnetic conductive board left end it
Between, the right-hand member of magnetic conductive pole is located between upper conduction magnetic board and the right-hand member of lower magnetic conductive board, upper conduction magnetic board electromagnetic wire relative with lower magnetic conductive board
Circle and magnetic conductive pole can swing up and down;
What the pressing seesaw structure was rotated is located on base, presses seesaw structure and drives the left and right two ends of installation set upper and lower
Swing.
In the technical program, the permanent magnet is clamped between the left end of upper conduction magnetic board and lower magnetic conductive board;The electromagnetism
Coil and magnetic conductive pole are located in the space that upper conduction magnetic board and lower magnetic conductive board are formed.
In the technical program, the right-hand member of the upper conduction magnetic board and lower magnetic conductive board is in enlarging shape, so as to increase magnetic conductive pole
The right-hand member or the right-hand member contact area of lower magnetic conductive board of right-hand member and upper conduction magnetic board.
In the technical program, the left end of the magnetic conductive pole is wedge shaped, so as to increase the left end and upper conduction magnetic board of magnetic conductive pole
Left end or lower magnetic conductive board left end contact area.
In the technical program, the pressing seesaw structure is pressing seesaw, and press that the middle part of seesaw rotates is located at bottom
On seat, the installation set upper surface is resisted against on the lower surface of pressing seesaw.
In the technical program, also including flexure strip, the pressing seesaw structure drives the left end of flexure strip to swing up and down,
The right-hand member of the flexure strip is connected so as to drive installation set to swing up and down with installation set.
In the technical program, adapter sleeve is provided with the left end of the installation set, the right-hand member of the flexure strip plugs fixation
Flexure strip is set to be fixed in installation set between adapter sleeve and the left end of installation set.
In the technical program, the pressing seesaw structure includes pressing plate and support spring, in the left part of the base
Be provided with bracing frame, the left end of the pressing plate rotate on bracing frame, the lower end of the support spring is arranged on base
On, the upper end of support spring supports pressing plate, is provided with below the middle part of pressing plate and buckles position, and the left end of the flexure strip is inserted in
Buckle on position.
In the technical program, the pressing seesaw structure includes pressing plate and torque spring, in the left part of the base
Bracing frame is provided with, by axis of rotation on bracing frame, the torque spring is located at rotating shaft to the left end of the pressing plate
On, one end of torque spring is resisted against in pressing plate, and the other end of torque spring is resisted against on base, the left end of the flexure strip
Ride on the right part of pressing plate.
In the technical program, the pressing seesaw structure includes reed, and the lower end of the reed is arranged on a left side for base
Portion, the left end of the flexure strip is connected with the upper end of reed.
The utility model advantage compared with prior art is:Functional reliability is high, and generated energy is big, small volume, meets and uses
The round-the-clock permanent demand for using in family, economic and environment-friendly, wide adaptability.
Description of the drawings
Fig. 1 is the stereogram of the utility model embodiment one;
Fig. 2 is the top view of the utility model embodiment one;
Fig. 3 is the A-A cutaway view Amplified images of Fig. 2;
Fig. 4 is the B-B cutaway view Amplified images of Fig. 2;
Fig. 5 is the stereogram that pressing seesaw structure is deleted in the utility model embodiment one;
Fig. 6 is the stereogram of the utility model embodiment two;
Fig. 7 is the top view of the utility model embodiment two;
Fig. 8 is the C-C cutaway view Amplified images of Fig. 6;
Fig. 9 is the D-D cutaway view Amplified images of Fig. 6;
Figure 10 is the stereogram that pressing seesaw structure is deleted in the utility model embodiment two;
Figure 11 is a kind of magnetic line of force trace-diagram of state of embodiment one;
Figure 12 is the magnetic line of force trace-diagram of another kind of state of embodiment one
Figure 13 is the stereogram of the utility model embodiment three;
Figure 14 is the top view of the utility model embodiment three;
Figure 15 is the E-E cutaway view Amplified images of Figure 12;
Figure 16 is the F-F cutaway view Amplified images of Figure 12;
Figure 17 is the stereogram of the utility model example IV;
Figure 18 is the structural representation of the utility model example IV;
Figure 19 is the stereogram of the utility model embodiment five;
Figure 20 is the structural representation of the utility model embodiment five.
Specific embodiment
Specific embodiment of the present utility model is described further below in conjunction with the accompanying drawings.Here it should be noted that
For the explanation of these embodiments is used to help understand the utility model, but do not constitute to restriction of the present utility model.This
Outward, as long as technical characteristic involved in the utility model disclosed below each embodiment does not constitute each other punching
It is prominent to be just combined with each other.
In the utility model description, term " on ", D score, "left", "right", the orientation of the instruction such as " front " and " afterwards " or position
The relation of putting is, based on orientation shown in the drawings or position relationship, to be for only for ease of description the utility model rather than require this reality
With it is new must be with specific azimuth configuration and operation, therefore it is not intended that to restriction of the present utility model.
Embodiment one
As shown in Figures 1 to 5, it is a kind of miniature power generating device, including electrification structure, base 1, installation set 2 and pressing
Seesaw structure 4;Wherein
Installation frame 101 is provided with the base 1, in the installation frame 101 axle sleeve 102 is respectively provided on two sides with,
Be respectively provided on two sides with rotating shaft 21 in the installation set 2, two rotating shafts 21 rotate respectively in two axle sleeves 102, so pacify
Encapsulation 2 is on installation frame 101 and can swing up and down;
The electrification structure includes magnetic conductive pole 7, solenoid 8, upper conduction magnetic board 9, permanent magnet 10 and lower magnetic conductive board 11;It is described
Upper conduction magnetic board 9, lower magnetic conductive board 11 and permanent magnet 10 are each attached in installation set 2, and the permanent magnet 10 is located at upper conduction magnetic board 9 with
Between the left end of magnetic conductive board 11, the two poles of the earth of permanent magnet 10 can fit with upper conduction magnetic board 9 and lower magnetic conductive board 11, it is also possible to not paste
Close, laminating generating effect is more preferable;Around being located on magnetic conductive pole 7, solenoid 8 and magnetic conductive pole 7 are located at upper magnetic conduction to the solenoid 8
Between plate 9 and lower magnetic conductive board 11, the magnetic conductive pole 7 is fixed on installation frame 101, and the left end of magnetic conductive pole 7 is near permanent magnet 10
And between the left end of upper conduction magnetic board 9 and lower magnetic conductive board 11, the right-hand member of magnetic conductive pole 7 is located at upper conduction magnetic board 9 and lower magnetic conductive board 11
Right-hand member between, the solenoid 8 relative with lower magnetic conductive board 11 of upper conduction magnetic board 9 and magnetic conductive pole 7 can swing up and down;
The pressing seesaw structure 4 is pressing seesaw, and in the middle part of pressing seesaw axis hole 43, installing frame are respectively provided on two sides with
Two axle sleeves 102 of frame 101 rotate respectively in two axis holes 43, so press seesaw rotate installed in installation frame
On 101, installation set 2 is located at the lower section of pressing seesaw and cooperates, and presses seesaw and drives the bottom on the left and right two ends of installation set 2
It is dynamic, so as to the left and right two ends for driving upper conduction magnetic board 9, lower magnetic conductive board 11 and permanent magnet 10 swing up and down, produce so on magnetic conductive pole 7
The magnetic line of force of raw different directions, in solenoid 8 induced-current is produced.
If the upper end of permanent magnet 10 is N poles, the lower end of permanent magnet 10 is S poles.When using, as shown in figure 11, when above leading
The right-hand member of magnetic sheet 9 is overlapped with the right-hand member of magnetic conductive pole 7, and the left end of lower magnetic conduction iron 11 is overlapped with the left end of magnetic conductive pole 7, now permanent magnet
10 magnetic line of force is formed from the N poles Jing upper conduction magnetic boards 9 of permanent magnet 10 to magnetic conductive pole 7, then by the S poles of magnetic conductive pole 7 to permanent magnet 10
The first field circuit, i.e., form a magnetic field from right to left on magnetic conductive pole 7.
As shown in figure 12, when the left end of left end and the magnetic conductive pole 7 of upper conduction magnetic board 9 is overlapped, the right-hand member of lower magnetic conduction iron 11 with lead
The right-hand member overlap joint of magnetic bar 7, now the magnetic line of force of permanent magnet 10 is from the N poles Jing magnetic conductive poles 7 of permanent magnet 10 to lower magnetic conductive board 11, then by
Lower magnetic conduction iron 11 forms second field circuit to the S poles of permanent magnet 10, i.e., one is formed on magnetic conductive pole 7 from left to right
Magnetic field.
When left and right pressing pressing seesaw, installation set 2 drives permanent magnet 10, upper conduction magnetic board 9 and lower magnetic conductive board 11 to lead relatively
The bottom on magnetic bar 7, so as to be alternately produced two kinds of magnetic fields in opposite direction on magnetic conductive pole 7, produces sense so on solenoid 8
Induced current produces electric energy, and the two ends of solenoid 8 are linked into circuit board, drive circuit board work.
In the present embodiment, the permanent magnet 10 is clamped between the left end of upper conduction magnetic board 9 and lower magnetic conductive board 11;The electricity
Magnetic coil 8 and magnetic conductive pole 7 are located in the space that upper conduction magnetic board 9 and lower magnetic conductive board 11 are formed.When using, upper conduction magnetic board 9 is led with
The bottom on magnetic sheet 11, the two ends of magnetic conductive pole 7 respectively can be with upper conduction magnetic board 9 and the end thereof contacts of lower magnetic conductive board 11.
In the present embodiment, the right-hand member 91 of the upper conduction magnetic board 9 and lower magnetic conductive board 11 is in enlarging shape 91, so as to increase magnetic conduction
The right-hand member of bar 7 and the right-hand member of upper conduction magnetic board 9 or the right-hand member contact area of lower magnetic conductive board 11.The left end 71 of the magnetic conductive pole 7 is in wedge
Shape, so as to increase the left end 71 of magnetic conductive pole 7 with the left end of upper conduction magnetic board 9 or the left end contact area of lower magnetic conductive board 11.When using,
Because the right-hand member of upper conduction magnetic board 9 and lower magnetic conductive board 11 is in enlarging shape, the contact of the right part of magnetic conductive pole 7 and upper and lower magnetic conductive board is increased
Area, and then the loss in magnetic field in magnetic field path is reduced, increase generated energy.Because the left end of magnetic conductive pole 7 is wedge shaped, increases and lead
The contact area of the left end 71 of magnetic bar 7 and upper and lower magnetic conductive board left end, and then the loss in magnetic field in magnetic field path is reduced, increase and generate electricity
Amount.
In the present embodiment, the left end in the installation set 2 is provided with adapter sleeve 3, the adapter sleeve 3 by upper conduction magnetic board 9 and
Lower magnetic conductive board 11 is fixedly mounted in installation set 2.
Embodiment two
As shown in Fig. 6 to Figure 10, it is a kind of miniature power generating device, including electrification structure, base 1, installation set 2, pressing
Seesaw structure 4 and flexure strip 6;Wherein
Installation frame 101 is provided with the base 1, in the installation frame 101 axle sleeve 102 is respectively provided on two sides with,
Be respectively provided on two sides with rotating shaft 21 in the installation set 2, rotating shaft 21 described in two rotate respectively in two axle sleeves 102, this
Sample installation set 2 is on installation frame 101 and can swing up and down;
The electrification structure includes magnetic conductive pole 7, solenoid 8, upper conduction magnetic board 9, permanent magnet 10 and lower magnetic conductive board 11;It is described
Upper conduction magnetic board 9, lower magnetic conductive board 11 and permanent magnet 10 are each attached in installation set 2, and the permanent magnet 10 is located at upper conduction magnetic board 9 with
Between the left end of magnetic conductive board 11;Around being located on magnetic conductive pole 7, solenoid 8 and magnetic conductive pole 7 are located at upper magnetic conduction to the solenoid 8
Between plate 9 and lower magnetic conductive board 11, the magnetic conductive pole 7 is fixed on installation frame 101 or on base 1, and the left end of magnetic conductive pole 7 is close
Permanent magnet 10 is simultaneously located between upper conduction magnetic board 9 and the left end of lower magnetic conductive board 11, the right-hand member of magnetic conductive pole 7 be located at upper conduction magnetic board 9 and under
Between the right-hand member of magnetic conductive board 11, the solenoid 8 relative with lower magnetic conductive board 11 of upper conduction magnetic board 9 and magnetic conductive pole 7 can swing up and down;
The pressing seesaw structure 4 is pressing seesaw, and in the middle part of pressing seesaw axis hole 43, installing frame are respectively provided on two sides with
Two axle sleeves 102 of frame 101 rotate respectively in two axis holes 43, so press seesaw rotate installed in installation frame
On 101, installation set 2 is located at the lower section of pressing seesaw and cooperates;
The right-hand member of the flexure strip 6 is connected with installation set 2, and the left end of flexure strip 6 is connected with pressing seesaw, presses seesaw band
The right-hand member of dynamic installation set 2 and the left end of flexure strip 6 swing up and down.
When using, pressing seesaw is pressed, pressing seesaw drives installation set 2 to swing up and down by flexure strip 6, and magnetic conductive pole 7 is made
Iron core for solenoid 8 produces the magnetic field of change, so produces electric energy in solenoid 8;The mechanism of its effect is above to lead
Magnetic sheet 9 and lower magnetic conductive board 11 when swinging up and down respectively with two end in contact of magnetic conductive pole 7, so as in permanent magnet 10, upper conduction magnetic board
9th, the path in magnetic field twice is formed between lower magnetic conductive board 11 and magnetic conductive pole 7 respectively, and the two magnetic field paths are at magnetic conductive pole 7
Magnetic direction be contrary;So, during 2 upper and lower swing of installation set, the acute variation in magnetic field, outside are formed at magnetic conductive pole 7
The solenoid 8 of parcel senses the magnetic field of this change and produces electric energy.
In the present embodiment, the permanent magnet 10 is clamped between the left end of upper conduction magnetic board 9 and lower magnetic conductive board 11;The electricity
Magnetic coil 8 and magnetic conductive pole 7 are located in the space that upper conduction magnetic board 9 and lower magnetic conductive board 11 are formed.When using, upper conduction magnetic board 9 is led with
The upper and lower swing of magnetic sheet 11, the two ends of magnetic conductive pole 7 respectively can be with upper conduction magnetic board 9 and the end thereof contacts of lower magnetic conductive board 11.
In the present embodiment, the right-hand member 91 of the upper conduction magnetic board 9 and lower magnetic conductive board 11 is in enlarging shape 91, so as to increase magnetic conduction
The right-hand member of bar 7 and the right-hand member of upper conduction magnetic board 9 or the right-hand member contact area of lower magnetic conductive board 11;The left end 71 of the magnetic conductive pole 7 is in wedge
Shape, so as to increase the left end 71 of magnetic conductive pole 7 with the left end of upper conduction magnetic board 9 or the left end contact area of lower magnetic conductive board 11;When using,
Because the right-hand member of upper conduction magnetic board 9 and lower magnetic conductive board 11 is in enlarging shape, the contact of the right part of magnetic conductive pole 7 and upper and lower magnetic conductive board is increased
Area, reduces magnetic losses, increases generated energy;Because the left end of magnetic conductive pole 7 is wedge shaped, increase the left end 71 of magnetic conductive pole 7 with
Up and down the contact area of magnetic conductive board left end, reduces magnetic losses, increases generated energy.
In the present embodiment, the left end in the installation set 2 is provided with adapter sleeve 3, the adapter sleeve 3 by upper conduction magnetic board 9 and
Lower magnetic conductive board 11 is fixedly mounted in installation set 2.
Embodiment three
As shown in Figure 11 to 14, it is a kind of miniature power generating device, including electrification structure, base 1, installation set 2, pressing
Structure 4 and flexure strip 6;Wherein
Installation frame 101 is provided with the right part of the base 1, both sides are provided with installation axle 21 before and after the installation set 2,
The installation axle 21 is rotated and is located in installation frame 101, and such installation set 2 can swing up and down in installation frame 101;
The electrification structure includes magnetic conductive pole 7, solenoid 8, upper conduction magnetic board 9, permanent magnet 10 and lower magnetic conductive board 11;It is described
Upper conduction magnetic board 9, lower magnetic conductive board 11 and permanent magnet 10 are each attached in installation set 2, and the permanent magnet 10 is located at upper conduction magnetic board 9 with
Between the left end of magnetic conductive board 11;Around being located on magnetic conductive pole 7, solenoid 8 and magnetic conductive pole 7 are located at upper magnetic conduction to the solenoid 8
Between plate 9 and lower magnetic conductive board 11, the magnetic conductive pole 7 is fixed on installation frame 101 or on base 1, and the left end of magnetic conductive pole 7 is close
Permanent magnet 10 is simultaneously located between upper conduction magnetic board 9 and the left end of lower magnetic conductive board 11, the right-hand member of magnetic conductive pole 7 be located at upper conduction magnetic board 9 and under
Between the right-hand member of magnetic conductive board 11, the solenoid 8 relative with lower magnetic conductive board 11 of upper conduction magnetic board 9 and magnetic conductive pole 7 can swing up and down;
The pressing seesaw structure 4 is located at the left part with base 1, and pressing seesaw structure 4 can be downward by the left end of flexure strip 6
Or push up, the right-hand member of flexure strip 6 is connected so as to drive installation set 2 to swing up and down with installation set 2;In the present embodiment, institute
Stating pressing seesaw structure 4 includes pressing plate 41 and support spring 42, and in the left part of the base 1 bracing frame 102 is provided with, described to press
The left end of pressing plate 41 rotate on bracing frame 102, the lower end of the support spring 42 is arranged on base 1, supports bullet
The upper end of spring 42 supports pressing plate 41, is provided with below the middle part of pressing plate 41 and buckles position 411, and the left end of the flexure strip 6 is inserted
On position 411 is buckled.
When using, pressing plate 41 is pressed, support spring 42 makes pressing plate 41 reset, and pressing plate 41 is driven by flexure strip 6
Installation set 2 swings up and down, and magnetic conductive pole 7 produces the magnetic field of change as the iron core of solenoid 8, produces so in solenoid 8
Raw electric energy;Mechanism of its effect is, upper conduction magnetic board 9 and lower magnetic conductive board 11 when swinging up and down respectively with two terminations of magnetic conductive pole 7
Touch, so as to the path for forming magnetic field twice respectively between permanent magnet 10, upper conduction magnetic board 9, lower magnetic conductive board 11 and magnetic conductive pole 7, and
And magnetic direction of the two magnetic field paths at magnetic conductive pole 7 is contrary;So, during 2 upper and lower swing of installation set, in magnetic conduction
The acute variation in magnetic field is formed at bar 7, the solenoid 8 of outside parcel senses the magnetic field of this change and produces electric energy.
In the present embodiment, the right-hand member of the upper conduction magnetic board 9 and lower magnetic conductive board 11 be in enlarging shape, when upper conduction magnetic board 9 and under
Increase the right-hand member of magnetic conductive pole 7 when magnetic conductive board 11 swings up and down with the right-hand member of upper conduction magnetic board 9 or the right-hand member contact surface of lower magnetic conductive board 11
Product.
In the present embodiment, the left end of the magnetic conductive pole 7 is wedge shaped, when upper conduction magnetic board 9 and lower magnetic conductive board 11 swing up and down
The left end of Shi Zengjia magnetic conductive poles 7 and the left end of upper conduction magnetic board 9 or the left end contact area of lower magnetic conductive board 11.
In the present embodiment, for convenience install flexure strip 6 and make permanent magnet 10 be further secured to upper conduction magnetic board 9 and under
Between the left end of magnetic conductive board 11, adapter sleeve 3 is provided with the left end of the installation set 2, the right-hand member of the flexure strip 6 is plugged and is fixed on
Between the left end of adapter sleeve 3 and installation set 2.
Example IV
As shown in Figure 15 and Figure 16, it is a kind of miniature power generating device, and structure is substantially identical with embodiment one, identical portions
The content divided no longer is repeated, and except for the difference that presses seesaw structure 4, and the pressing seesaw structure 4 in the embodiment includes pressing plate 41
And torque spring 43, bracing frame 102 is provided with the left part of the base 1, the left end of the pressing plate 41 is rotated by rotating shaft 44
On bracing frame 102, the torque spring 43 is located in rotating shaft 44, and one end of torque spring 43 is resisted against pressing plate 41
On, the other end of torque spring 43 is resisted against on base 1, and the left end of the flexure strip 6 is ridden on the right part of pressing plate 41.Use
When, pressing plate 41 is pressed, torque spring 43 makes pressing plate 41 reset, and pressing plate 41 drives the bottom in installation set 2 by flexure strip 6
It is dynamic, the magnetic field of change is produced between permanent magnet 10 and magnetic conductive pole 7, so electric energy is produced in solenoid 8, the machine of its effect
System is, upper conduction magnetic board 9 and lower magnetic conductive board 11 when swinging up and down respectively with two end in contact of magnetic conductive pole 7, so as to permanent magnet 10,
Form the path in magnetic field twice between upper conduction magnetic board 9, lower magnetic conductive board 11 and magnetic conductive pole 7 respectively, and the two magnetic field paths exist
Magnetic direction at magnetic conductive pole 7 is contrary;So, during 2 upper and lower swing of installation set, the violent of magnetic field is formed at magnetic conductive pole 7
Change, the solenoid 8 of outside parcel senses the magnetic field of this change and produces electric energy.
Embodiment five
As shown in FIG. 17 and 18, it is a kind of miniature power generating device, and structure is substantially identical with embodiment one, identical portions
The content divided no longer is repeated, and except for the difference that presses seesaw structure 4, and the pressing seesaw structure 4 in the embodiment includes reed 45, institute
The lower end for stating reed 45 is arranged on the left part of base 1, and the left end of the flexure strip 6 is connected with the upper end of reed 45.When using, press
The upper end of movable contact spring 45, reed 45 drives installation set 2 to swing up and down by flexure strip 6, produces between permanent magnet 10 and magnetic conductive pole 7
The magnetic field of changing, so produces electric energy in solenoid 8, and the mechanism of its effect is that upper conduction magnetic board 9 and lower magnetic conductive board 11 exist
When swinging up and down respectively with two end in contact of magnetic conductive pole 7, so as in permanent magnet 10, upper conduction magnetic board 9, lower magnetic conductive board 11 and magnetic conductive pole
Form the path in magnetic field twice between 7 respectively, and magnetic direction of the two magnetic field paths at magnetic conductive pole 7 is contrary;
So, during 2 upper and lower swing of installation set, the acute variation in magnetic field is formed at magnetic conductive pole 7, the solenoid 8 of outside parcel senses
This change magnetic field and produce electric energy.
Embodiment of the present utility model is explained in detail above in association with accompanying drawing, but the utility model is not limited to institute
The embodiment of description.For the ordinary skill in the art, without departing from principle of the present utility model and objective
In the case of these embodiments are carried out various changes, modification, replacement and deformation still fall within protection domain of the present utility model
It is interior.
Claims (10)
1. a kind of miniature power generating device, it is characterised in that including electrification structure, base(1), installation set(2)And pressing seesaw structure
(4);Wherein
In the base(1)It is provided with installation frame(101), the installation set(2)It is located at installation frame(101)It is upper and can be upper and lower
Swing;
The electrification structure includes magnetic conductive pole(7), solenoid(8), upper conduction magnetic board(9), permanent magnet(10)And lower magnetic conductive board
(11);The upper conduction magnetic board(9), lower magnetic conductive board(11)And permanent magnet(10)It is each attached to installation set(2)It is interior, the permanent magnet
(10)Positioned at upper conduction magnetic board(9)With lower magnetic conductive board(11)Left end between;The solenoid(8)Around being located at magnetic conductive pole(7)On,
Solenoid(8)And magnetic conductive pole(7)Positioned at upper conduction magnetic board(9)And lower magnetic conductive board(11)Between, the magnetic conductive pole(7)It is fixed on peace
Frame up frame(101)On, magnetic conductive pole(7)Left end near permanent magnet(10)And positioned at upper conduction magnetic board(9)And lower magnetic conductive board(11)'s
Between left end, magnetic conductive pole(7)Right-hand member be located at upper conduction magnetic board(9)And lower magnetic conductive board(11)Right-hand member between, upper conduction magnetic board(9)With
Lower magnetic conductive board(11)With respect to solenoid(8)And magnetic conductive pole(7)Can swing up and down;
The pressing seesaw structure(4)What is rotated is located at base(1)On, press seesaw structure(4)Drive installation set(2)A left side,
Right two ends swing up and down.
2. a kind of miniature power generating device according to claim 1, it is characterised in that the permanent magnet(10)Lead on being clamped in
Magnetic sheet(9)With lower magnetic conductive board(11)Left end between;The solenoid(8)And magnetic conductive pole(7)Positioned at upper conduction magnetic board(9)And under
Magnetic conductive board(11)In the space of formation.
3. a kind of miniature power generating device according to claim 1, it is characterised in that the upper conduction magnetic board(9)And lower magnetic conductive board
(11)Right-hand member be in enlarging shape, so as to increase magnetic conductive pole(7)Right-hand member and upper conduction magnetic board(9)Right-hand member or lower magnetic conductive board(11)'s
Right-hand member contact area.
4. a kind of miniature power generating device according to claim 3, it is characterised in that the magnetic conductive pole(7)Left end be in wedge
Shape, so as to increase magnetic conductive pole(7)Left end and upper conduction magnetic board(9)Left end or lower magnetic conductive board(11)Left end contact area.
5. a kind of miniature power generating device according to claim 1, it is characterised in that the pressing seesaw structure(4)For pressing
Seesaw, press seesaw middle part rotate be located at base(1)On, the installation set(2)Upper surface is resisted against under pressing seesaw
On end face.
6. a kind of miniature power generating device according to claim 1, it is characterised in that also including flexure strip(6), the pressing
Seesaw structure(4)Drive flexure strip(6)Left end swing up and down, the flexure strip(6)Right-hand member and installation set(2)Connection so as to
Drive installation set(2)Swing up and down.
7. a kind of miniature power generating device according to claim 6, it is characterised in that in the installation set(2)Left end be provided with
Adapter sleeve(3), the flexure strip(6)Right-hand member plug and be fixed on adapter sleeve(3)With installation set(2)Left end between make flexure strip
(6)It is fixed on installation set(2)On.
8. a kind of miniature power generating device according to claim 7, it is characterised in that the pressing seesaw structure(4)Including by
Pressing plate(41)And support spring(42), in the base(1)Left part be provided with bracing frame(102), the pressing plate(41)A left side
End rotate installed in bracing frame(102)On, the support spring(42)Lower end be arranged on base(1)On, support spring
(42)Upper end support pressing plate(41), in pressing plate(41)Middle part lower section be provided with and buckle position(411), the flexure strip(6)
Left end be inserted in and buckle position(411)On.
9. a kind of miniature power generating device according to claim 7, it is characterised in that the pressing seesaw structure(4)Including by
Pressing plate(41)And torque spring(43), in the base(1)Left part be provided with bracing frame(102), the pressing plate(41)A left side
End passes through rotating shaft(44)Rotate installed in bracing frame(102)On, the torque spring(43)It is located at rotating shaft(44)On, torsion bullet
Spring(43)One end be resisted against pressing plate(41)On, torque spring(43)The other end be resisted against base(1)On, the flexure strip
(6)Left end ride over pressing plate(41)Right part on.
10. a kind of miniature power generating device according to claim 7, it is characterised in that the pressing seesaw structure(4)Including
Reed(45), the reed(45)Lower end be arranged on base(1)Left part, the flexure strip(6)Left end and reed(45)
Upper end connection.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621049184.1U CN206135681U (en) | 2016-09-12 | 2016-09-12 | Miniature generating set |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621049184.1U CN206135681U (en) | 2016-09-12 | 2016-09-12 | Miniature generating set |
Publications (1)
Publication Number | Publication Date |
---|---|
CN206135681U true CN206135681U (en) | 2017-04-26 |
Family
ID=58568986
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201621049184.1U Withdrawn - After Issue CN206135681U (en) | 2016-09-12 | 2016-09-12 | Miniature generating set |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN206135681U (en) |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106300871A (en) * | 2016-09-12 | 2017-01-04 | 佛山市顺德区海得曼电器有限公司 | A kind of miniature power generating device |
TWI625031B (en) * | 2017-06-05 | 2018-05-21 | Wong Shou Cheng | Vertical magnetic drive power generation device |
CN111181348A (en) * | 2020-02-26 | 2020-05-19 | 李宇轩 | Z-shaped magnetic conduction plate magnetic generating device |
-
2016
- 2016-09-12 CN CN201621049184.1U patent/CN206135681U/en not_active Withdrawn - After Issue
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106300871A (en) * | 2016-09-12 | 2017-01-04 | 佛山市顺德区海得曼电器有限公司 | A kind of miniature power generating device |
CN106300871B (en) * | 2016-09-12 | 2019-02-22 | 佛山市顺德区海得曼电器有限公司 | A kind of miniature power generating device |
TWI625031B (en) * | 2017-06-05 | 2018-05-21 | Wong Shou Cheng | Vertical magnetic drive power generation device |
CN111181348A (en) * | 2020-02-26 | 2020-05-19 | 李宇轩 | Z-shaped magnetic conduction plate magnetic generating device |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN206135679U (en) | Small power generation facility | |
CN206135681U (en) | Miniature generating set | |
CN102891039B (en) | Relay | |
CN102938600A (en) | Staggering mesh-type magnetic power generation device | |
CN105471218A (en) | Key power generation structure | |
CN106300871B (en) | A kind of miniature power generating device | |
CN205247104U (en) | From power generation facility and wireless key switch thereof | |
CN206921765U (en) | A kind of multipole assembly linkage small-sized breaker | |
JP3216461U (en) | Power generation type wireless transmitter with push button | |
CN201238011Y (en) | Diphasic high-power magnetic latching relay for control | |
CN201185162Y (en) | Magnetic holding relay for control | |
WO2014079143A1 (en) | Novel-structure electromagnetic relay containing permanent magnet | |
CN211321186U (en) | Z-shaped magnetic conduction plate magnetic generating device | |
WO2021244308A1 (en) | C-shaped dual-magnet miniature self-power generation device and wireless switch using same | |
CN204967596U (en) | Push type is from power generation facility | |
CN105896873A (en) | Miniature power generation device | |
CN204559360U (en) | Milli machine can be converted to the Blast Furnace Top Gas Recovery Turbine Unit (TRT) of electric energy | |
CN111181348A (en) | Z-shaped magnetic conduction plate magnetic generating device | |
CN2550896Y (en) | Electromagnetic actuating mechanism for breaker | |
CN105281534A (en) | Push button generation structure | |
CN215956244U (en) | Self-generating device and signal transmitter | |
CN205647227U (en) | Novel miniature electricity generation device | |
CN206059317U (en) | Electromagnetic tripping apparatus and electro-magnetic circuit breaker | |
CN201316394Y (en) | Electromagnetic shell knocker | |
CN206432209U (en) | A kind of drive mechanism of anti-strong magnetic high-performance magnetism guard relay |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20170426 Effective date of abandoning: 20190222 |
|
AV01 | Patent right actively abandoned |