CN204442145U - Swing type electrification structure - Google Patents
Swing type electrification structure Download PDFInfo
- Publication number
- CN204442145U CN204442145U CN201520114150.5U CN201520114150U CN204442145U CN 204442145 U CN204442145 U CN 204442145U CN 201520114150 U CN201520114150 U CN 201520114150U CN 204442145 U CN204442145 U CN 204442145U
- Authority
- CN
- China
- Prior art keywords
- inductive block
- magnetic inductive
- ring set
- swing type
- magnets
- 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.)
- Expired - Fee Related
Links
Abstract
The utility model relates to the technical field of self-powered remote control, disclose swing type electrification structure and remote control, electrification structure comprises coil groups, group of magnets and driving mechanism, group of magnets comprises magnet, upper magnetic inductive block and lower magnetic inductive block, cavity is provided with in lower magnetic inductive block, the lower surface of magnet is connected to the bottom of cavity, and upper magnetic inductive block is placed on the upper surface of magnet; Coil groups comprises coil and magnetic conductive pole, and magnetic conductive pole is through the center of coil, and the abutting bar at the two ends of magnetic conductive pole respectively correspondence is connected on magnetic inductive block and lower magnetic inductive block; Driving mechanism drive magnet group and coil groups back and forth misplace movement, two abutting bars alternately abut with upper magnetic inductive block or lower magnetic inductive block, this swing type electrification structure is used in remote control, remote control does not need to adopt battery etc. as power supply, avoid the series of problems using battery to exist, the dependability of remote control is strong, greatly reduces customer using cost, and can not impact environment etc., use comparatively environmental protection.
Description
Technical field
The utility model relates to the technical field of electrification structure, particularly relates to swing type electrification structure.
Background technology
In current life, automobile enters huge numbers of families, is very easy to the life of people, and each automobile is all furnished with remote-control key, and user only need gently press just can opening car door or carry out other operation.
In prior art, automobile remote-control key needs to use button cell as power supply, like this, by pressing the button of remote-control key, key command wirelessly could be sent; According to statistics, the quantity of the existing kart in the whole world in 2014 is about 800,000,000, is equipped with two remote-control keys calculates with each car, will have 1,600,000,000 remote-control keys with, so huge numeral is huge for the demand of battery.Certainly, in current life, also have other various remote control, as the remote controller etc. of remote control home appliance, it is also need to adopt battery as power supply, can use.
Use battery to have limitation as power supply, it is limited and need repeat buying battery and need to regularly replace the problem of battery to there is useful life in it, and these problems can the use cost of remarkable adding users; In addition, because battery easily gets rusty and leakage, like this, for the electronic product of some security protection effects, use battery greatly can reduce the reliability of electronic product, and the round-the-clock needs that the energy is provided for a long time cannot be met, when meeting with illegal invasion, electronic product is inoperative because of battery failure possibly, brings loss to user.
In addition, battery great majority are disposable products, and its life cycle is shorter, as needed Long-Time Service, then constantly must buy battery, the financial burden of adding users; Moreover manufacturing battery not only needs consumption of natural resource, and a large amount of old and useless batterys is dropped, and can bring adverse influence, not environmentally to environment.
Utility model content
The purpose of this utility model is to provide swing type electrification structure, and being intended to solve remote control of the prior art needs to adopt battery as power supply, there is dependability difference, adding users use cost and problem not environmentally.
The utility model realizes like this, swing type electrification structure, comprise coil groups, group of magnets and for driving described group of magnets and coil groups back and forth to misplace the driving mechanism of movement, described group of magnets comprises magnet, upper magnetic inductive block and lower magnetic inductive block, the cavity of upper end open is provided with in described lower magnetic inductive block, described magnet is placed in described cavity, the lower surface of described magnet is connected to the bottom of described cavity, described upper magnetic inductive block is placed on the upper surface of described magnet, has magnetic gap gap between the periphery of described upper magnetic inductive block and the madial wall of described lower magnetic inductive block; Described coil groups comprises coil and magnetic conductive pole, and described magnetic conductive pole is through the center of described coil, and the two ends of described magnetic conductive pole are formed with abutting bar respectively, and two described abutting bars respectively correspondence are connected on described upper magnetic inductive block and lower magnetic inductive block; Described driving mechanism comprises ring set and shell fragment, and described ring set surrounds the enclosing region forming closed form, one end hinge arrangement of described ring set, and described shell fragment is connected to the other end of described ring set; Described coil groups and group of magnets are located in described enclosing region, described coil groups fixed and arranged, and described group of magnets activity is arranged, and the both sides of described ring set are clamped in the both sides of described group of magnets respectively.
Further, the described upper surface of lower magnetic inductive block sidewall and the upper surface flush arrangement of upper magnetic inductive block, formed and slide plane, two described abutting bar corresponding upper surfaces being connected to area upper end, the upper end magnetic patch of described lower magnetic inductive block sidewall respectively.
Further, the width in described magnetic gap gap is greater than the width of described abutting bar, and the lower end abutting bar described in two extends in described magnetic gap gap respectively, and two described abutting bars are corresponding is respectively connected to the sidewall of described lower magnetic inductive block and the side of described upper magnetic inductive block.
Further, the both sides of described ring set are respectively equipped with projection, and described projection is connected to the sidewall of described lower magnetic inductive block.
Further, described driving mechanism also comprises base plate, and described ring set is located on described base plate, and one end of described ring set is hinged on described base plate; Described coil groups is fixed on described base plate, and described group of magnets is placed on described base plate, and and has gap between described base plate.
Further, one end of described ring set is provided with articulated slab, is provided with hinge hole in described articulated slab, and described base plate is provided with jointed shaft, and described jointed shaft is inserted in described hinge hole.
Further, described articulated slab is connected to one end of described ring set, and extends layout in the enclosing region of described ring set.
Further, described coil groups also comprises gum cover, described magnet is arranged in described gum cover, and on the upper surface being emerging in described gum cover respectively and lower surface, described upper magnetic inductive block is placed on the upper surface of described gum cover, described lower magnetic inductive block is placed on the lower surface of described gum cover, and the two side ends of described lower magnetic inductive block is placed in outside the two side ends of described gum cover respectively.
Further, the upper surface of described gum cover is provided with groove bar, and the lower surface of described gum cover is provided with lower groove bar, and described upper groove bar and lower groove bar run through the two side ends of described gum cover respectively; Described upper magnetic inductive block is placed in described upper groove bar, and described lower magnetic inductive block is placed in described lower groove bar, and the two side ends of described lower magnetic inductive block is placed in outside the two side ends of described gum cover respectively.
Further, described shell fragment is vertical bar shape.
Compared with prior art, the swing type electrification structure that the utility model provides, utilize the driving of driving mechanism, namely drive ring set to move left and right by shell fragment, and then ring set drive magnet group moves left and right, and group of magnets and coil groups are back and forth staggered movement, thus, the abutting magnetic pole of two abutting bars changes, and the direction of the magnetic induction line through hub of a spool is changed, coil generation current; This swing type electrification structure is used in remote control, remote control does not then need to adopt battery etc. as power supply, thus, the series of problems using battery to exist can be avoided, make the dependability of remote control strong, greatly reduce customer using cost, and can not impact environment etc., use comparatively environmental protection.
Accompanying drawing explanation
Fig. 1 is the schematic perspective view of the swing type electrification structure that the utility model embodiment provides;
Fig. 2 is the exploded perspective schematic diagram of the swing type electrification structure that the utility model embodiment provides;
Fig. 3 is the schematic perspective view that group of magnets that the utility model embodiment provides coordinates with coil groups;
Fig. 4 is the exploded perspective schematic diagram of the coil groups that the utility model embodiment provides.
Embodiment
In order to make the purpose of this utility model, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.
Below in conjunction with specific embodiment, realization of the present utility model is described in detail.
As shown in figures 1-4, be preferred embodiment that the utility model provides.
The swing type electrification structure that the present embodiment provides, can be used in various types of remote control, as telecar key or electric appliance remote controller etc.
Swing type electrification structure comprises group of magnets 12, coil groups 11 and driving mechanism 15, wherein, group of magnets 12 comprises magnet 122, upper magnetic inductive block 121 and lower magnetic inductive block 123, wherein, the cavity of upper end open is provided with in lower magnetic inductive block 123, magnet 122 is placed on the bottom of the cavity of lower magnetic inductive block 123, and the lower surface of magnet 122 abuts with the bottom of cavity; Upper magnetic inductive block 121 is arranged on the upper surface of magnet 122, and, between the periphery of upper magnetic inductive block 121 and the madial wall of lower magnetic inductive block 123, there is magnetic gap gap, form magnetic gap space.Like this, because the upper surface of magnet 122 and lower surface are different magnetic poles respectively, like this, upper magnetic inductive block 121 forms different magnetic poles from lower magnetic inductive block 123.With reference to shown in Fig. 3, the magnetic pole of magnet 122 upper end is N pole, and the magnetic pole of magnet 122 lower end is S pole, and like this, the magnetic pole of upper magnetic inductive block 121 and lower magnetic inductive block 123 then corresponds to N pole and S pole respectively.
Coil groups 11 comprises coil 111 and magnetic conductive pole 112, wherein, coil 111 is set in magnetic conductive pole 112 periphery, namely magnetic conductive pole 112 is through the center of coil 111, and, the two ends of magnetic conductive pole 112 have abutting bar 1121 respectively, these two abutting bars 1121 are in being staggeredly arranged, correspondence is connected on magnetic inductive block 121 and lower magnetic inductive block 123 respectively, like this, two 1121, abutting bars form different magnetic poles, then formed and abut by one the magnetic induction line that bar 1121 is passed to another abutting bar 1121 in magnetic conductive pole 112, that is, magnetic induction line is through the center of coil 111.
Driving mechanism 15, for movement of back and forth staggering between drive magnet group 12 and coil groups 11, makes two abutting bars 1121 move left and right in group of magnets 12, thus two abutting bars 1121 are alternately abutted with upper magnetic inductive block 121 or lower magnetic inductive block 123.
Driving mechanism 15 comprises ring set 154 and shell fragment 155, wherein, ring set 154 surrounds the enclosing region forming closed form, above-mentioned coil groups 11 and group of magnets 12 are placed in the enclosing region of ring set 154, coil groups 11 fixed placement, group of magnets 12 activity is arranged, and the both sides being clamped in group of magnets 12 respectively of ring set 154; One end hinge arrangement of ring set 154, shell fragment 155 is connected to the other end of ring set 154.
Like this, in above-mentioned electrification structure, by the shell fragment 155 that swings, because one end of ring set 154 is hinged, 155, shell fragment drives ring set 154 with its articulated position for oscillation center swings, thus, such that two of magnetic conductive pole 112 abutting bars 1121 are corresponding respectively to abut with upper magnetic inductive block 121 and lower magnetic inductive block 123, and corresponding alternately abutting, thus, the direction of the magnetic induction line by coil 111 center is changed, and then coil produce induced current.
Like this, with reference to shown in Fig. 1 and 3, the magnetic pole of the upper magnetic inductive block 121 of group of magnets 12 is N pole, and the magnetic pole of lower magnetic inductive block 123 is S pole, during initial condition, abutting bar 1121 on the left of coil groups 11 abuts with the sidewall 1231 of lower magnetic inductive block 123, its magnetic pole is S pole, and 1121, the abutting bar on right side abuts with the side of upper magnetic inductive block 121, and its magnetic pole is N pole, like this, the direction through the magnetic induction line of coil 111 then can be regarded as from right to left; Like this, by towards left swing spring plate 155, now, ring set 154 with its articulated position for oscillation center towards left swing move, drive magnet group 12 entirety is moved towards left swing, and the abutting bar 1121 on the left of coil groups 11 is abutted with the side of upper magnetic inductive block 121, and the abutting bar 1121 on right side abuts with the sidewall 1231 of lower magnetic inductive block 123, like this, the magnetic induction line direction through coil 111 center then can be regarded as from left to right.
Thus, by making ring set 154 swing by swinging shell fragment 155, thus swinging of drive magnet group 12, make the direction through the magnetic induction line at coil 111 center that alternately change occur, thus produce induced current in coil.
The above-mentioned swing type electrification structure provided, utilize the driving of driving mechanism 15, namely shell fragment 155 drives ring set 154 to move left and right, ring set drive magnet group 12 moves left and right, group of magnets 12 and coil groups 11 is namely made back and forth to stagger movement, thus the abutting magnetic pole of two abutting bars 1121 is changed, make the direction through the magnetic induction line at coil 111 center that alternately change occur, and then coil 111 generation current.This swing type electrification structure is used in remote control, remote control does not then need to adopt battery etc. as power supply, thus, the series of problems using battery to exist can be avoided, make the dependability of remote control strong, greatly reduce customer using cost, and can not impact environment etc., use comparatively environmental protection.
In the present embodiment, the width in magnetic gap gap is greater than the width abutting bar 1121, the lower end of the abutting bar 1121 at magnetic conductive pole 112 two ends extends in magnetic gap gap respectively, two abutting bars 1121 are corresponding to be respectively connected on the side of magnetic inductive block 121 and the sidewall 1231 of lower magnetic inductive block 123, and two abutting bars 1121 are alternately conflicted with the side of upper magnetic inductive block 121 and the sidewall 1231 of lower magnetic inductive block 123.
Or, as other embodiment, the lower upper surface of magnetic inductive block 123 sidewall 1231 and the upper surface flush arrangement of upper magnetic inductive block 121, like this, the lower upper surface of magnetic inductive block 123 sidewall 1231 and the upper surface of upper magnetic inductive block 121 are then formed slides plane, stagger and be connected to this and slide in plane in the lower end of two abutting bars 1121 then correspondence, namely the lower end of two abutting bars 1121 is respectively on the corresponding upper surface being connected to the sidewall 1231 of magnetic inductive block 123 under the upper end area of magnetic inductive block 121, and under the driving of driving mechanism 15, move left and right along sliding plane.
In the present embodiment, magnetic conductive pole 112 comprises and wears bar 1122 and the abutting bar 1121 described in two, wherein, wear the center of bar 1122 through coil 111, the two ends namely wearing bar 1122 are arranged in outside the two ends of coil 111, two abutting bars 1121 are connected to the two ends wearing bar 1122, and two abutting bars 1121 bend layout in the same way relative to wearing bar 1122.
Certainly, as other embodiment, it also can be that other is placed that the planform of magnetic conductive pole 112 is arranged, as long as ensure that coil 111 is set in outside, can stagger respectively to abut with upper magnetic inductive block 121 and lower magnetic inductive block 123 and then can in two ends.
In the present embodiment, the inner side of ring set 154 both sides is respectively equipped with protruding 158, and this projection 158 is connected to the both sides of group of magnets 12, particularly, projection 158 is connected to the sidewall 1231 of lower magnetic inductive block 123, like this, ring set 154 drive magnet group 12 can be made to swing, additionally reduce the contact-making surface of ring set 154 and group of magnets 12, group of magnets 12 is moved more flexible, thus along with swinging of ring set 154, whole group of magnets 12 also swings thereupon.
Driving mechanism also comprises base plate 125, above-mentioned ring set 154 is placed on base plate 125, and one end of ring set 154 is articulated and connected on base plate 125, coil groups 11 and group of magnets 12 are placed on ring set 154 and surround in the enclosing region formed, and coil groups 11 is fixedly connected on base plate 125, group of magnets 12 is placed on base plate 125 in activity; Certainly, for the ease of the swing of group of magnets 12, group of magnets 12 is placed on the top of base plate 125, and has magnetic gap gap between base plate 125, to reduce friction.
Particularly, ring set 154 one end is provided with articulated slab 159, is provided with hinge hole 1591 in this articulated slab 159, accordingly, base plate 125 is convexly equipped with jointed shaft 126, and this jointed shaft 126 is plugged in the hinge hole 1591 of articulated slab 159, thus realizes the hinge arrangement of ring set 154 one end.Or as other embodiment, the version of ring set 154 one end hinge arrangement can be diversified, is not limited to the structure in the present embodiment.
Articulated slab 159 is connected to one end of ring set 154, and extends layout in the enclosing region of ring set 154.
Shell fragment 155 is in vertical bar shape, and its inner is connected to the other end of ring set 154, and outer end then vertical bar shape extension is outwardly arranged.Certainly, shell fragment 155 also can be set to other shape, is not limited to vertical bar shape.
Coil groups 12 in the present embodiment also comprises gum cover 124, wherein, magnet 122 is located in gum cover 124, and be emerging in upper surface and the lower surface of gum cover 124 respectively, upper magnetic inductive block 121 is placed on the upper surface of gum cover 124, and lower magnetic inductive block 123 is placed on the lower surface of gum cover 124, and two of lower magnetic inductive block 123 sidewalls 1231 are arranged in outside the two side ends of gum cover 124, like this, can so that the assembling of whole group of magnets 12.
In addition, groove bar is provided with in the upper surface of gum cover 124, the lower surface of gum cover 124 is provided with groove bar, on this, groove bar and lower groove bar run through the two side ends of gum cover 124 respectively, like this, upper magnetic inductive block 121 is contained in the upper groove bar of gum cover 124, and under being placed on of lower magnetic inductive block 123 in groove bar, and two of lower magnetic inductive block 123 sidewalls 1231 are arranged in outside the two side ends of gum cover 124.Like this, utilize the setting of upper groove bar on gum cover 124 and lower groove bar, whole group of magnets 12 can be made to form integrative-structure, and its connection is more firm.
The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all do within spirit of the present utility model and principle any amendment, equivalent to replace and improvement etc., all should be included within protection range of the present utility model.
Claims (10)
1. swing type electrification structure, it is characterized in that, comprise coil groups, group of magnets and for driving described group of magnets and coil groups back and forth to misplace the driving mechanism of movement, described group of magnets comprises magnet, upper magnetic inductive block and lower magnetic inductive block, the cavity of upper end open is provided with in described lower magnetic inductive block, described magnet is placed in described cavity, the lower surface of described magnet is connected to the bottom of described cavity, described upper magnetic inductive block is placed on the upper surface of described magnet, has magnetic gap gap between the periphery of described upper magnetic inductive block and the madial wall of described lower magnetic inductive block; Described coil groups comprises coil and magnetic conductive pole, and described magnetic conductive pole is through the center of described coil, and the two ends of described magnetic conductive pole are formed with abutting bar respectively, and two described abutting bars respectively correspondence are connected on described upper magnetic inductive block and lower magnetic inductive block; Described driving mechanism comprises ring set and shell fragment, and described ring set surrounds the enclosing region forming closed form, one end hinge arrangement of described ring set, and described shell fragment is connected to the other end of described ring set; Described coil groups and group of magnets are located in described enclosing region, described coil groups fixed and arranged, and described group of magnets activity is arranged, and the both sides of described ring set are clamped in the both sides of described group of magnets respectively.
2. swing type electrification structure as claimed in claim 1, it is characterized in that, the described upper surface of lower magnetic inductive block sidewall and the upper surface flush arrangement of upper magnetic inductive block, plane is slided in formation, two described abutting bar corresponding upper surfaces being connected to area upper end, the upper end magnetic patch of described lower magnetic inductive block sidewall respectively.
3. swing type electrification structure as claimed in claim 1, it is characterized in that, the width in described magnetic gap gap is greater than the width of described abutting bar, the lower end abutting bar described in two extends in described magnetic gap gap respectively, and two described abutting bars are corresponding is respectively connected to the sidewall of described lower magnetic inductive block and the side of described upper magnetic inductive block.
4. the swing type electrification structure as described in any one of claims 1 to 3, is characterized in that, the both sides of described ring set are respectively equipped with projection, and described projection is connected to the sidewall of described lower magnetic inductive block.
5. swing type electrification structure as claimed in claim 4, it is characterized in that, described driving mechanism also comprises base plate, and described ring set is located on described base plate, and one end of described ring set is hinged on described base plate; Described coil groups is fixed on described base plate, and described group of magnets is placed on described base plate, and and has gap between described base plate.
6. swing type electrification structure as claimed in claim 5, it is characterized in that, one end of described ring set is provided with articulated slab, is provided with hinge hole in described articulated slab, and described base plate is provided with jointed shaft, and described jointed shaft is inserted in described hinge hole.
7. swing type electrification structure as claimed in claim 6, it is characterized in that, described articulated slab is connected to one end of described ring set, and extends layout in the enclosing region of described ring set.
8. the swing type electrification structure as described in any one of claims 1 to 3, it is characterized in that, described coil groups also comprises gum cover, described magnet is arranged in described gum cover, and on the upper surface being emerging in described gum cover respectively and lower surface, described upper magnetic inductive block is placed on the upper surface of described gum cover, and described lower magnetic inductive block is placed on the lower surface of described gum cover, and the two side ends of described lower magnetic inductive block is placed in outside the two side ends of described gum cover respectively.
9. swing type electrification structure as claimed in claim 8, it is characterized in that, the upper surface of described gum cover is provided with groove bar, and the lower surface of described gum cover is provided with lower groove bar, and described upper groove bar and lower groove bar run through the two side ends of described gum cover respectively; Described upper magnetic inductive block is placed in described upper groove bar, and described lower magnetic inductive block is placed in described lower groove bar, and the two side ends of described lower magnetic inductive block is placed in outside the two side ends of described gum cover respectively.
10. the swing type electrification structure as described in any one of claims 1 to 3, is characterized in that, described shell fragment is vertical bar shape.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201520114150.5U CN204442145U (en) | 2015-02-17 | 2015-02-17 | Swing type electrification structure |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201520114150.5U CN204442145U (en) | 2015-02-17 | 2015-02-17 | Swing type electrification structure |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN204442145U true CN204442145U (en) | 2015-07-01 |
Family
ID=53609959
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201520114150.5U Expired - Fee Related CN204442145U (en) | 2015-02-17 | 2015-02-17 | Swing type electrification structure |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN204442145U (en) |
Cited By (5)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN106411093A (en) * | 2016-10-21 | 2017-02-15 | 黄水凤 | Miniature magnetic field transforming power generation device |
| CN107809153A (en) * | 2016-09-09 | 2018-03-16 | 比亚迪股份有限公司 | Trt |
| CN107808473A (en) * | 2016-09-09 | 2018-03-16 | 比亚迪股份有限公司 | Remind transmitter and alarm set |
| CN110635657A (en) * | 2016-02-04 | 2019-12-31 | 广东易百珑智能科技有限公司 | High-power kinetic energy self-generating device |
| CN114024423A (en) * | 2016-06-24 | 2022-02-08 | 广东易百珑智能科技有限公司 | Self-generating method and self-generating signal emitting method of power generation device and controller thereof |
-
2015
- 2015-02-17 CN CN201520114150.5U patent/CN204442145U/en not_active Expired - Fee Related
Cited By (6)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN110635657A (en) * | 2016-02-04 | 2019-12-31 | 广东易百珑智能科技有限公司 | High-power kinetic energy self-generating device |
| CN114024423A (en) * | 2016-06-24 | 2022-02-08 | 广东易百珑智能科技有限公司 | Self-generating method and self-generating signal emitting method of power generation device and controller thereof |
| CN107809153A (en) * | 2016-09-09 | 2018-03-16 | 比亚迪股份有限公司 | Trt |
| CN107808473A (en) * | 2016-09-09 | 2018-03-16 | 比亚迪股份有限公司 | Remind transmitter and alarm set |
| CN107809153B (en) * | 2016-09-09 | 2019-10-08 | 比亚迪股份有限公司 | Power generator |
| CN106411093A (en) * | 2016-10-21 | 2017-02-15 | 黄水凤 | Miniature magnetic field transforming power generation device |
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| CN204442145U (en) | Swing type electrification structure | |
| CN107065624B (en) | Self-generating wireless switch | |
| CN203827151U (en) | Micro-generator and self power generation wireless transmission structure | |
| CN104656479B (en) | Touch and produce instruction and self-powered controller | |
| CN104852545A (en) | Power generation device for converting minimal mechanical energy into electric energy | |
| CN204695418U (en) | Self-powered automobile remote-control key | |
| CN104682657B (en) | Alternate mobile power generation structure and remote control device | |
| CN204442146U (en) | Alternately vehicular power generation structure and remote control | |
| CN112152414A (en) | Self-generating device and wireless switch | |
| CN203871232U (en) | Button switch with suddenly-changing magnetic poles | |
| CN204559359U (en) | The Blast Furnace Top Gas Recovery Turbine Unit (TRT) moved both vertically and electronic product | |
| CN103235657A (en) | Electromagnetic induction-type self-energy-storage wireless mouse | |
| CN204155839U (en) | A kind of normally closed magnetic approach switch | |
| CN111150334B (en) | Remote-control anti-collision obstacle-crossing line inspection robot and using method thereof | |
| CN112217366A (en) | Two-end double-magnet self-generating device and wireless switch using same | |
| CN204559360U (en) | Milli machine can be converted to the Blast Furnace Top Gas Recovery Turbine Unit (TRT) of electric energy | |
| CN204480930U (en) | It chessboard formula magnetic pole brusque-switch equipment | |
| CN203366239U (en) | Electro-magnetic induction type self-energy-storage wireless mouse | |
| CN204189643U (en) | A kind of elevator-distance switch UKS device of improvement | |
| CN207579026U (en) | Injection molding machine based on smart mobile phone control | |
| CN208315474U (en) | A kind of upright magnetic latching relay of Improvement type | |
| CN205377623U (en) | Wireless switching device | |
| CN204331341U (en) | Touch and produce instruction and self-powered controller | |
| CN204558374U (en) | A kind of sensitive miniature relay | |
| CN108365411A (en) | A kind of novel electric appliance on/off electric installation |
Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| CF01 | Termination of patent right due to non-payment of annual fee | ||
| CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20150701 Termination date: 20200217 |