CN107508372A - A kind of high filtering type dry cell intelligently switches electric supply installation - Google Patents

Abstract

The present invention relates to a kind of high filtering type dry cell intelligently to switch electric supply installation, is designed using brand new, electromechanics linkage structure is introduced, with dry cell（13）To light source（8）Power supply, based on specific designed filter circuit（16）, using photosensitive sensors（12）High precision test dry cell（13）Whether there is electricity, and based on principle is mutually twisted between groove, utilize rotary electric machine（11）Drive gear（5）To rack（4）Occlusion so that strip plate（2）With rack（4）Movement and move, so as to switch each and sleeve（14）The dry cell connected（13）Successively with electrode slice（6）It is in contact, so as to seamlessly switch dry cell（13）Work, and pass through electrode slice（6）Power device is directed to strip conducting strip（1）It is powered.

Description

A kind of high filtering type dry cell intelligently switches electric supply installation

Technical field

The present invention relates to a kind of high filtering type dry cell intelligently to switch electric supply installation, belongs to dry cell intelligent use technology neck Domain.

Background technology

Power supply is by the device that can be converted into electric energy of other forms, is the device that power is provided to electronic equipment, Claim power supply unit, it provides the electric energy required for all parts in equipment, and the size of power, whether electric current and voltage are steady It is fixed, the service behaviour and service life of equipment will be directly affected.With the continuous development of technical merit, the species of power supply is also more next It is more, it is small to arrive lithium battery greatly to battery, because electricity consumption ubiquitous in people's life, makes power supply ubiquitous, but it is existing There is power supply while itself reserve of electricity is constantly lifted with electrical stability, often have ignored the use feeling of power supply hommization, It is well known that existing power supply can simply be divided into charge power supply and non-charge power supply, enter using power supply from a wide range of division In row power supply process, if being powered using non-charge power supply, there is powered stable advantage, once but electricity use up, just need To be replaced for non-charge power supply, using wasting time and energy, efficiency is low；If being powered using charge power supply, work as electricity first When amount is used up, although not replace manually, need to be charged for charge power supply, completion to be charged can be carried out again Power supply, turnoff time is just had during this, influences the operating efficiency of power device；Then, repeatedly charging is unfavorable for electricity in power supply Stabilization, this power supply allowed in practical application becomes unstable, can equally influence the operating efficiency of power device.

The content of the invention

The technical problems to be solved by the invention are to provide a kind of using brand new design, introducing electromechanics linkage knot Structure, by Intelligent Measurement, intelligent control, realize that the high filtering type dry cell that dry cell intelligently switches intelligently switches electric supply installation.

In order to solve the above-mentioned technical problem the present invention uses following technical scheme：The present invention devises a kind of high filtering type and done Battery intelligent switches electric supply installation, is powered using specified model dry cell for power device；Including strip plate, side L The block board of shape structure, rack, gear, electrode slice, contact rod, strip conducting strip, light source, photosensitive sensors, at least two sets Cylinder and control module, and independent power supply, rotary electric machine, the filter circuit being connected respectively with control module；Light sensation passes Circuit is connected sensor with control module after filtering；Wherein, independent power supply is carried out by control module for rotary electric machine Power supply, meanwhile, independent power supply is powered by control module, filter circuit for photosensitive sensors successively；Filter circuit Including transport and placing device A1, first resistor R1, second resistance R2, the first electric capacity C1 and the second electric capacity C2, wherein, filter circuit input The first electric capacity C1, the second electric capacity C2 to transport and placing device A1 positive input are sequentially connected in series, meanwhile, filter circuit input and light sensation Sensor is connected, and transport and placing device A1 positive input series connection second resistance R2, and is grounded；First resistor R1 one end connection Between the first electric capacity C1 and the second electric capacity C2, the first resistor R1 other end reverse input end with transport and placing device A1, defeated respectively Go out end to be connected, meanwhile, transport and placing device A1 output end is connected with the output end of filter circuit, the output end of filter circuit and control Molding block is connected；The length that L-shaped long side is corresponded on block board is more than the length of dry cell, and perpendicular with L-shaped side on block board The length on side and the overall diameter of specified model dry cell are adapted, and the medial surface surface that the plate of L-shaped long side is corresponded on block board is set The chute of straight line first is put, and straight line where the first chute mutually hangs down with L-shaped side on block board, transition location and first on block board Spacing and the length of specified model dry cell between chute are adapted；The thickness of width and strip plate in first chute is mutually fitted Should, strip plate is slided with its long side in the first chute on block board, and strip plate and face where the first chute on block board It is perpendicular；Electrode slice is fixedly installed on medial surface parallel with strip plate on block board；The length of rack and strip plate Length is adapted, and rack is fixedly installed on strip plate on the one side of electrode slice, and rack is equal with the length on strip plate OK, and rack groove straight up, rotary electric machine is fixedly installed on the medial surface surface for the plate that L-shaped long side is corresponded on block board On, and rotary electric machine is located at strip plate backwards to the side of electrode slice, and the rotating bar on rotary electric machine is perpendicularly oriented to strip plate The upper one side backwards to electrode slice, the groove of gear and the groove of rack are adapted each other, and gear is fixedly connected on rotary electric machine The top of upper rotating bar, gear are located above rack, and the groove activity on gear butts up against the groove of rack, and rack is electric with rotating Machine moves back and forth to the rotation of gear, and strip plate moves back with the movement of rack in the first chute of block board It is dynamic；Strip plate surface sets the second chute through its both sides, and the length of the second chute and the length of strip plate are adapted, and the Two chutes it is closed at both ends；The length of strip conducting strip and the length of the second chute are adapted, strip conducting strip along the second chute, Fixation is attached on strip plate towards on the side of electrode slice, and strip conducting strip covers the single side face of the second chute；Contact rod It is fixedly installed on rotary electric machine, and wherein one end of contact rod is located in the second chute, is in contact with strip conducting strip, and Wrapped up using insulating materials the part being in contact on contact rod with rotary electric machine；The both ends open of each sleeve and mutually Insertion, the overall diameter of the internal diameter of each sleeve with specified model dry cell are adapted, and wherein one end of each sleeve is solid respectively Surely it is connected on strip plate and sets on the side of strip conducting strip, each sleeve is sequentially distributed along strip conducting strip, and each set Cylinder is penetrated with strip conducting strip respectively；Specify the quantity of model dry cell equal with the quantity of sleeve, each section specifies model to do Designated ends on battery are movably set in each sleeve respectively, and each section is specified and is placed on model dry cell in corresponding sleeve End is in contact with strip conducting strip；Each other end saved on specified model dry cell moving along the second chute with block board, It is in contact successively with electrode slice set on block board；Power device and light source are in parallel each other, and in parallel wherein one End is connected with electrode slice, and the other end in parallel is connected with contact rod；Point to the detection of photosensitive sensors in the illumination end of light source End.

As a preferred technical solution of the present invention：Also include sleeve pipe, the both ends open of sleeve pipe and be mutually communicated, institute Light source and the photosensitive sensors are stated respectively by the both ends of sleeve pipe as inside pipe casing.

As a preferred technical solution of the present invention：The rotary electric machine is brushless rotary motor.

As a preferred technical solution of the present invention：The control module is microprocessor.

As a preferred technical solution of the present invention：The microprocessor is arm processor.

Intelligently switching electric supply installation uses above technical scheme and existing skill to a kind of high filtering type dry cell of the present invention Art is compared, and has following technique effect：

（1）The high filtering type dry cell that the present invention designs intelligently switches electric supply installation, is designed using brand new, introduces motor machine Tool linkage structure, with power supply of the dry cell to light source, based on specific designed filter circuit, using photosensitive sensors high accuracy Whether detection dry cell has electricity, and based on principle is mutually twisted between groove, rack is stung using rotary electric machine drive gear Close so that strip plate moves with the movement of rack, so as to switch each dry cell being connected with sleeve successively with electrode slice It is in contact, so as to seamlessly switch dry cell work, and is supplied by electrode slice and strip conducting strip for power device Electricity；

（2）The high filtering type dry cell that the present invention designs intelligently in switching electric supply installation, for light source and photosensitive sensors, enters one Lead-in bushing is walked, the both ends open of sleeve pipe is designed and is mutually communicated, the light source and the photosensitive sensors are respectively by sleeve pipe Both ends, thus, it is possible to effectively improve detection efficiency of the photosensitive sensors to light source, are directed to as inside pipe casing so as to effectively improve Dry cell electricity uses up the accuracy of detection；

（3）The high filtering type dry cell that the present invention designs is intelligently in switching electric supply installation, and for rotary electric machine, further design is adopted With brushless rotary motor so that high filtering type dry cell intelligently switches electric supply installation in actual use designed by the present invention, energy Jing Yin work is enough realized, both ensure that intelligently switching electric supply installation has efficient dry cell intelligence to designed high filtering type dry cell Energy handoff functionality, and can ensure that its course of work does not impact to surrounding environment, and the hommization embodied in design process is set Meter；

（4）The high filtering type dry cell that the present invention designs is intelligently in switching electric supply installation, and for control module, further design is adopted With microprocessor, and arm processor is specifically used, on the one hand can be applied to the later stage is directed to designed high filtering type dry cell intelligence The extension demand of electric supply installation can be switched, on the other hand, succinct control architecture mode can be easy to the maintenance in later stage.

Brief description of the drawings

Fig. 1 is that the high filtering type dry cell that the present invention designs intelligently switches the structural representation of electric supply installation.

Wherein, 1. power device, 2. strip plates, 3. block boards, 4. racks, 5. gears, 6. electrode slices, 7. are led Torch, 8. light sources, 9. control modules, 10. independent power supplies, 11. rotary electric machines, 12. photosensitive sensors, 13. refer to Sizing dry cell, 14. sleeves, 15. sleeve pipes, 16. filter circuits.

Embodiment

The embodiment of the present invention is described in further detail with reference to Figure of description.

As shown in figure 1, the present invention devises a kind of high filtering type dry cell intelligently switching electric supply installation, using specified model Dry cell 13 is powered for power device 1；Including strip plate 2, the block board 3 of side L-shaped structure, rack 4, gear 5, electricity Pole piece 6, contact rod 7, strip conducting strip, light source 8, photosensitive sensors 12, at least two sleeves 14 and control module 9, Yi Jifen Independent power supply 10, rotary electric machine 11, the filter circuit 16 not being connected with control module 9；Photosensitive sensors 12 are filtered Wave circuit 16 is connected with control module 9；Wherein, independent power supply 10 is that rotary electric machine 11 is supplied by control module 9 Electricity, meanwhile, independent power supply 10 is successively that photosensitive sensors 12 are powered by control module 9, filter circuit 16；Filtering Circuit 16 includes transport and placing device A1, first resistor R1, second resistance R2, the first electric capacity C1 and the second electric capacity C2, wherein, filter circuit 16 inputs are sequentially connected in series the first electric capacity C1, the second electric capacity C2 to transport and placing device A1 positive input, meanwhile, filter circuit 16 is defeated Enter end with photosensitive sensors 12 to be connected, and transport and placing device A1 positive input series connection second resistance R2, and be grounded；First resistor R1 one end is connected between the first electric capacity C1 and the second electric capacity C2, and the first resistor R1 other end is anti-with transport and placing device A1 respectively It is connected to input, output end, meanwhile, transport and placing device A1 output end is connected with the output end of filter circuit 16, filtered electrical The output end on road 16 is connected with control module 9；The length that L-shaped long side is corresponded on block board 3 is more than the length of dry cell 13, and screens Length and the overall diameter of specified model dry cell 13 on plate 3 with the perpendicular side in L-shaped side are adapted, and L-shaped is corresponded on block board 3 The medial surface surface of the plate of long side sets the chute of straight line first, and straight line and L-shaped side phase on block board 3 where the first chute Hang down, spacing and the length of specified model dry cell 13 on block board 3 between transition location and the first chute are adapted；First chute The thickness of interior width and strip plate 2 is adapted, and strip plate 2 is slided with its long side in the first chute on block board 3, and long Batten 2 and face where the first chute on block board 3 are perpendicular；Electrode slice 6 is fixedly installed on equal with strip plate 2 on block board 3 On capable medial surface；The length of rack 4 and the length of strip plate 2 are adapted, and rack 4 is fixedly installed on strip plate 2 backwards to electricity On the one side of pole piece 6, rack 4 is parallel with the length on strip plate 2, and the groove of rack 4 is straight up, and rotary electric machine 11 is solid Surely it is arranged on the medial surface surface for the plate that L-shaped long side is corresponded on block board 3, and rotary electric machine 11 is located at strip plate 2 backwards to electricity Rotating bar on the side of pole piece 6, and rotary electric machine 11 is perpendicularly oriented on strip plate 2 backwards to the one side of electrode slice 6, gear The groove of 5 groove and rack 4 is adapted each other, and gear 5 is fixedly connected on the top of rotating bar on rotary electric machine 11, gear 5 Above rack 4, the groove activity on gear 5 butts up against the groove of rack 4, and rack 4 turns with rotary electric machine 11 to gear 5 Move and move back and forth, and strip plate 2 moves back and forth with the movement of rack 4 in the first chute of block board 3；Strip plate 2 Surface sets the second chute through its both sides, and the length and the length of strip plate 2 of the second chute are adapted, and the second chute It is closed at both ends；The length of strip conducting strip and the length of the second chute are adapted, and strip conducting strip is sticked along the second chute, fixation In towards on the side of electrode slice 6, and strip conducting strip covers the single side face of the second chute on strip plate 2；Contact rod 7 is fixed and set It is placed on rotary electric machine 11, and wherein one end of contact rod 7 is located in the second chute, is in contact with strip conducting strip, and lead Wrapped up using insulating materials the part being in contact on torch 7 with rotary electric machine 11；The both ends open and phase of each sleeve 14 Mutually insertion, the overall diameter of the internal diameter of each sleeve 14 with specified model dry cell 13 are adapted, and wherein the one of each sleeve 14 End is respectively fixedly connected with being set on strip plate 2 on the side of strip conducting strip, and each sleeve 14 divides successively along strip conducting strip Cloth, and each sleeve 14 is penetrated with strip conducting strip respectively；Specify the quantity and the quantity phase of sleeve 14 of model dry cell 13 Deng each section specifies the designated ends on model dry cell 13 to be movably set in respectively in each sleeve 14, and each section specifies model to do The end being placed on battery 13 in corresponding sleeve 14 is in contact with strip conducting strip；Each section is specified another on model dry cell 13 End moving along the second chute with block board 3, is in contact with electrode slice 6 set on block board 3 successively；The He of power device 1 Light source 8 is in parallel each other, and wherein one end in parallel is connected with electrode slice 6, and the other end in parallel is connected with contact rod 7 Connect；Point to the test side of photosensitive sensors 12 in the illumination end of light source 8.The high filtering type dry cell intelligence of above-mentioned technical proposal design Switch electric supply installation, designed using brand new, electromechanics linkage structure is introduced, with power supply of the dry cell 13 to light source 8, base In specific designed filter circuit 16, whether there is electricity using the high precision test dry cell 13 of photosensitive sensors 12, and be based on tooth Principle is mutually twisted between line, utilizes occlusion of the drive gear 5 of rotary electric machine 11 to rack 4 so that strip plate 2 is with rack 4 Move and move, be in contact successively with electrode slice 6 so as to switch each dry cell 13 being connected with sleeve 14, so as to gapless Ground switching dry cell 13 works, and is powered by electrode slice 6 and strip conducting strip for power device 1.

Intelligently switched based on the high filtering type dry cell of above-mentioned design on electric supply installation technical scheme basis, the present invention also enters One step devises following optimal technical scheme：For light source 8 and photosensitive sensors 12, sleeve pipe 15 is further introduced into, designs sleeve pipe 15 both ends open and it is mutually communicated, the light source 8 and the photosensitive sensors 12 are respectively by the both ends of sleeve pipe 15 as sleeve pipe Inside 15, thus, it is possible to effectively improve detection efficiency of the photosensitive sensors 12 to light source 8, dry cell 13 is directed to so as to effectively improve Electricity uses up the accuracy of detection；For rotary electric machine 11, further design uses brushless rotary motor so that set by the present invention Counting high filtering type dry cell, intelligently switching electric supply installation in actual use, can realize Jing Yin work, both ensure that designed Intelligently switching electric supply installation has efficient dry cell intelligence handoff functionality to high filtering type dry cell, and and can ensures its course of work Surrounding environment is not impacted, embody the human oriented design in design process；For control module 9, further design is adopted With microprocessor, and arm processor is specifically used, on the one hand can be applied to the later stage is directed to designed high filtering type dry cell intelligence The extension demand of electric supply installation can be switched, on the other hand, succinct control architecture mode can be easy to the maintenance in later stage.

Intelligently switching electric supply installation is among actual application for the high filtering type dry cell that the present invention designs, using specified Model dry cell 13 is powered for power device 1；Specifically include strip plate 2, the block board 3 of side L-shaped structure, rack 4, Gear 5, electrode slice 6, contact rod 7, strip conducting strip, light source 8, photosensitive sensors 12, sleeve pipe 15, the and of at least two sleeve 14 Arm processor, and independent power supply 10, brushless rotary motor, the filter circuit 16 being connected respectively with arm processor； Circuit 16 is connected photosensitive sensors 12 with arm processor after filtering；Wherein, independent power supply 10 passes through arm processor It is powered for brushless rotary motor, meanwhile, independent power supply 10 is successively light sensation by arm processor, filter circuit 16 Sensor 12 is powered；Filter circuit 16 includes transport and placing device A1, first resistor R1, second resistance R2, the first electric capacity C1 and the Two electric capacity C2, wherein, the input of filter circuit 16 be sequentially connected in series the first electric capacity C1, the second electric capacity C2 to transport and placing device A1 it is positive defeated Enter end, meanwhile, the input of filter circuit 16 is connected with photosensitive sensors 12, and transport and placing device A1 positive input series connection second Resistance R2, and be grounded；First resistor R1 one end is connected between the first electric capacity C1 and the second electric capacity C2, and first resistor R1's is another The reverse input end with transport and placing device A1, output end are connected respectively for one end, meanwhile, transport and placing device A1 output end and filter circuit 16 Output end be connected, the output end of filter circuit 16 is connected with arm processor；Growing up for L-shaped long side is corresponded on block board 3 In the length of dry cell 13, and length and the overall diameter phase of specified model dry cell 13 on block board 3 with the perpendicular side in L-shaped side Adapt to, the medial surface surface that the plate of L-shaped long side is corresponded on block board 3 sets the chute of straight line first, and straight line where the first chute Mutually hung down with L-shaped side on block board 3, the spacing on block board 3 between transition location and the first chute and specified model dry cell 13 length is adapted；The thickness of width and strip plate 2 in first chute is adapted, and strip plate 2 is with its long side on block board 3 The first chute in slide, and strip plate 2 with block board 3 first chute place face it is perpendicular；Electrode slice 6 is fixedly installed on card On the plate 3 of position on the medial surface parallel with strip plate 2；The length of rack 4 and the length of strip plate 2 are adapted, and rack 4 is fixed and set It is placed on strip plate 2 on the one side of electrode slice 6, rack 4 is parallel with the length on strip plate 2, and the groove of rack 4 erects It is straight that brushless rotary motor is fixedly installed on the medial surface surface for the plate that L-shaped long side is corresponded on block board 3 upwards, and brushless turn Dynamic motor is located at strip plate 2 backwards to the side of electrode slice 6, and the rotating bar on brushless rotary motor is perpendicularly oriented to strip plate 2 The upper one side backwards to electrode slice 6, the groove of gear 5 are adapted each other with the groove of rack 4, and gear 5 is fixedly connected on brushless The top of rotating bar on rotary electric machine, gear 5 are located above rack 4, and the groove activity on gear 5 butts up against the groove of rack 4, Rack 4 moves back and forth with rotation of the brushless rotary motor to gear 5, and strip plate 2 is with the movement of rack 4 and in block board Move back and forth in 3 the first chute；The surface of strip plate 2 sets the second chute through its both sides, the length and length of the second chute The length of batten 2 is adapted, and the second chute is closed at both ends；The length of strip conducting strip and the length of the second chute are mutually fitted Should, strip conducting strip is attached on strip plate 2 towards on the side of electrode slice 6 along the second chute, fixation, and strip conducting strip covers The single side face of the chute of lid second；Contact rod 7 is fixedly installed on brushless rotary motor, and wherein one end of contact rod 7 is positioned at the It is in contact in two chutes, with strip conducting strip, and the part being in contact on contact rod 7 with brushless rotary motor uses insulation material Material is wrapped up；The both ends open of each sleeve 14 and be mutually communicated, the internal diameter of each sleeve 14 with specified model dry cell 13 overall diameter is adapted, and wherein one end of each sleeve 14 is respectively fixedly connected with setting strip conducting strip on strip plate 2 On side, each sleeve 14 is sequentially distributed along strip conducting strip, and each sleeve 14 is penetrated with strip conducting strip respectively；Specify The quantity of model dry cell 13 is equal with the quantity of sleeve 14, and activity is set the designated ends on each specified model dry cell 13 of section respectively It is placed in each sleeve 14, and each section specifies the end being placed on model dry cell 13 in corresponding sleeve 14 and strip conducting strip phase Contact；Each section specify the other end on model dry cell 13 with block board 3 moving along the second chute, successively with block board 3 Set electrode slice 6 is in contact；Power device 1 and light source 8 are in parallel each other, and wherein one end in parallel and electrode slice 6 It is connected, the other end in parallel is connected with contact rod 7；Point to the test side of photosensitive sensors 12, sleeve pipe in the illumination end of light source 8 15 both ends open and be mutually communicated, light source 8 and photosensitive sensors 12 respectively by the both ends of sleeve pipe 15 as sleeve pipe 15 inside. In practical application, the specified model dry cell 13 that both ends are in contact with electrode slice 6, strip conducting strip respectively is in running order, It is connected by its one end with electrode slice 6, and the other end is connected to use parallel with one another through strip conducting strip and contact rod 7 successively Electric installation 1 and light source 8 are powered, thus power device 1 carries out work to take power, at the same light source 8 also can work to take power, test side Photosensitive sensors 12 real-time working relative with the illumination end of light source 8, detects the light from light source 8, obtains bright inspection in real time Result is surveyed, and circuit 16 is uploaded among arm processor in real time after filtering, wherein, photosensitive sensors 12 will detect acquisition Bright testing result be uploaded in real time among filter circuit 16, entered by filter circuit 16 for received filter circuit 16 Row filtering process, noise data therein is filtered out, to obtain more accurate filter circuit 16, then filter circuit 16 will be through The filter circuit 16 for crossing filtering process is further uploaded to arm processor, and received light is directed to by arm processor Testing result is analyzed, if bright testing result, which is higher than, presets bright lower threshold, arm processor judges now to connect accordingly The electricity for entering the specified model dry cell 13 of work is powered enough, then arm processor does not do any further processing operation；If light Bright testing result, which is less than or equal to, presets bright lower threshold, then arm processor judges the specified type of now cut-in operation accordingly The low battery of number dry cell 13 is used up, then arm processor controls connected brushless rotary motor to start work immediately Make, control the rotating bar on brushless rotary motor to rotate so that the gear 5 for being fixedly connected on rotating bar top starts to rotate, such as This is engaged based on groove between gear 5 and rack 4 so that the movement of the rotational band carry-over bar 4 of gear 5, in this way, control strip Plate 2 moves back and forth with the movement of rack 4 in the first chute of block board 3, so switches each section and specifies model dry cell 13 On the other end with block board 3 moving along the second chute, be in contact successively with electrode slice 6 set on block board 3, when cutting When changing a section and specifying the other end of model dry cell 13 to be in contact with electrode slice 6, i.e. switching causes the section to specify model dry electric The both ends in pond 13 are in contact with electrode slice 6, strip conducting strip respectively, then the section specifies model dry cell 13, by its one end with Electrode slice 6 is connected, and the other end is connected to power device 1 and light parallel with one another through strip conducting strip and contact rod 7 successively Source 8 is powered, and is so operated in actual applications by above-mentioned switching mode, and model dry cell is specified for each section 13, seamlessly switch operating is realized, improves the real work efficiency of power device 1.

Embodiments of the present invention are explained in detail above in conjunction with accompanying drawing, but the present invention is not limited to above-mentioned implementation Mode, can also be on the premise of present inventive concept not be departed from those of ordinary skill in the art's possessed knowledge Make a variety of changes.

Claims (5)

1. a kind of high filtering type dry cell intelligently switches electric supply installation, using specified model dry cell（13）For power device （1）It is powered；It is characterized in that：Including strip plate（2）, side L-shaped structure block board（3）, rack（4）, gear（5）、 Electrode slice（6）, contact rod（7）, strip conducting strip, light source（8）, photosensitive sensors（12）, at least two sleeves（14）And control Module（9）, and respectively with control module（9）The independent power supply being connected（10）, rotary electric machine（11）, filter circuit （16）；Photosensitive sensors（12）Circuit after filtering（16）With control module（9）It is connected；Wherein, independent power supply（10） By control module（9）For rotary electric machine（11）It is powered, meanwhile, independent power supply（10）Pass through control module successively （9）, filter circuit（16）For photosensitive sensors（12）It is powered；Filter circuit（16）Including transport and placing device A1, first resistor R1, Second resistance R2, the first electric capacity C1 and the second electric capacity C2, wherein, filter circuit（16）Input be sequentially connected in series the first electric capacity C1, Second electric capacity C2 to transport and placing device A1 positive input, meanwhile, filter circuit（16）Input and photosensitive sensors（12）It is connected Connect, and transport and placing device A1 positive input series connection second resistance R2, and be grounded；First resistor R1 one end is connected to the first electric capacity Between C1 and the second electric capacity C2, the reverse input end with transport and placing device A1, output end are connected the first resistor R1 other end respectively, Meanwhile transport and placing device A1 output end and filter circuit（16）Output end be connected, filter circuit（16）Output end and control Module（9）It is connected；Block board（3）The length of upper corresponding L-shaped long side is more than dry cell（13）Length, and block board（3）Upper and L-shaped The length on the perpendicular side in side and specified model dry cell（13）Overall diameter be adapted, block board（3）Upper corresponding L-shaped long side The medial surface surface of plate sets the chute of straight line first, and straight line and block board where the first chute（3）Upper L-shaped side is mutually hung down, card Position plate（3）Spacing and specified model dry cell between upper transition location and the first chute（13）Length be adapted；First chute Interior width and strip plate（2）Thickness be adapted, strip plate（2）With its long side in block board（3）On the first chute in it is sliding It is dynamic, and strip plate（2）With block board（3）Face where upper first chute is perpendicular；Electrode slice（6）It is fixedly installed on block board（3） Upper and strip plate（2）On parallel medial surface；Rack（4）Length and strip plate（2）Length be adapted, rack（4）Gu Surely it is arranged at strip plate（2）Upper electrode slice backwards（6）One side on, rack（4）With strip plate（2）On length it is parallel, and Rack（4）Groove straight up, rotary electric machine（11）It is fixedly installed on block board（3）The inner side of the plate of upper corresponding L-shaped long side On the surface of face, and rotary electric machine（11）Positioned at strip plate（2）Backwards to electrode slice（6）Side, and rotary electric machine（11）On Rotating bar is perpendicularly oriented to strip plate（2）Upper electrode slice backwards（6）One side, gear（5）Groove and rack（4）Groove that This is adapted, gear（5）It is fixedly connected on rotary electric machine（11）The top of upper rotating bar, gear（5）Positioned at rack（4）Top, Gear（5）On groove activity butt up against rack（4）Groove, rack（4）With rotary electric machine（11）To gear（5）Rotation and Move back and forth, and strip plate（2）With rack（4）Movement and in block board（3）The first chute in move back and forth；Strip plate （2）Surface sets the second chute through its both sides, the length and strip plate of the second chute（2）Length be adapted, and second Chute it is closed at both ends；The length of strip conducting strip and the length of the second chute are adapted, and strip conducting strip is along the second chute, solid Surely it is attached at strip plate（2）On towards electrode slice（6）Side on, and strip conducting strip cover the second chute single side face；Lead Torch（7）It is fixedly installed on rotary electric machine（11）On, and contact rod（7）Wherein one end be located in the second chute, led with strip Electric piece is in contact, and contact rod（7）Upper and rotary electric machine（11）Wrapped up using insulating materials the part being in contact；It is each Sleeve（14）Both ends open and be mutually communicated, each sleeve（14）Internal diameter with specified model dry cell（13）It is outer straight Footpath is adapted, each sleeve（14）Wherein one end be respectively fixedly connected with strip plate（2）The upper side that strip conducting strip is set On, each sleeve（14）It is sequentially distributed along strip conducting strip, and each sleeve（14）Penetrated respectively with strip conducting strip；Specify Model dry cell（13）Quantity and sleeve（14）Quantity it is equal, each section specifies model dry cell（13）On designated ends difference It is movably set in each sleeve（14）In, and each section specifies model dry cell（13）On be placed in corresponding sleeve（14）In end with Strip conducting strip is in contact；Each section specifies model dry cell（13）On the other end with block board（3）Along moving for the second chute, Successively with block board（3）Upper set electrode slice（6）It is in contact；Power device（1）And light source（8）It is in parallel each other, and Wherein one end in parallel and electrode slice（6）It is connected, the other end and contact rod in parallel（7）It is connected；Light source（8）Illumination end Point to photosensitive sensors（12）Test side.

2. a kind of high filtering type dry cell intelligently switches electric supply installation according to claim 1, it is characterised in that：Also include set Pipe（15）, sleeve pipe（15）Both ends open and be mutually communicated, the light source（8）With the photosensitive sensors（12）Respectively by covering Pipe（15）Both ends as sleeve pipe（15）It is internal.

3. a kind of high filtering type dry cell intelligently switches electric supply installation according to claim 1, it is characterised in that：The rotation Motor（11）For brushless rotary motor.

4. a kind of high filtering type dry cell intelligently switches electric supply installation according to claim 1, it is characterised in that：The control Molding block（9）For microprocessor.

5. a kind of high filtering type dry cell intelligently switches electric supply installation according to claim 4, it is characterised in that：It is described micro- Processor is arm processor.