CN108281853A - Insert row - Google Patents

Abstract

A kind of insert row, including a power-line plug, a power cord and an insert row main body, the insert row main body includes a shell and multiple sockets, the insert row main body further comprises a battery and an opto-electronic conversion module, the battery and opto-electronic conversion module are electrically connected and are set in the shell, the shell has a transmittance section, and the transmittance section is correspondingly arranged with the opto-electronic conversion module；The electric energy is transferred to the battery by the opto-electronic conversion module for converting light energy into electric energy；The battery is electrically connected with the multiple socket, and the electric energy is transferred to the multiple socket.

Description

Insert row

Technical field

The present invention relates to a kind of insert rows.

Background technology

Insert row is also terminal plate, is that multiple sockets concentration is put together, to the porous socket formed.Insert row is daily Necessity in life.Existing insert row generally comprises main body, a power cord and a power supply for carrying multiple jacks Line plug.The power-line plug is electrically connected with external power supply, to make the various wiring of the insertion jack with it is described external Power electric connection is convenient for the connection of external power supply and various electric appliances.

However, existing insert row must be electrically connected at work with external power supply, there is no storage electric energy and offers for itself The function of electric energy.

Invention content

In view of this, it is necessory to provide a kind of insert row that can be stored electric energy and provide electric energy.

A kind of insert row, including a power-line plug, a power cord and an insert row main body, the insert row main body include a shell and Multiple sockets, the insert row main body further comprise that a battery and an opto-electronic conversion module, the battery and opto-electronic conversion module are electrically connected It connects and is set in the shell, which has a transmittance section, and the transmittance section is correspondingly arranged with the opto-electronic conversion module； The electric energy is transferred to the battery by the opto-electronic conversion module for converting light energy into electric energy；The battery with it is described Multiple socket electrical connections, and the electric energy is transferred to the multiple socket.

Compared with prior art, the present invention converts light energy into electric energy by opto-electronic conversion module, and the electric energy is stored In the battery, described insert row itself is caused to have the function of storing electric energy.Therefore, the insert row can when power failure, according to Electric energy by itself storage is other electric power supplies.

Description of the drawings

Fig. 1 is the structural schematic diagram for the insert row that first embodiment of the invention provides.

Fig. 2 is the annexation figure between each element in the insert row main body that first embodiment of the invention provides.

Fig. 3 is the structural schematic diagram of opto-electronic conversion module in the insert row that first embodiment of the invention provides.

Fig. 4 is the stereoscan photograph of carbon nanotube membrane in the insert row that first embodiment of the invention provides.

Fig. 5 is the structural schematic diagram for the insert row that second embodiment of the invention provides.

Fig. 6 is the annexation figure between each element in the insert row main body that second embodiment of the invention provides.

Fig. 7 is the structural schematic diagram of sounding module in the insert row that second embodiment of the invention provides.

Main element symbol description

Insert row 10,20

Power-line plug 12

Power cord 14

Insert row main body 16,26

Socket 162

Switch 164

Indicator light 166

Battery 168

Opto-electronic conversion module 170

Carbon nanotube layer 1702

P-type thermoelectric structure 1704

First heat absorbing end 1701

First voltage output end 1703

N-type thermoelectric structure 1706

Second heat absorbing end 1705

Second voltage output end 1707

First electrode 1708

Second electrode 1710

Microprocessor 180

Sounding module 190

Third electrode 1902

4th electrode 1904

Following specific implementation mode will be further illustrated the present invention in conjunction with above-mentioned attached drawing.

Specific implementation mode

Insert row provided by the invention is described in further detail below in conjunction with the accompanying drawings and the specific embodiments.

Fig. 1 is referred to, first embodiment of the invention provides a kind of insert row 10, including a power-line plug 12, a power cord 14 and an insert row main body 16, the power cord 14 power-line plug 12 and the insert row main body 16 are cascaded.This is inserted Main body 16 is arranged including a shell, multiple sockets 162, multiple switch 164, multiple indicator lights 166, a battery 168 and a photoelectricity to turn Mold changing group 170.There is the shell transmittance section and multiple jacks, multiple jack to be corresponded with the multiple socket 162, The plug of other electric appliances can be inserted into the socket 162 by the jack.The socket 162, switch 164, indicator light 166, battery 168 and opto-electronic conversion module 170 are set to the enclosure interior, and the switch 164 and 166 part of indicator light are prolonged It reaches outside the trepanning on the shell.

The power-line plug 12 and power cord 14 use existing power-line plug 12 and power cord 14.Wherein, power supply Line 14 includes core wire, and the material of the core wire is the conductive materials such as copper wire, and the cross-sectional area of the core wire is by the socket 162 Depending on quantity, the quantity of socket 162 is more, and core wire is thicker.The power-line plug 12 and power cord 14 are used for together will be described Insert row main body 16 is electrically connected with external power supply.

The shell is made of insulating materials, which includes the plastics such as ceramics or bakelite (phenoplasts).Institute It states that the shape of jack on shell is consistent with the inserted sheet shape of other appliance plugs, is convenient for the insertion of other appliance plugs, so that should Electric appliance is electrically connected with insert row 10.On the shell, the material of partial shell selection light transmission corresponding with the opto-electronic conversion module 170 Transmittance section is made in material.That is, the opto-electronic conversion module 170 is correspondingly arranged with the transmittance section, so that ambient light is penetrated should Transmittance section, and be radiated on the opto-electronic conversion module 170.The translucent material includes zinc selenide (ZnSe), glass, resin Deng.It is appreciated that can also select the translucent material that entire shell is made, namely entire shell is made of translucent material.

The material and shape of the switch 164 are unlimited, can be according to actually being selected, such as LED switch 164.LED is opened It closes full name to switch for Flat-screen reset type LED indication, LED switch product appearance is in integrally flat, and can be automatically reset, and work(is switched LED light can be carried inside part, can accurately indicate switch on and off state, while very convenient user finds in the dark again The position of the switch.It is appreciated that in the multiple switch 164, a switch 164 controls the open and close of entire insert row 10；It is surplus Remaining switch 164 can be corresponded with the jack, and the plug of other electric appliances and the insert row in these jacks are inserted into for controlling 10 connection and disconnection.

The indicator light 166 is used to show the open and close of insert row 10 or switch 164.When indicator light 166 is bright, table Bright insert row 10 is opened or socket 162 has had voltage.When indicator light 166 goes out, show that insert row 10 is closed, or inserts Seat 162 is without voltage.It is appreciated that the indicator light 166 is corresponded with the switch 164.

The battery 168 and the multiple socket 162, multiple indicator lights 166, opto-electronic conversion module 170 and power cord 14 It is electrically connected, as shown in Figure 2.The battery 168 is rechargeable battery, is provided for receiving and storing opto-electronic conversion module 170 Electric energy, and the electric current is transferred to by the multiple socket 162 and multiple indicator lights 166 by conducting wire.Further, the electricity Pond 168 by being charged by electrically connecting between power cord 14 and external power supply and can also store electric energy.Since municipal administration carries What is supplied is alternating current, and the power cord 14 is needed through a DC/AC conversion modules, is direct current by AC conversion, with supply Battery 168.

The electric energy is transferred to the battery 168 by the opto-electronic conversion module 170 for converting light energy into electric energy. The opto-electronic conversion module 170 can select existing photoelectric converter, the present invention to provide a kind of photoelectricity based on carbon nano-tube film Module 170 is converted, as shown in Figure 3.

The opto-electronic conversion module 170 includes a carbon nanotube layer 1702, a p-type thermoelectric structure 1704, a N-type thermoelectricity knot Structure 1706, a first electrode 1708 and a second electrode 1710.The carbon nanotube layer 1702 is vacantly arranged in spaced P Between type thermoelectric structure 1704 and N-type thermoelectric structure 1706.The first electrode 1708 is arranged in the p-type thermoelectric structure 1704 One end far from carbon nanotube layer 1702, the second electrode 1710 are arranged in the N-type thermoelectric structure 1706 far from carbon nanometer One end of tube layer 1702.

The p-type thermoelectric structure 1704 includes one first heat absorbing end 1701 and a first voltage output end 1703, the N-type Thermoelectric structure 1706 includes one second heat absorbing end 1705 and a second voltage output end 1707.The p-type thermoelectric structure 1704 and N The setting of the interval of type thermoelectric structure 1706, the heat absorbing end of the two are in same plane and towards same direction, the carbon nanotube layer 1702 is flat with the first heat absorbing end 1701 of the p-type thermoelectric structure 1704 and the second heat absorbing end 1705 of N-type thermoelectric structure 1706 It goes and is in direct contact setting.The first electrode 1708 is contacted with the first voltage output end 1703 of p-type thermoelectric structure 1704 and is set It sets, the second electrode 1710 contacts setting with the second voltage output end 1707 of N-type thermoelectric structure 1706.The opto-electronic conversion The carbon nanotube layer 1702 of module 170 is arranged close to incident light.That is, the carbon nanotube layer of the opto-electronic conversion module 170 1702 close to the transmittance section of the shell.

The carbon nanotube layer 1702 is for absorbing luminous energy and converting it into thermal energy.Since carbon nanotube is to electromagnetic wave It absorbs close to absolute black body, and there is uniform absorption characteristic to the light of various wavelength, therefore carbon nanotube has preferably luminous energy Absorption characteristic, carbon nanotube layer 1702 can almost reach 100% to the absorptivity of luminous energy.

The carbon nanotube layer 1702 is including at least one carbon nano tube structure being made of pure nano-carbon tube or by other bases The composite structure of carbon nano tube of body and carbon nanotube composition.The carbon nanotube can be single-walled carbon nanotube, double wall carbon nano-tubes One or more of pipe or multi-walled carbon nanotube.A diameter of 0.5 nanometer~50 nanometers of the single-walled carbon nanotube.It is described A diameter of 1.0 nanometers~50 nanometers of double-walled carbon nano-tube.A diameter of 1.5 nanometers~50 nanometers of the multi-walled carbon nanotube. The carbon nano tube structure is received including an at least carbon nano-tube film, an at least liner structure of carbon nano tube, carbon nano-tube film and carbon The combination of mitron linear structure.Carbon nanotube in the carbon nano-tube film can be with ordered arrangement or disorderly arranged, unordered finger carbon The orientation of nanotube is not fixed, i.e., the quantity along the carbon nanotube of all directions arrangement is of substantially equal, is orderly referred at least most The orientation of carbon nanotube has certain rule, such as substantially along a fixed-direction preferred orientation or substantially along several fixation sides To preferred orientation.The disorderly arranged carbon nanotube can mutually be wound by Van der Waals force, attract each other and be parallel to carbon The surface of nano tube structure.The carbon nanotube of the ordered arrangement can in one direction or multiple directions are arranged of preferred orient. When carbon nano tube structure only includes a liner structure of carbon nano tube, which repeatedly can fold or twine Around into a layered carbon nano pipe structure.When carbon nano tube structure includes multiple liner structure of carbon nano tube, multiple carbon nanometers Tubular configuration can be arranged in parallel, arranged in a crossed manner or braiding setting.When carbon nano tube structure includes carbon nanotube simultaneously When film and liner structure of carbon nano tube, the liner structure of carbon nano tube is set to an at least surface for carbon nano-tube film.It is described Carbon nanotube layer 1702 is a self supporting structure, and so-called " self supporting structure " the i.e. carbon nanotube layer 1702 is not necessarily to through a support Body supports, and can also keep itself specific layer structure.Therefore, which partly can be vacantly arranged.

In the present embodiment, the carbon nanotube layer 1702 is made of multilayer carbon nanotube membrane, which is It is obtained from one surpassing to pull in in-line arrangement carbon nano pipe array, which includes multiple joining end to end and prolonging in the same direction The carbon nanotube stretched, as shown in Figure 4.

The p-type thermoelectric structure 1704 is used to convert heat energy into electric energy with N-type thermoelectric structure 1706, respectively by p-type heat Electric material is made with N-type thermoelectric material.Thermoelectric material is a kind of straight using solid interior carrier moving realization thermal energy and electric energy Connect the functional material mutually converted.The ideal thermoelectric material of near room temperature is Bi_xSb_(2-x)Te₃Series material, with Bi_xSb_(2-x)Te₃Based on, p-type thermoelectric material and N-type thermoelectric material can be made by doping.By aforementioned p-type and N-type thermoelectricity Material is further made with certain thickness layer structure to get to the p-type thermoelectric structure 1704 and N-type thermoelectric structure 1706.In the present embodiment, the p-type thermoelectric structure 1704 and N-type thermoelectric structure 1706 are a diameter of 16mm, and thickness is 1mm's Cylindrical-shaped structure.

The p-type thermoelectric structure 1704, N-type thermoelectric structure 1706 and the combined method of carbon nanotube layer 1702 are as follows：It will In the p-type thermoelectric structure 1704 the first heat absorbing end 1701 and the first electricity are respectively defined as perpendicular to two surfaces of thickness direction Output end 1703 is pressed, two surfaces perpendicular to thickness direction in the N-type thermoelectric structure 1706 are respectively defined as the second suction Hot junction 1705 and second voltage output end 1707.P-type thermoelectric structure 1704 is arranged with the interval of N-type thermoelectric structure 1706, interval distance From can be arranged according to actual conditions, such as 2mm, the first heat absorbing end 1701 and the second heat absorbing end 1705 are upward, organic by infiltrating The carbon nanotube layer 1702 of solution is laid in first heat absorbing end, 1701 and second heat absorbing end 1705.Organic solvent volatilizees, Carbon nanotube layer 1702 is set closely to be connect with first heat absorbing end, 1701 and second heat absorbing end 1705.The organic solvent is preferred Readily volatilized organic solvent, for example, ethyl alcohol, methanol, acetone etc..

The first electrode 1708, second electrode 1710 are used as the output end of opto-electronic conversion module 170.First electrode 1708 contact setting, second electrode 1710 and N-type thermoelectric structure with the first voltage output end 1703 of p-type thermoelectric structure 1704 The 1706 contact setting of second voltage output end 1707.The first electrode 1708 and second electrode 1710 are preferably shaped to piece Shape electrode, first electrode 1708 and second electrode 1710 are made of an electrically conducting material, which includes titanium, silver, aluminium, nickel, gold Or its arbitrary combination.

A series of conversion process of energy that the opto-electronic conversion module 170 is carried out in working condition are as follows：Ambient light is logical The transmittance section for crossing shell is radiated on carbon nanotube layer 1702, which absorbs luminous energy, and converts light energy into Thermal energy, the thermal energy by be directly passed to p-type thermoelectric structure 1704 the first heat absorbing end 1701 and N-type thermoelectric structure 1706 second Heat absorbing end 1705 makes the temperature of the two increase, to respectively in the first heat absorbing end 1701 of p-type thermoelectric structure 1704 and the first electricity It is generated between pressure output end 1703, between the second heat absorbing end 1705 and second voltage output end 1707 of N-type thermoelectric structure 1706 Temperature difference.According to thermoelectric principle, 1704 both ends of p-type thermoelectric structure will appear a potential difference, the electricity of the first heat absorbing end 1701 Position will be above the current potential of first voltage output end 1703；1706 both ends of N-type thermoelectric structure also will appear a potential difference, the second heat absorption The current potential at end 1705 will be less than the current potential of second voltage output end 1707.The first heat absorbing end 1701 and N of p-type thermoelectric structure 1704 Second heat absorbing end 1705 of type thermoelectric structure 1706 via carbon nanotube layer 1702 connect be connected, output end first electrode 1708 with Potential difference between second electrode 1710 is 1704 both ends potential difference of p-type thermoelectric structure and 1706 both ends potential of N-type thermoelectric structure The sum of difference.To generate electric current between first electrode 1708 and second electrode 1710.

The course of work of the insert row 10 is：Sunlight or light are radiated at opto-electronic conversion module by the transmittance section of shell In 170 on carbon nanotube layer 1702, opto-electronic conversion module 170 converts light energy into electric energy, and the electric energy is transferred to battery 168；When an electric appliance needs power supply, the plug of the electric appliance is inserted into the socket 162 of the insert row 10, and start the insert row Electric energy is transferred to the electric appliance by 10 corresponding switches 164, the battery 168.When the electric energy stored in battery 168 exhausts, and And without that when opto-electronic conversion module 170, the power-line plug 12 can be inserted into external described in sunlight or light-illuminating Power supply, so that the electric appliance to be electrically connected with external power supply.

Refer to Fig. 2, it will be understood that when the power-line plug 12 is inserted into external power supply, which can also It is charged directly to battery 168 by power cord 14, and the external power supply is powered to indicator light 166 and socket 162 simultaneously.When stopping When the situation of electricity occurs, it can continue to supply to indicator light 166 and socket 162 by the battery 168 after external power charging Electricity.Described in the sunlight or light-illuminating when opto-electronic conversion module 170, which converts light energy into electricity While and the electric energy being transferred to battery 168 and stored, indicator light 166 and socket 162 can also be given directly to power.When There is no opto-electronic conversion module 170 described in sunlight or light-illuminating, the battery after charging by opto-electronic conversion module 170 168 can continue to power to indicator light 166 and socket 162.

The insert row 10 converts light energy into electric energy by opto-electronic conversion module 170, and the electric energy is stored in battery 168 In, cause the insert row 10 itself to have the function of storing electric energy.Therefore, which can rely on when power failure The electric energy of itself storage is other electric power supplies.

Fig. 5 and Fig. 6 are referred to, second embodiment of the invention further provides for a kind of insert row 20, and the insert row 20 and first is in fact Applying the difference of the insert row 10 of example is：In the present embodiment, the insert row main body 26 in the insert row 20 further comprises a microprocessor 180 With a sounding module 190, the microprocessor 180 and sounding module 190 are arranged in the shell, 180 He of microprocessor Sounding module 190 is electrically connected with the battery 168；The shell further comprises a through-hole, the through-hole and the sounding mould Group 190 is corresponding.That is, in the present embodiment, the battery 168 turns with the multiple socket 162, multiple indicator lights 166, photoelectricity Mold changing group 170, power cord 14, microprocessor 180 and sounding module 190 are electrically connected, as shown in Figure 6.

The microprocessor 180 is electrically connected with the sounding module 190, which is integrated with number of songs.

The sounding module 190 is used for sounding, the playback of songs in the microprocessor 180 is come out, which passes through The through-hole of shell blazes abroad.

The sounding module 190 can be existing loud speaker.The present invention provides a kind of sounding based on carbon nano-tube film Module 190, as shown in Figure 7.The sounding module 190 includes a carbon nanotube layer 1702, a third electrode 1902 and one the 4th electricity Pole 1904, the third electrode 1902 and the setting of the 4th electrode 1904 interval, the carbon nanotube layer 1702 are vacantly set to described Between third electrode 1902 and the 4th electrode 1904.

The material and structure of the carbon nanotube layer 1702 are identical as the carbon nanotube layer 1702 in first embodiment, third The material of first electrode 1708 and second electrode 1710 in the material and first embodiment of electrode 1902 and the 4th electrode 1904 Identical, which is not described herein again.In the present embodiment, the carbon nanotube layer 1702 is one layer of carbon nanotube membrane, the carbon nanotube Membrane includes multiple carbon nanotubes for joining end to end and extending in the same direction, and the extending direction of the carbon nanotube is from third electricity Pole 1902 extends to the 4th electrode 1904.

The carbon nanotube layer 1702 is made of carbon nanotube, and the unit area thermal capacitance of the carbon nanotube is less than 2 × 10^-4 Joules per cm Kelvin, it is to allow the carbon nanotube layer 1702 that the electric energy of input is converted to thermal energy, i.e., described Carbon nanotube layer 1702, to which heat exchange occur rapidly with surrounding gas medium, can add according to the rapid heating and cooling of signal of input 1702 exterior circumferential gas medium of hot carbon nanotube layer, promotes surrounding gas medium molecular motion, gas medium density to send out therewith Changing, and then sound wave is sent out, the conversion of " electric-thermal-sound " is realized, that is, the sounding module 190 is a thermophone element. Due to the carbon nanotube layer 1702 be self supporting structure, can vacantly be arranged, therefore, the carbon nanotube layer 1702 can fully with week It encloses media contact and carries out heat exchange, improve the phonation efficiency of sounding module 190.

Refer to Fig. 6, it will be understood that when the power-line plug 12 is inserted into external power supply, which can also It is charged directly to battery 168 by power cord 14, and the external power supply is simultaneously to indicator light 166, socket 162, microprocessor 180 and sounding module 190 power.It, can be after by the battery 168 after external power charging when occurring when have a power failure the case where Continue and powers to indicator light 166, socket 162, microprocessor 180 and sounding module 190.The light described in the sunlight or light-illuminating When electricity conversion module 170, which converts light energy into electric energy and the electric energy is transferred to battery 168 and carry out While storage, can also directly it power to indicator light 166, socket 162, microprocessor 180 and sounding module 190.When not having Opto-electronic conversion module 170 described in sunlight or light-illuminating, the battery 168 after being charged by opto-electronic conversion module 170 It can continue to power to indicator light 166, socket 162, microprocessor 180 and sounding module 190.

The insert row 20 not only itself has storage electric energy and is other electric power supplies by the electric energy of itself storage Function can also play music.

In addition, those skilled in the art can also do other variations in spirit of that invention, certainly, these are smart according to the present invention The variation that god is done all should include within scope of the present invention.

Claims (10)

1. a kind of insert row, including a power-line plug, a power cord and an insert row main body, which includes a shell and more A socket, which is characterized in that the insert row main body further comprises a battery and an opto-electronic conversion module, the battery and opto-electronic conversion Module is electrically connected and is set in the shell, which has a transmittance section, and the transmittance section and the opto-electronic conversion module It is correspondingly arranged；The electric energy is transferred to the battery by the opto-electronic conversion module for converting light energy into electric energy；The electricity Pond is electrically connected with the multiple socket, and the electric energy is transferred to the multiple socket.

2. insert row as described in claim 1, which is characterized in that the opto-electronic conversion module includes a carbon nanotube layer, a p-type Thermoelectric structure, a N-type thermoelectric structure, a first electrode and a second electrode；The carbon nanotube layer segment vacantly setting Between the p-type thermoelectric structure and N-type thermoelectric structure of setting, the first electrode is arranged in the p-type thermoelectric structure far from carbon One end of nanotube layer, the second electrode are arranged in the described one end of N-type thermoelectric structure far from carbon nanotube layer.

3. insert row as claimed in claim 2, which is characterized in that the carbon nanotube layer is made of multilayer carbon nanotube membrane, The carbon nanotube membrane includes multiple carbon nanotubes for joining end to end and extending in the same direction.

4. insert row as described in claim 1, which is characterized in that the opto-electronic conversion module is electrically connected with the multiple socket.

5. insert row as described in claim 1, which is characterized in that the material of the transmittance section includes zinc selenide, glass or resin.

6. insert row as described in claim 1, which is characterized in that the power cord is electrically connected with the battery and multiple sockets respectively It connects.

7. insert row as described in claim 1, which is characterized in that the insert row main body further comprise a microprocessor and one with The sounding module of microprocessor electrical connection, the microprocessor and the sounding module are electrically connected with the battery, micro- place Reason device is integrated at least one song, and for playing at least one song, which passes through the sounding module A through-hole on the shell spreads out of.

8. insert row as claimed in claim 7, which is characterized in that the sounding module includes a carbon nanotube layer, third electricity Pole and one the 4th electrode, the carbon nanotube layer segment are vacantly set between spaced third electrode and the 4th electrode.

9. insert row as claimed in claim 8, which is characterized in that the carbon nanotube layer includes multiple joins end to end and along same The carbon nanotube that direction extends.

10. insert row as claimed in claim 9, which is characterized in that the extending direction of the carbon nanotube is from third electricity Pole extends to the 4th electrode.