CN206520498U - Self-induction illumination type charging pile - Google Patents

Abstract

The utility model discloses a kind of self-induction illumination type charging pile, including charging pile main body, the illuminating lamp and human body sensing head being arranged in charging pile main body, the brightness impression hole on charging pile main body top is arranged on, and is arranged on charging pile body interior and the self-induction lighting circuit being connected simultaneously with human body sensing head and illuminating lamp.The utility model provides a kind of self-induction illumination type charging pile, charging pile is organically combined togather with lighting device, and then improve the property easy to use of people, lift the using effect of people, the experience sense of people is also further increased by lifting the intelligent mode of lighting device in addition, and then promotion people are to the degree of recognition of product.

Description

Self-induction illumination type charging pile

Technical field

The utility model is related to a kind of protection circuit, specifically refers to a kind of self-induction illumination type charging pile.

Background technology

Electric automobile (BEV) refers to, using vehicle power as power, be travelled with power wheel, meets road traffic, peace The vehicle of full regulation requirements, because the relatively conventional automobile of effect on environment is smaller, its prospect is had an optimistic view of extensively, also increasingly Received by people.With the appearance of electric automobile, the charging pile for being charged to electric automobile is also occurred gradually over Among the visual field of people.

It is functionally similar to fuel charger inside gas station to charging pile, can be fixed on ground or wall, be installed on road, , can be according to different in public building (public building, market, Public Parking etc.) and residential area parking lot or charging station Voltage class is the charging electric vehicle of various models.The input of charging pile is directly connected to AC network, and output end is all filled Have charging plug be used for be charging electric vehicle.Charging pile generally provides two kinds of charging modes of normal charge and quick charge, people Specific recharged card can be used to swipe the card on the man-machine interactive interface that charging pile is provided use, charged accordingly The operations such as mode, charging interval, cost data printing, charging pile display screen can show the number such as charge volume, expense, charging interval According to.

The function of existing charging pile is perfect not enough, and it is operated with the illumination during use mainly outside Lighting device, because lighting device and charging pile are separate settings, the using effect given people when in use does not comply with one's wishes, And lighting device is intelligent relatively low, it is necessary to which people are switched manually.

Utility model content

The purpose of this utility model is to overcome above mentioned problem there is provided a kind of self-induction illumination type charging pile, by charging pile Organically it is combined togather with lighting device, and then improves the property easy to use of people, lifts the using effect of people, separately The outer experience sense that people are also further increased by lifting the intelligent mode of lighting device, and then promote people to product Degree of recognition.

The purpose of this utility model is achieved through the following technical solutions：

Self-induction illumination type charging pile, including charging pile main body, the illuminating lamp being arranged in charging pile main body and people's body-sensing Answer head, be arranged on the brightness impression hole on charging pile main body top, and be arranged on charging pile body interior and simultaneously with people's body-sensing Answer the self-induction lighting circuit that head is connected with illuminating lamp.

Preferably, the illuminating lamp is bank light, and the illuminating lamp is arranged in pairs, and each pair illuminating lamp is symmetricly set on charging The left and right sides of stake main body.

The setting preferably, each pair illuminating lamp leans forward, it illuminates angle and is at least 120 °.

Preferably, the illuminating lamp selects LED.

Preferably, the human body sensing head selects thermal infrared human inductor, the quantity of the human body sensing head is two And it is symmetrically arranged at the left and right sides of charging pile main body.

Further, the self-induction lighting circuit is by photistor VTP, triode VT1, triode VT2, triode VT3, triode VT4, FET Q1, operational amplifier P1, one end is connected with operational amplifier P1 positive input terminal, another The resistance R1 being connected with operational amplifier P1 negative power end is held, one end is connected with triode VT1 colelctor electrode, the other end The resistance R2 being connected with operational amplifier P1 negative input end, one end is connected, separately with operational amplifier P1 negative input end The resistance R3 that one end is connected with operational amplifier P1 negative power end, is serially connected between triode VT2 emitter stage and base stage Resistance R4, the resistance that one end is connected with operational amplifier P1 output end, the other end is connected with triode VT2 base stage The diode D1 that R5, N pole are connected with triode VT2 colelctor electrode, P poles are connected with operational amplifier P1 negative power end, The relay K1 being arranged in parallel with diode D1, one end is connected with triode VT2 emitter stage, the other end and FET Q1 Resistance R6, the P pole that is connected of source electrode be connected with FET Q1 source electrode, N poles are connected with triode VT3 base stage The diode D3 that diode D2, N pole is connected with triode VT2 emitter stage, P poles are connected with triode VT3 colelctor electrode, The voltage-regulator diode D4 that relay K2, the P poles being arranged in parallel with diode D3 are grounded, N poles are connected with diode D3 N poles, Positive pole is connected with voltage-regulator diode D4 N poles, negative pole is connected with voltage-regulator diode D4 P poles electric capacity C2, P pole and electric capacity The diode D6 that C2 negative pole is connected, N poles are connected after diode D5 with electric capacity C2 positive pole, negative pole is with diode D6's The electric capacity C1 that N poles are connected, and the resistance R7 compositions being arranged in parallel with electric capacity C1；Wherein, photistor VTP emitter stage It is connected with triode VT1 base stage, colelctor electrode, the triode of photistor VTP colelctor electrode simultaneously with triode VT1 VT2 emitter stage and operational amplifier P1 positive power source terminal are connected, and triode VT1 emitter stage is with operational amplifier P1's Positive input terminal is connected, the drain electrode and triode VT4 transmitting of operational amplifier P1 negative power end simultaneously with FET Q1 Pole is connected and is grounded, relay K1 normally-closed contact K1-2 one end is connected with FET Q1 drain electrode, the other end with FET Q1 source electrode is connected, and triode VT3 emitter stage is connected with triode VT4 emitter stage, triode VT3 Colelctor electrode is connected with triode VT4 colelctor electrode, and diode D5 N poles are connected with electric capacity C2 positive pole, and electric capacity C1 is just Pole is connected with relay K2 normally opened contact K2-1 one end, diode D6 P poles and relay K1 normally opened contact K1-1 Be a little connected, the relay K2 normally opened contact K2-1 other end and relay K1 normally opened contact K1-1 other end group Into the power output end of the self-induction lighting circuit, electric capacity C1 positive pole constitutes the self-induction power for illumination with diode D6 P poles The power input on road, FET Q1 base stage as the self-induction lighting circuit signal input part.

Preferably, the signal input part of the self-induction lighting circuit is connected with human body sensing head, power output end It is connected with illuminating lamp.

The utility model compared with prior art, with advantages below and beneficial effect：

The utility model controls lighting device to complete automatic sensing and automatic illuminating by setting self-induction lighting circuit Process, extraneous intensity of illumination is higher or charging pile main body around nobody when will not be illuminated, only meet simultaneously Extraneous intensity of illumination is relatively low and has the condition of physical activity to be just illuminated, and substantially increases the intelligent of product, makes simultaneously Obtain lighting device and be organically combined into an entirety with charging pile, substantially increase the using effect and the scope of application of product, enter One step promotes the development and popularization of product.

Brief description of the drawings

Fig. 1 is structural representation of the present utility model.

Fig. 2 is the circuit structure diagram of self-induction lighting circuit of the present utility model.

Description of reference numerals：

1st, charging pile main body；2nd, human body sensing head；3rd, illuminating lamp；4th, brightness impression hole.

Embodiment

With reference to embodiment, the utility model is described in further detail, but embodiment of the present utility model is not It is limited to this.

Embodiment

As shown in figure 1, self-induction illumination type charging pile, including charging pile main body 1, it is arranged on the photograph in charging pile main body 1 Bright lamp 3 and human body sensing first 2, are arranged on the brightness impression hole 4 on the top of charging pile main body 1, and are arranged in charging pile main body 1 Portion and the self-induction lighting circuit being connected simultaneously with human body sensing first 2 and illuminating lamp 3.

Charging pile main body 1 is existing mature technology, is not just repeated herein.

The illuminating lamp 3 is bank light, and the illuminating lamp 3 is arranged in pairs, and each pair illuminating lamp 3 is symmetricly set on charging pile main body 1 left and right sides；The logarithm of specific illuminating lamp 3 can be according to the brightness decision of the environment residing for the charging pile main body 1, and environment is bright The logarithm of the more low required illuminating lamp 3 of degree is higher.The each pair illuminating lamp 3 leans forward setting, and it illuminates angle and is at least 120 °, The angle for the scope that illumination angle herein is illuminated by two illuminating lamps, not more than 220 ° of the scope.In order to improve photograph The brightness of bright lamp 3, the power consumption that reduction illuminating lamp 3 is run, so the illuminating lamp 3 selects LED.

The human body sensing first 2 selects thermal infrared human inductor, and the quantity of the human body sensing first 2 is for two and right respectively Claim the left and right sides for being arranged on charging pile main body 1.The thermal infrared human inductor be existing mature technology, herein just without Repeat.

As shown in Fig. 2 the self-induction lighting circuit is by photistor VTP, triode VT1, triode VT2, three poles Pipe VT3, triode VT4, FET Q1, operational amplifier P1, resistance R1, resistance R2, resistance R3, resistance R4, resistance R5, electricity Hinder R6, resistance R7, electric capacity C1, electric capacity C2, diode D1, diode D2, diode D3, voltage-regulator diode D4, diode D5, two Pole pipe D6, relay K1, and relay K2 are constituted.

During connection, resistance R1 one end is connected with operational amplifier P1 positive input terminal, the other end and operational amplifier P1 negative power end is connected, and resistance R2 one end is connected with triode VT1 colelctor electrode, the other end and operational amplifier P1 Negative input end be connected, resistance R3 one end is connected with operational amplifier P1 negative input end, the other end and operation amplifier Device P1 negative power end is connected, and resistance R4 is serially connected between triode VT2 emitter stage and base stage, resistance R5 one end and fortune Calculation amplifier P1 output end is connected, the other end is connected with triode VT2 base stage, diode D1 N poles and triode VT2 colelctor electrode is connected, P poles are connected with operational amplifier P1 negative power end, and relay K1 is in parallel with diode D1 to be set Put, resistance R6 one end is connected with triode VT2 emitter stage, the other end is connected with FET Q1 source electrode, two poles Pipe D2 P poles are connected with FET Q1 source electrode, N poles are connected with triode VT3 base stage, diode D3 N poles with Triode VT2 emitter stage is connected, P poles are connected with triode VT3 colelctor electrode, and relay K2 is in parallel with diode D3 to be set Put, voltage-regulator diode D4 P poles ground connection, N poles are connected with diode D3 N poles, electric capacity C2 positive pole and voltage-regulator diode D4 N poles be connected, negative pole is connected with voltage-regulator diode D4 P poles, diode D6 P poles are connected with electric capacity C2 negative pole, N Positive pole of the pole with electric capacity C2 after diode D5 is connected, and electric capacity C1 negative pole is connected with diode D6 N poles, resistance R7 with Electric capacity C1 is arranged in parallel.

Wherein, photistor VTP emitter stage is connected with triode VT1 base stage, photistor VTP current collection Pole is connected with the positive power source terminal of triode VT1 colelctor electrode, triode VT2 emitter stage and operational amplifier P1 simultaneously, Triode VT1 emitter stage is connected with operational amplifier P1 positive input terminal, operational amplifier P1 negative power end simultaneously with FET Q1 drain electrode is connected and is grounded with triode VT4 emitter stage, relay K1 normally-closed contact K1-2 one end It is connected with FET Q1 drain electrode, the other end is connected with FET Q1 source electrode, triode VT3 emitter stage and three Pole pipe VT4 emitter stage is connected, triode VT3 colelctor electrode is connected with triode VT4 colelctor electrode, diode D5 N Pole is connected with electric capacity C2 positive pole, and electric capacity C1 positive pole is connected with relay K2 normally opened contact K2-1 one end, two poles Pipe D6 P poles are a little connected with relay K1 normally opened contact K1-1's, the relay K2 normally opened contact K2-1 other end The power output end of the self-induction lighting circuit, electric capacity C1 positive pole are constituted with the relay K1 normally opened contact K1-1 other end The power input of the self-induction lighting circuit is constituted with diode D6 P poles, FET Q1 base stage is used as the self-induction The signal input part of lighting circuit.In relay K2 normally opened contact K1-1 closures, due to relay K2 normally opened contact K2- 1 still remains open, so circuit is not powered externally, the state that power output end is remained open.

Photistor VTP and triode VT1 constitutes a Darlington transistor, and operational amplifier P1 makes as a comparator With, photistor VTP emitter stage output high level when the illumination received in photistor VTP base stage is stronger, and Turn-on transistor VT1 so that triode VT1 emitter stage output voltage, and then operational amplifier P1 positive input terminal is obtained Electricity, operational amplifier P1 output end not output level, and then triode VT2 base stage must not be electric, triode VT2 keeps blocking State；Conversely, when intensity of illumination is relatively low, triode VT2 base stage must be conducted, relay K1 conductings, relay K1's Normally opened contact K1-1 closures, normally-closed contact K1-2 disconnect.Wherein, photosensitive thyristor VTP is from PT5A850AC series, triode VT1 model 2N23694A, triode VT2 model 2N290621C, resistance R1 and resistance R2 resistance are 100K Ω, the resistance for putting the R3 and resistance R5 that is obstructed is 15K Ω, and resistance R4 resistance is 120K Ω, diode D1 model 1N4001, relay K1 select the relay of model 40982.

Electric capacity C1, resistance R7, diode D5 and diode D6 constitute a step-down rectifying circuit, and the electric current after decompression is through electricity 12V direct current can be exported so that follow-up circuit is transported after holding the filtering process in year C2 and voltage-regulator diode D4 voltage stabilizing processing Exercise and use；Electric capacity C1 capacitance is 200 μ F, and electric capacity C2 capacitance is 100 μ F, and resistance R7 is from the resistance that resistance is 1K Ω, two Pole pipe D5 and diode D5 select 1N4001 general-purpose diodes, and voltage-regulator diode D4 selects model 1N4742.

When signal input part has signal input, FET Q1 moment pinch off, FET Q1 because of induced signal Drain electrode and source electrode between resistance raise, and then cause FET Q1 and resistance R6 to carry out partial pressure, and then cause triode VT3 and triode VT4 conductings, and then relay K2 must be conducted, relay K2 normally opened contact K2-1 closures；In signal During input no signal, then said process reverse execution, relay K2 power-off.Wherein, triode VT3 and triode VT4 type Number it is that 2N23694A, diode D2 and diode D3 select 1N4001 general-purpose diodes, transformer K2 selects model 40982 relay, resistance R6 resistance is 70K Ω.In relay K1 normally-closed contact K1-2 conductings, no matter signal is inputted Whether end has signal input, and FET Q1 source electrode and drain electrode are short-circuited, and triode VT3 and triode VT4 will not be led It is logical.

Relay K1 or relay K2 it is independent it is electric when, will not cause the self-induction lighting circuit supplying power for outside, Only meet that intensity of illumination is relatively low and signal input part has signal input just self-induction lighting circuit can be driven outwards to supply simultaneously Electricity.

Photistor VTP base stage is set towards brightness impression hole, so that the completion that it can be more sensitive is to outside The sensing of intensity of illumination.

The signal input part of the self-induction lighting circuit is connected with human body sensing first 2, power output end and illuminating lamp 3 It is connected.

As described above, the utility model just can be realized well.

Claims (7)

1. self-induction illumination type charging pile, it is characterised in that：Including charging pile main body (1), it is arranged in charging pile main body (1) Illuminating lamp (3) and human body sensing head (2), are arranged on the brightness impression hole (4) on charging pile main body (1) top, and are arranged on and fill Electric stake main body (1) inside and the self-induction lighting circuit being connected simultaneously with human body sensing head (2) and illuminating lamp (3).

2. self-induction illumination type charging pile according to claim 1, it is characterised in that：The illuminating lamp (3) is bank light, and The illuminating lamp (3) is arranged in pairs, and each pair illuminating lamp (3) is symmetricly set on the left and right sides of charging pile main body (1).

3. self-induction illumination type charging pile according to claim 2, it is characterised in that：Before each pair illuminating lamp (3) is equal Incline setting, it illuminates angle and is at least 120 °.

4. self-induction illumination type charging pile according to claim 3, it is characterised in that：The illuminating lamp (3) selects LED Lamp.

5. self-induction illumination type charging pile according to claim 4, it is characterised in that：The human body sensing head (2) is selected Thermal infrared human inductor, the quantity of the human body sensing head (2) is two and is symmetrically arranged at the left side of charging pile main body (1) Right both sides.

6. self-induction illumination type charging pile according to claim 5, it is characterised in that：The self-induction lighting circuit is by light Quick transistor VTP, triode VT1, triode VT2, triode VT3, triode VT4, FET Q1, operational amplifier P1, The resistance that one end is connected with operational amplifier P1 positive input terminal, the other end is connected with operational amplifier P1 negative power end R1, the resistance that one end is connected with triode VT1 colelctor electrode, the other end is connected with operational amplifier P1 negative input end R2, one end is connected with operational amplifier P1 negative input end, the other end is connected with operational amplifier P1 negative power end Resistance R3, is serially connected in the resistance R4 between triode VT2 emitter stage and base stage, one end and operational amplifier P1 output end phase Connection, resistance R5, the N pole that is connected with triode VT2 base stage of the other end are connected with triode VT2 colelctor electrode, P poles and The diode D1 that operational amplifier P1 negative power end is connected, the relay K1 being arranged in parallel with diode D1, one end and three Resistance R6, the P pole that pole pipe VT2 emitter stage is connected, the other end is connected with FET Q1 source electrode and FET Q1 Source electrode be connected, diode D2, the N pole that N poles are connected with triode VT3 base stage is connected with triode VT2 emitter stage Connect, the diode D3 that P poles are connected with triode VT3 colelctor electrode, relay K2, the P poles being arranged in parallel with diode D3 connect The voltage-regulator diode D4 that ground, N poles are connected with diode D3 N poles, positive pole is connected with voltage-regulator diode D4 N poles, negative pole Electric capacity C2, the P pole being connected with voltage-regulator diode D4 P poles is connected with electric capacity C2 negative pole, N poles after diode D5 with electricity Hold diode D6, the electric capacity C1 that negative pole is connected with diode D6 N poles that C2 positive pole is connected, and it is in parallel with electric capacity C1 The resistance R7 compositions of setting；Wherein, photistor VTP emitter stage is connected with triode VT1 base stage, photistor The positive supply of VTP colelctor electrode simultaneously with triode VT1 colelctor electrode, triode VT2 emitter stage and operational amplifier P1 End is connected, and triode VT1 emitter stage is connected with operational amplifier P1 positive input terminal, operational amplifier P1 negative supply End is connected and is grounded with FET Q1 drain electrode and triode VT4 emitter stage simultaneously, relay K1 normally-closed contact K1- 2 one end is connected with FET Q1 drain electrode, the other end is connected with FET Q1 source electrode, triode VT3 hair Emitter-base bandgap grading is connected with triode VT4 emitter stage, triode VT3 colelctor electrode is connected with triode VT4 colelctor electrode, two poles Pipe D5 N poles are connected with electric capacity C2 positive pole, and electric capacity C1 positive pole is connected with relay K2 normally opened contact K2-1 one end Connect, diode D6 P poles are a little connected with relay K1 normally opened contact K1-1's, relay K2 normally opened contact K2-1's The other end and relay K1 normally opened contact the K1-1 other end constitute the power output end of the self-induction lighting circuit, electric capacity C1 Positive pole and diode D6 P poles constitute the power input of the self-induction lighting circuit, FET Q1 base stage is used as this The signal input part of self-induction lighting circuit.

7. self-induction illumination type charging pile according to claim 6, it is characterised in that：The letter of the self-induction lighting circuit Number input is connected with human body sensing head (2), and power output end is connected with illuminating lamp (3).