CN211281295U

CN211281295U - Novel bicycle lamp and bicycle

Info

Publication number: CN211281295U
Application number: CN201921766663.9U
Authority: CN
Inventors: 罗利河; 罗芷琳
Original assignee: Beijing Normal University Zhuhai
Current assignee: Beijing Normal University Zhuhai
Priority date: 2018-11-21
Filing date: 2019-10-21
Publication date: 2020-08-18
Anticipated expiration: 2029-10-21

Abstract

The utility model discloses a novel bicycle lamp and a bicycle, wherein the bicycle lamp comprises a solar panel, a wind energy receiver and a charging base which are arranged on a bicycle body; the wind energy receiver comprises a shell, wherein an LED lamp is arranged at the edge opening position of the circumferential side end of the shell, a storage battery is arranged in the shell, a single chip microcomputer is arranged at the bottom of the storage battery, the single chip microcomputer comprises a wind power supply monitoring circuit, an electric energy storage circuit and a booster circuit, a generator with a fan mounted on a rotating shaft is arranged on one side of the storage battery, and the input end of the electric energy storage circuit, the output end of the generator and the output end of a solar; the side surface of the circumferential direction of the shell is provided with an illumination intensity sensor, and the signal output end of the illumination intensity sensor is connected with the single chip microcomputer. The car lamp can collect solar energy and wind energy simultaneously to combine charging in the riding process, renewable energy is utilized to the maximum extent, the sustainable development concept is maintained, the car lamp is green and environment-friendly, stable in power supply, simple and ingenious in structure and easy to produce and process, and popularization and application are facilitated.

Description

Novel bicycle lamp and bicycle

Technical Field

The utility model relates to a lighting apparatus and bicycle technical field, in particular to novel bicycle lamp and bicycle.

Background

In recent years, shared bicycles are used more frequently, drivers occupy a large part of the group of shared bicycle customers at night, and many citizens reflect that accidents are easy to happen when going up and down slopes and turning a corner due to lack of lighting during night riding, so that personal and property loss is caused. Although the existing partial shared bicycle in China has the function of illumination, most of the shared bicycles are powered by solar energy, the energy supply is unstable, and the wind energy in the riding process cannot be well utilized.

Therefore, it is desirable to provide a new bicycle lamp to solve the above problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a can collect solar energy and wind energy simultaneously and combine to charge riding the in-process, the maximize has utilized renewable energy, has maintained the sustainable development theory, green, and the power supply is stable, and simple structure, ingenious, and the production and processing is easy, is favorable to popularizing the novel bicycle lamp of using to and install the bicycle of this novel bicycle lamp.

In order to achieve the above object, the utility model provides a following technical scheme:

a novel bicycle lamp comprises a solar panel, a wind energy receiver and a charging base, wherein the solar panel, the wind energy receiver and the charging base are installed on a bicycle body; the wind energy receiver comprises a shell, an LED lamp is arranged at the edge opening position of the circumferential side end of the shell, a storage battery is arranged in the shell, a single chip microcomputer is arranged at the bottom of the storage battery, the single chip microcomputer comprises a wind power supply monitoring circuit, an electric energy storage circuit and a boosting circuit, the output end of the electric energy storage circuit is connected with the input end of the power supply monitoring circuit, the output end of the power supply monitoring circuit is connected with the charging end of the storage battery, the discharging end of the storage battery is connected with the input end of the boosting circuit, and the input end of the boosting circuit is in conduction connection with a charging base and the LED lamp; a fan and a generator are arranged on one side of the storage battery, the fan is arranged on a rotating shaft of the generator, and the input end of the electric energy storage circuit, the output end of the generator and the output end of the solar panel are connected with the power supply; the side surface of the circumferential direction of the shell is provided with an illumination intensity sensor, and the signal output end of the illumination intensity sensor is connected with the single chip microcomputer.

Preferably, the wind power supply monitoring circuit is an SX1308 chip, the electric energy storage circuit is an MMSZ5231BT1G type diode, the booster circuit is an FP6276B synchronous booster chip, and the illumination intensity sensor is an NHZD203T type illumination intensity sensor.

Preferably, the number of the LED lamps is provided with a plurality of, a plurality of the LED lamps evenly distributed at the edge of the circumferential side end of the shell, an annular baffle plate is sleeved on the outer side of the shell in an inclined mode, an included angle between the annular baffle plate and the outer wall of the shell is 60 degrees, and the inner side of the annular baffle plate is arranged to be an inwards concave arc surface.

Preferably, the base that charges is including the fixing base, fixing base both sides top all is provided with the recess, two the cooperation of recess top is provided with the movable block, two the movable block top is all fixed and is equipped with splint, two the inside wall central point of recess puts and all is provided with the guide way, the inside cooperation of guide way is equipped with the guide arm, guide arm one end links to each other with the movable block is fixed, the guide arm other end is provided with the spring, the spring sets up in the guide way, and the spring both ends link to each other with guide arm terminal surface and guide way terminal surface are fixed respectively, fixing base one end is provided with the interface.

Preferably, the splint inside wall is provided with the arc surface, the arc surface sets up to indent formula structure, the inside cooperation of arc surface is equipped with anti-skidding cushion.

Preferably, the interface comprises a first power supply interface, a second power supply interface and a charging interface, the second power supply interface is arranged at the bottom of the first power supply interface, and the charging interface is arranged on one side of the first power supply interface and the second power supply interface.

Preferably, wind energy receiver's casing one side is equipped with installation mechanism, installation mechanism sets up to movable structure, including left arc board and right arc board, through coupling swing joint between left side arc board and the right arc board, left side arc board one end is provided with first fixed block, right side arc board one end is provided with the second fixed block, first fixed block one side middle part is provided with the slot, second fixed block one side middle part is provided with the inserted block, slot and inserted block phase-match, the central point of slot and inserted block junction puts and runs through and is equipped with first screw.

Preferably, first fixed block top central point puts and is provided with blind nut, the blind nut bottom is provided with the second screw, first screw equals with the aperture of second screw, the outside cover of first screw of first fixed block bottom is equipped with the annular plate.

A bicycle comprises a bicycle body, wherein the bicycle body is provided with the novel bicycle lamp.

Preferably, the one end of bicycle body is provided with the basket, solar panel sets up the inner chamber bottom at the basket, wind energy receiver installs on the handlebar of bicycle body, the handlebar top at the bicycle body is installed to the base that charges.

By adopting the above technical scheme, the utility model, mainly have following beneficial effect:

1. solar energy and wind energy in the riding process are collected and utilized through the solar panel and the wind energy receiver, a pile-free charging mode is provided for the bicycle lamp and external electronic equipment by combining the wind energy and the solar energy, renewable energy is utilized to the maximum extent, the sustainable development concept is maintained, the solar bicycle lamp is green and environment-friendly, meanwhile, a wind power supply monitoring circuit on the single chip microcomputer is utilized to monitor and process the electric energy pressure difference generated by a generator provided with a fan and the solar panel in different environments, and the stability of the power supply is greatly improved through short-circuit protection, temperature protection, overcurrent protection and other protection circuits which ensure that the wind power supply monitoring circuit has higher response speed, and the novel bicycle lamp is very simple and ingenious in structure, easy to produce and process and beneficial to popularization and application;

2. the annular baffle plates are used for shielding and reflecting light emitted by the LED lamp, so that accidents caused by the fact that the light emitted by the annular baffle plates directly irradiates eyes of riders are avoided, the illumination efficiency is improved, meanwhile, the annular baffle plates can be used for condensing the light emitted by the LED lamp, the illumination effect in the riding process is further improved, and the riding safety is higher;

3. the movable clamping plate is arranged, the inner side wall of the clamping plate is set to be the concave arc surface, and the anti-skidding rubber mat is arranged in the arc surface in a matching mode, so that the mobile phone can be prevented from falling due to relative sliding between the mobile phone and the clamping plate when the mobile phone is clamped and fastened by the clamping plate, and the situation that the edges of the mobile phone are scratched by the clamping plate when the mobile phone is clamped can be avoided;

4. the charging base is provided with the power supply interface and the plurality of charging interfaces, so that different mobile phones can be identified and charged through different power supply interfaces, the charging efficiency of the mobile phones is improved, the charging interfaces can convert and store electric energy stored in the mobile phones into the storage battery after being connected with the mobile phones through the connecting lines, and therefore the condition that a night user continues to provide illumination by using the electric energy in the mobile phones when the electric energy in the storage battery is insufficient to provide illumination in the riding process is ensured, and the safety in the riding process is improved;

5. through the outside cover of the first screw in first fixed block bottom being equipped with the annular plate, can prevent that the rainwater from oozing into in the gap of locking bolt and screw junction, it causes the corrosion to it easily for a long time to influence the dismouting of later stage to wind energy receiver.

Drawings

FIG. 1 is a schematic view of the overall structure of the wind energy receiver of the present invention;

fig. 2 is a schematic structural view of a joint between the first fixing block and the second fixing block of the present invention;

FIG. 3 is a schematic view of the installation structure of the present invention in practical use;

fig. 4 is a schematic view of the overall structure of the charging base of the present invention;

fig. 5 is a circuit diagram of the wind power monitoring circuit of the present invention;

fig. 6 is a circuit diagram of the electric energy storage circuit of the present invention;

fig. 7 is a voltage boosting circuit diagram of the present invention;

in the figure: the solar charging device comprises a bicycle body, a basket, a solar panel, a solar energy receiver, a shell 41, a fan 42, a storage battery 43, a single chip microcomputer 44, an LED lamp 45, a light intensity sensor 46, an annular baffle 47, a generator 48, a charging base 5, a fixed seat 51, a movable block 52, a clamping plate 53, an anti-skidding rubber pad 54, a guide groove 55, a guide rod 56, a spring 57, an interface 58, a mounting mechanism 6, a left arc plate 61, a right arc plate 62, a first fixing block 63, a second fixing block 64 and a blind nut 65.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1 to 7:

the embodiment of the utility model provides a novel bicycle lamp, including installing solar panel 3, wind energy receiver 4 and the base of charging 5 on bicycle body 1. The wind energy receiver 4 comprises a shell 41, an LED lamp 45 is arranged at the edge of the circumferential side end of the shell 41, a storage battery 43 is arranged inside the shell 41, a single chip microcomputer 44 is arranged at the bottom of the storage battery 43, the single chip microcomputer 44 comprises a wind power monitoring circuit, an electric energy storage circuit and a boosting circuit, the output end of the electric energy storage circuit is connected with the input end of the power monitoring circuit, the output end of the power monitoring circuit is connected with the charging end of the storage battery 43, the discharging end of the storage battery 43 is connected with the input end of the boosting circuit, and the input end of the boosting circuit is connected with the charging base 5 and the LED lamp 45 in a conduction manner; a fan 42 and a generator 48 are arranged on one side of the storage battery 43, the fan 42 is mounted on a rotating shaft of the generator 48, and the input end of the electric energy storage circuit, the output end of the generator 48 and the output end of the solar panel 3 are connected; the circumferential side surface of the shell 41 is provided with an illumination intensity sensor 46, and the signal output end of the illumination intensity sensor 46 is connected with the single chip microcomputer 44. Moreover, the wind power supply monitoring circuit can be an SX1308 chip which is used for monitoring the electric energy pressure difference generated by the generator 48 externally provided with the fan 42 and the solar panel 3 in different environments, so that the input effective voltage and the highest withstand voltage are 3.6V-18V, and the DC-DC conversion is controlled to be stabilized at 5V through internal PWM, and the protection of short-circuit protection, temperature protection, overcurrent protection and the like in the SX1308 chip can be ensured to have higher response speed and the stability of the power supply; the electric energy storage circuit can be an MMSZ5231BT1G type diode, and is used for converting light energy and wind energy into electric energy to be stored in the storage battery 43; the booster circuit can be an FP6276B synchronous booster chip, and is used for boosting the electric energy stored in the storage battery 43 to 5V through the FP6276B to supply power to electronic equipment such as a mobile phone and an LED lamp 45; the illumination intensity sensor 46 may be an NHZD203T type illumination intensity sensor for monitoring ambient light.

Novel bicycle lamp's theory of operation:

during the riding process of the bicycle, the solar panel 3 and the generator 48 provided with the fan 42 can store the collected solar energy and wind energy into the storage battery 43 through the single chip microcomputer 44 (specifically, firstly, the solar panel 3 and the generator 48 provided with the fan 42 convert the collected solar energy and wind energy into electric energy through the electric energy storage circuit and transmit the electric energy to the wind power supply monitoring circuit, then the wind power supply monitoring circuit monitors the electric energy pressure difference generated by the generator 48 externally provided with the fan 42 and the solar panel 3 under different environments, so that the input effective voltage and the highest withstand voltage are 3.6V-18V, are stabilized at 5V through internal PWM (pulse width modulation) control DC-DC conversion, and are finally transmitted to the storage battery 43 for storage), when the illumination intensity sensor 46 detects that the light of the external environment is weakened, a signal is transmitted to the single chip microcomputer 44, the single chip microcomputer 44 controls the storage battery 43 to output the electric energy, And supplies working power to the LED lamp 45 after being boosted by the booster circuit, so that the LED lamp 45 lights up and illuminates the road ahead.

In addition, in the process of riding the bicycle, a rider can also connect mobile phones and other portable external electronic equipment to the charging base 5, and at the moment, the single chip microcomputer 44 controls the storage battery 43 to output electric energy, and the electric energy is boosted by the booster circuit and then is transmitted to the charging base 5 to charge and supply power to the external electronic equipment; such as: utilize the charging data line with the cell-phone with the interface intercommunication that charges on the base 5 that charges to realize charging the cell-phone, ensure the normal use of cell-phone.

Thus, the novel bicycle lamp of the utility model collects and utilizes the solar energy and the wind energy in the riding process through the solar panel 3 and the wind energy receiver 4, utilizes the wind energy and the solar energy to combine to provide a pile-free charging mode for the bicycle lamp and external electronic equipment (such as a mobile phone), maximally utilizes renewable energy, maintains the sustainable development concept, is green and environment-friendly, simultaneously utilizes the wind power supply monitoring circuit on the singlechip to monitor and process the electric energy pressure difference generated by the generator 48 provided with the fan 42 and the solar panel 3 under different environments, greatly improves the stability of the power supply through the protection circuits such as short-circuit protection, temperature protection, overcurrent protection and the like which ensure faster response speed in the wind power supply monitoring circuit, has very simple and ingenious structure, and is easy to produce and process, is beneficial to popularization and application.

As shown in fig. 1, the number of the LED lamps 45 is provided with a plurality of, a plurality of the LED lamps (45) are evenly distributed at the rim position of the circumferential side end of the housing 41, the outer inclined sleeve of the housing 41 is provided with an annular baffle plate 47, an included angle between the annular baffle plate 47 and the outer wall of the housing 41 is 60 °, and the inner side of the annular baffle plate 47 is set to be an inward concave arc surface. Can shelter from, reflect the light that LED lamp 45 sent like this, both avoid the light that it sent to penetrate directly to ride passerby's eyes and lead to the accident, can improve illumination efficiency again, still can utilize annular baffle 47 to carry out spotlight to the light that LED lamp 45 sent simultaneously to further improve the illuminating effect of the in-process of riding, the security of riding is higher.

As shown in fig. 4, the charging base 5 is including fixing base 51, fixing base 51 both sides top all is provided with the recess, two the cooperation of recess top is provided with movable block 52, two movable block 52 top all is fixed and is equipped with splint 53, two the inside wall central point of recess puts and all is provided with guide way 55, the inside cooperation of guide way 55 is equipped with guide arm 56, guide arm 56 one end is fixed continuous with movable block 52, the guide arm 56 other end is provided with spring 57, spring 57 sets up in guide way 55, and the spring 57 both ends respectively with guide arm 56 terminal surface and guide way 55 terminal surface fixed continuous, fixing base 51 one end is provided with interface 58. The inner side wall of the clamping plate 53 is provided with an arc surface, the arc surface is of a concave structure, and an anti-skid rubber pad 54 is arranged inside the arc surface in a matching manner; the interface (58) comprises a first power supply interface, a second power supply interface and a charging interface, the second power supply interface is arranged at the bottom of the first power supply interface, the charging interface is arranged on one side of the first power supply interface and the second power supply interface, the first power supply interface and the second power supply interface can meet the requirement of identifying and charging different external electronic equipment (mobile phones) so as to improve the charging efficiency of the external electronic equipment, and the charging interface can convert and store electric energy stored in the external electronic equipment into the storage battery 43 after being connected with the external electronic equipment through a connecting wire.

When the external electronic device is connected to the charging base 5, the movable block 52 is pulled outwards first, because the center position of the inner side wall of the groove on the fixed seat 51 is provided with the guide groove 55, the guide rod 56 is arranged in the guide groove 55 in a matching way, one end of the guide rod 56 is fixedly connected with the movable block 52, the other end of the guide rod 56 is provided with the spring 57, the spring 57 is arranged in the guide groove 55, and the two ends of the spring 57 are respectively and fixedly connected with the end surface of the guide rod 56 and the end surface of the guide groove 55, so that the spring 57 is stretched while the movable block 52 is pulled outwards, when the external electronic device is placed on the top of the fixed seat 51, the movable block 52 is released to be reset under the restoring force of the spring 57, meanwhile, the inner side wall of the clamping plate 53 on the top of the movable block 52 adopts the arc surface with the concave structure and is provided with the anti-, the external electronic equipment and the clamping plate 53 slide relatively to each other to fall off, and the situation that the edge of the external electronic equipment is scratched by the clamping plate 53 when the external electronic equipment is clamped can be avoided; if in the process of riding, when the electric quantity in battery 43 is not enough to provide LED lamp 45 and throw light on, can pass through the connecting wire with the external electronic equipment with the interface that charges after, in the electric energy conversion storage to battery 43 with storage in the external electronic equipment to ensure that the night person is in the in-process of riding, when the electric energy in battery 43 is not enough to provide the illumination, utilize the electric energy in the external electronic equipment to continue to provide the illumination, promote the security in the in-process of riding.

As shown in fig. 1 to 3, casing 41 one side of wind energy receiver 4 is equipped with installation mechanism 6, installation mechanism 6 sets up to movable structure, including left arc board 61 and right arc board 62, pass through coupling swing joint between left side arc board 61 and the right arc board 62, left side arc board 61 one end is provided with first fixed block 63, right side arc board 62 one end is provided with second fixed block 64, first fixed block 63 one side middle part is provided with the slot, second fixed block 64 one side middle part is provided with the inserted block, slot and inserted block phase-match, the central point of slot and inserted block junction puts to run through and is equipped with first screw. Wherein, first fixed block 63 top central point puts and is provided with blind nut 65, blind nut 65) bottom is provided with the second screw, the aperture of first screw and second screw equals, the outside cover of first screw of first fixed block 63 bottom is equipped with the annular plate.

Like this, can firmly fix wind energy receiver 4 on parts such as the handlebar of bicycle body 1 through installation mechanism 6, installation easy operation, convenience, swift, moreover the outside cover of first screw of first fixed block 63 bottom is equipped with the annular plate, can prevent that the rainwater from oozing into in the gap of locking bolt and screw junction, and it causes the corrosion to it easily for a long time to influence the dismouting of later stage to wind energy receiver 4.

As shown in fig. 3, the utility model also provides a bicycle, including bicycle body 1, be provided with above-mentioned novel bicycle lamp on the bicycle body 1. The concrete structure can be as follows: the one end of bicycle body 1 is provided with basket 2, solar panel 3 sets up in the inner chamber bottom of basket 2, wind energy receiver 4 installs on the handlebar of bicycle body 1, the handlebar top at bicycle body 1 is installed to base 5 that charges.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications and variations can be made in the embodiments or in part of the technical features of the embodiments without departing from the spirit and the scope of the invention.

Claims

1. A novel bicycle lamp which is characterized in that: comprises a solar panel (3), a wind energy receiver (4) and a charging base (5) which are arranged on a bicycle body (1); the wind energy receiver (4) comprises a shell (41), an LED lamp (45) is arranged at the edge of the end of the circumferential side of the shell (41), a storage battery (43) is arranged inside the shell (41), a single chip microcomputer (44) is arranged at the bottom of the storage battery (43), the single chip microcomputer (44) comprises a wind power monitoring circuit, an electric energy storage circuit and a booster circuit, the output end of the electric energy storage circuit is connected with the input end of the power monitoring circuit, the output end of the power monitoring circuit is connected with the charging end of the storage battery (43), the discharging end of the storage battery (43) is connected with the input end of the booster circuit, and the input end of the booster circuit is in conduction connection with a charging base (5) and the LED lamp (45); a fan (42) and a generator (48) are arranged on one side of the storage battery (43), the fan (42) is installed on a rotating shaft of the generator (48), and the input end of the electric energy storage circuit, the output end of the generator (48) and the output end of the solar panel (3) are connected; the surface of the circumferential side of the shell (41) is provided with an illumination intensity sensor (46), and the signal output end of the illumination intensity sensor (46) is connected with the single chip microcomputer (44).

2. The novel bicycle light of claim 1, wherein: the wind power supply monitoring circuit selects an SX1308 chip, the electric energy storage circuit selects an MMSZ5231BT1G type diode, the booster circuit selects an FP6276B synchronous booster chip, and the illumination intensity sensor (46) selects an NHZD203T type illumination intensity sensor.

3. The novel bicycle light of claim 1, wherein: LED lamp (45) quantity is provided with a plurality ofly, and is a plurality of LED lamp (45) evenly distributed is in the circumference side tip bead position of casing (41), the outside slope cover of casing (41) is equipped with ring baffle (47), contained angle between ring baffle (47) and casing (41) outer wall is 60, ring baffle (47) inboard sets up to the indent formula cambered surface.

4. A novel bicycle light according to claim 1 or 2 or 3, characterized in that: charging base (5) is including fixing base (51), fixing base (51) both sides top all is provided with the recess, two the cooperation of recess top is provided with movable block (52), two movable block (52) top is all fixed splint (53) of being equipped with, two the inside wall central point of recess puts and all is provided with guide way (55), guide way (55) fit inside is equipped with guide arm (56), guide arm (56) one end links to each other with movable block (52) are fixed, guide arm (56) other end is provided with spring (57), spring (57) set up in guide way (55), and spring (57) both ends link to each other with guide arm (56) terminal surface and guide way (55) terminal surface are fixed respectively, fixing base (51) one end is provided with interface (58).

5. The novel bicycle light of claim 4, wherein: the inside wall of the clamping plate (53) is provided with an arc surface, the arc surface is of a concave structure, and an anti-skidding rubber mat (54) is arranged inside the arc surface in a matched mode.

6. The novel bicycle light of claim 4, wherein: the interface (58) comprises a first power supply interface, a second power supply interface and a charging interface, the second power supply interface is arranged at the bottom of the first power supply interface, and the charging interface is arranged on one side of the first power supply interface and the second power supply interface.

7. A novel bicycle light according to claim 1 or 2 or 3 or 5 or 6, characterized in that: casing (41) one side of wind energy receiver (4) is equipped with installation mechanism (6), installation mechanism (6) set up to movable structure, including left arc board (61) and right arc board (62), pass through coupling swing joint between left side arc board (61) and the right arc board (62), left side arc board (61) one end is provided with first fixed block (63), right side arc board (62) one end is provided with second fixed block (64), first fixed block (63) one side middle part is provided with the slot, second fixed block (64) one side middle part is provided with the inserted block, slot and inserted block phase-match, the central point of slot and inserted block junction puts to run through and is equipped with first screw.

8. The novel bicycle light of claim 7, wherein: first fixed block (63) top central point puts and is provided with blind nut (65), blind nut (65) bottom is provided with the second screw, first screw equals with the aperture of second screw, the outside cover of first screw of first fixed block (63) bottom is equipped with the annular plate.

9. The utility model provides a bicycle, including bicycle body (1), its characterized in that: the bicycle body (1) is provided with a novel bicycle lamp as claimed in any one of the claims 1 to 8.

10. The bicycle of claim 9, wherein: the one end of bicycle body (1) is provided with basket (2), solar panel (3) set up in the inner chamber bottom of basket (2), wind energy receiver (4) are installed on the handlebar of bicycle body (1), the handlebar top at bicycle body (1) is installed in base of charging (5).