CN117722620B - Multifunctional solar street lamp - Google Patents

Abstract

The invention relates to the technical field of solar street lamps and discloses a multifunctional solar street lamp which comprises a lamp post, wherein a cross rod is arranged at the upper part of the lamp post, a machine body is arranged on the cross rod, and a lamp panel and a light-transmitting cover are arranged on the machine body; the lamp post is provided with a display screen, and the top of the lamp post is provided with an air monitor for monitoring the air quality index; the periphery of the lamp post is provided with a solar panel, and a storage battery is arranged in the lamp post; the air monitor comprises a bottom cylinder and a middle cylinder, wherein the bottom cylinder is provided with a bottom cavity; the middle cylinder is internally provided with a middle cavity which is vertically and penetratingly arranged, and an air sensor is arranged in the middle cavity; the lower part of the middle cylinder penetrates into the bottom cavity, the upper part of the middle cylinder is sleeved with a top cover, the top cover is internally provided with a top cavity with an opening at the bottom, the upper section extends into the top cavity, and a top interval is arranged between the top of the upper section and the top of the top cavity; an annular space is provided between the inner side wall of the top chamber and the outer periphery of the upper section, through which the outside air enters the middle chamber.

Description

Multifunctional solar street lamp

Technical Field

The invention relates to the technical field of solar street lamps, in particular to a multifunctional solar street lamp.

Background

With the development of society and the advancement of technology, the demand for energy by human beings is increasing, and solar energy is widely used in various fields as a clean and renewable energy source. In the field of illumination, solar street lamps are widely used as an environment-friendly illumination mode.

In the prior art, the traditional solar street lamp mainly utilizes a solar panel to convert solar energy into electric energy, the electric energy is stored in a storage battery, and illumination is realized by lighting a light source at night. However, the conventional solar street lamp has a single function and only has a lighting function, and cannot meet the requirements of people on environmental quality. At present, the solar street lamp on the market is mainly concentrated on the realization of the lighting function, and has little concern on the application in the aspects of air quality detection, display and the like.

Disclosure of Invention

The invention aims to provide a multifunctional solar street lamp and aims to solve the problem that in the prior art, the solar street lamp has a single function.

The multifunctional solar street lamp is realized in such a way that the multifunctional solar street lamp comprises a lamp post, wherein the upper part of the lamp post is provided with a cross rod, the cross rod is provided with a machine body, and the bottom of the machine body is upwards recessed to form a concave cavity with an opening at the bottom; a lamp panel is arranged in the concave cavity, a plurality of luminous bodies which emit light downwards are arranged on the lamp panel, and a light-transmitting cover is covered on the bottom opening of the concave cavity;

the lamp post is provided with a display screen, and the top of the lamp post is provided with an air monitor for monitoring the air quality index; the periphery of the lamp post is provided with a solar panel, a storage battery is arranged in the lamp post, and the solar panel stores the converted electric energy in the storage battery; the lamp panel, the display screen and the air monitor are respectively and electrically connected with the storage battery;

the air monitor comprises a bottom cylinder and a middle cylinder with a closed periphery, wherein the bottom cylinder is provided with a bottom cavity with a closed bottom; the middle cylinder is internally provided with a middle cavity which is vertically arranged in a penetrating way, and an air sensor for monitoring the air quality index is arranged in the middle cavity; the lower part of the middle cylinder is provided with a lower section penetrating into the bottom cavity, and the upper part of the middle cylinder is provided with an upper section exposed above the bottom cylinder;

a bottom space is formed between the bottom of the lower section and the bottom of the bottom cavity, a top cover is sleeved on the upper section, a top cavity with an opening at the bottom is formed in the top cover, the upper section extends into the top cavity, and a top space is formed between the top of the upper section and the top of the top cavity;

an annular space communicated with the middle cavity is arranged between the inner side wall of the top cavity and the upper section, the annular space is provided with an annular opening which is arranged downwards, and external air enters the middle cavity after entering the annular space from bottom to top through the annular opening.

Optionally, a plurality of lower ventilation holes are formed in the periphery of the bottom cylinder, and the lower ventilation holes are arranged at intervals along the circumferential direction of the bottom cylinder; the annular space, the top cavity, the middle cavity and the bottom cavity are sequentially communicated to form a flow channel for air flow, and the annular opening and the lower ventilation holes are respectively formed at two ends of the flow channel.

Optionally, the bottom of the top cover is provided with an annular downward annular wall, the top of the bottom barrel is provided with an annular upward annular wall, and the downward annular wall and the upward annular wall are arranged at intervals to form a middle interval;

the inner side of the upward annular wall is butted with the periphery of the middle cylinder, the upward annular wall is in closed arrangement, and the inner side of the upward annular wall and the periphery of the middle cylinder are in closed arrangement; the upward facing annular wall is disposed obliquely downward in a direction from inside to outside of the upward facing annular wall.

Optionally, a plurality of ventilation channels are arranged in the top cover, and the ventilation channels are arranged at intervals along the circumferential direction of the top cover; the lower end of the air passage downwards penetrates through the downwards-facing annular wall to form a lower end opening, and the upper end of the air passage extends to the upper side of the top cavity to form an upper end opening communicated with the top cavity.

Optionally, the top of top chamber is sunken up, forms the top depressed region, be the alignment and arrange from top to bottom between the top depressed region and the top of intermediate cylinder, a plurality of the upper end opening of air passage communicates to the periphery of top depressed region respectively, and follows the periphery interval arrangement of top depressed region.

Optionally, the top of the top concave area is provided with a top wall which is downwards arranged, the top wall is in an inverted cone shape, and the middle part of the top wall protrudes downwards in a cone shape; the top wall is disposed obliquely upward along a direction from a middle portion to an outer periphery of the top wall, and the plurality of upper end openings are aligned laterally toward the top wall.

Optionally, a rotating seat arranged in a rotating way is connected to the bottom of the air sensor, and the air sensor and the rotating seat are arranged eccentrically; the inner side wall of the middle cavity is movably connected with a rolling shaft which rolls along the inner side wall of the middle cavity;

the air sensor rotates with the rotating seat at fixed time for a set time, and in the eccentric rotation process of the air sensor along with the rotating seat, the rolling shaft rolls along the circumference of the inner side wall of the middle cavity to stir the air in the middle cavity, so that the air in the flow channel and the air outside the air monitor have pressure difference, and air flow is formed between the air monitor and the flow channel.

Optionally, the lamp post is in a triangular prism shape, the periphery of the lamp post is provided with an illumination wall and two light absorption walls, and the two light absorption walls are arranged in a crossing way; the cross rod is butted on the illumination wall and transversely extends, and the display screen is butted on the illumination wall and extends in the same direction as the cross rod; the solar panels are respectively arranged on the two light absorption walls.

Optionally, an upper universal rotating head is arranged on the light absorbing wall, the upper end of the solar panel is hinged with the upper universal rotating head, a swinging arm swinging up and down is arranged on the light absorbing wall, a containing groove for containing the swinging arm is arranged on the light absorbing wall, and the containing groove extends along the axial direction of the lamp pole; the lower end of the swing arm is hinged in the storage groove, the upper end of the swing arm is connected with a lower universal rotating head, and the lower universal rotating head is hinged with the lower end of the solar panel;

when the swing arm is stored in the storage groove, the solar panel extends along the axial direction of the lamp post, when the swing arm swings out of the storage groove, the swing drives the solar panel to swing outwards away from the lamp post, and the solar panel and the lamp post are obliquely arranged.

Optionally, a driving element for driving the solar panel to swing circumferentially relative to the lamp post is arranged on the light absorption wall.

Compared with the prior art, the multifunctional solar street lamp provided by the invention has the advantages that the storage battery is charged through the solar panel, the storage battery supplies power to the display screen, the air monitor and the illuminant, the display screen can display the air quality index, the time and the like monitored by the air monitor, in addition, sundries are effectively prevented from entering the middle cavity through the design of the top cover, and the air is ensured to circulate into the middle cavity through the design of the annular interval, so that the energy-saving and environment-friendly illumination is realized, the air quality can be monitored, the display index of the display screen is displayed, the multifunctional solar street lamp is more practical, and obvious economic benefits can be brought in long-term operation.

Drawings

Fig. 1 is a schematic perspective view of a multifunctional solar street lamp provided by the invention;

fig. 2 is a schematic perspective view of the multifunctional solar street lamp provided by the invention;

FIG. 3 is a schematic cross-sectional view of an air monitor provided by the present invention;

FIG. 4 is a schematic cross-sectional view of a light absorbing wall provided by the present invention;

fig. 5 is a schematic cross-sectional view of a light absorbing wall provided by the present invention.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

The implementation of the present invention will be described in detail below with reference to specific embodiments.

The same or similar reference numerals in the drawings of the present embodiment correspond to the same or similar components; in the description of the present invention, it should be understood that, if there is an azimuth or positional relationship indicated by terms such as "upper", "lower", "left", "right", etc., based on the azimuth or positional relationship shown in the drawings, it is only for convenience of describing the present invention and simplifying the description, but it is not indicated or implied that the apparatus or element referred to must have a specific azimuth, be constructed and operated in a specific azimuth, and thus terms describing the positional relationship in the drawings are merely illustrative and should not be construed as limitations of the present patent, and specific meanings of the terms described above may be understood by those skilled in the art according to specific circumstances.

Referring to fig. 1-5, a preferred embodiment of the present invention is provided.

The invention provides a multifunctional solar street lamp, which comprises a lamp post 100, wherein a cross rod 110 is arranged at the upper part of the lamp post 100, a machine body 120 is arranged on the cross rod 110, the bottom of the machine body 120 is upwards recessed to form a concave cavity with an opening at the bottom; a lamp panel is arranged in the concave cavity, a plurality of luminous bodies which emit light downwards are arranged on the lamp panel, and a light-transmitting cover is covered on the bottom opening of the concave cavity;

the lamp post 100 is provided with a display screen 130, and the top of the lamp post 100 is provided with an air monitor 200 for monitoring the air quality index; the periphery of the lamp post 100 is provided with a solar panel 140, a storage battery is arranged in the lamp post 100, and the solar panel stores the converted electric energy in the storage battery; the lamp panel, the display screen 130 and the air monitor 200 are respectively and electrically connected with the storage battery;

the air monitor 200 includes a bottom barrel 210 with a bottom cavity closed at the bottom in the bottom barrel 210, and a middle barrel 220 arranged peripherally closed; the middle barrel 220 is provided with a middle cavity 221 which is vertically arranged in a penetrating way, and an air sensor 222 for monitoring the air quality index is arranged in the middle cavity 221; the lower part of the middle barrel 220 has a lower section penetrating in the bottom cavity, and the upper part of the middle barrel 220 has an upper section exposed above the bottom barrel 210;

a bottom space is formed between the bottom of the lower section and the bottom of the bottom cavity, a top cover 230 is sleeved on the upper section, a top cavity with an opening at the bottom is formed in the top cover 230, the upper section extends into the top cavity, and a top space is formed between the top of the upper section and the top of the top cavity;

an annular space communicated with the middle cavity 221 is arranged between the inner side wall of the top cavity and the upper section, the annular space is provided with an annular opening which is arranged downwards, and external air enters the annular space from bottom to top through the annular opening and then enters the middle cavity 221.

The multifunctional solar street lamp provided by the above, the storage battery is charged through the solar panel 140, the storage battery supplies power to the display screen 130, the air monitor 200 and the illuminant, the display screen 130 can display the air quality index, time and the like monitored by the air monitor 200, in addition, the design of the top cover 230 is used for effectively preventing sundries from entering the middle cavity 221, and the design of the annular interval is used for ensuring air circulation to the middle cavity 221, so that the energy-saving and environment-friendly illumination is realized, the air quality can be monitored, the display screen 130 displays the index, the multifunctional solar street lamp is more practical, and the obvious economic benefit can be brought in long-term operation.

The outer circumference of the bottom cylinder 210 is provided with a plurality of lower ventilation holes 211, and the plurality of lower ventilation holes 211 are arranged at intervals along the circumferential direction of the bottom cylinder 210; the annular space, the top chamber, the middle chamber 221 and the bottom chamber are sequentially communicated to form a flow channel through which air flows, and the annular opening and the lower ventilation holes 211 are respectively formed at both ends of the flow channel. Thus, the flow of air is ensured, and the monitoring is more accurate.

The bottom of the top cover 230 has an annularly arranged downward annular wall, the top of the bottom barrel 210 has an annularly arranged upward annular wall 212, and the downward annular wall and the upward annular wall 212 are spaced apart to form a middle space;

the inner side of the upward annular wall 212 is butted against the outer periphery of the intermediate cylinder 220, the upward annular wall 212 is arranged in a closed manner, and the inner side of the upward annular wall 212 is arranged in a closed manner with the outer periphery of the intermediate cylinder 220; upward annular wall 212 is disposed obliquely downward in the inward-outward direction of upward annular wall 212. In this way, the flowing air, when flowing to the upward facing annular wall 212, moves upward along the direction of extension of the upward facing annular wall 212 into the annular space, accelerating the air flow rate in the central chamber 221.

The top cover 230 is provided therein with a plurality of ventilation channels 231, and the plurality of ventilation channels 231 are arranged at intervals along the circumferential direction of the top cover 230; the lower end of the air passage 231 penetrates the downward annular wall downwards to form a lower end opening, and the upper end of the air passage 231 extends to the upper part of the top cavity to form an upper end opening communicated with the top cavity. In this way, a direct connection of the central chamber 221 to the outside atmosphere is increased, causing the air in the central chamber 221 to flow faster.

In this embodiment, the top of the top cavity is recessed upward to form a top recessed area, and the top recessed area is aligned with the top of the middle cylinder 220 vertically, and the upper end openings of the plurality of air-permeable channels 231 are respectively communicated to the periphery of the top recessed area and are spaced along the periphery of the top recessed area.

Specifically, the top of the top concave region is provided with a top wall 232 which is downwards arranged, the top wall 232 is in an inverted cone shape, and the middle part of the top wall 232 protrudes downwards in a cone shape; the top wall 232 is disposed obliquely upward along a direction from a middle portion to an outer periphery of the top wall 232, and a plurality of upper end openings are aligned laterally toward the top wall 232. Thus, the air entering the depression through the air passage 231 is blown out toward the top wall 232, and after blowing to the top wall 232, the flowing air flows downward into the middle chamber 221 by the action of the top wall 232.

The bottom of the air sensor 222 is connected with a rotating seat 223 which is arranged in a rotating way, and the air sensor 222 and the rotating seat 223 are arranged eccentrically; the inner side wall of the middle cavity 221 is movably connected with a rolling shaft 224 which rolls along the inner side wall of the middle cavity 221;

the rotating seat 223 rotates at regular time for a set time, and in the process that the air sensor 222 rotates eccentrically with the rotating seat 223, the rolling shaft 224 rolls along the circumference of the inner side wall of the middle cavity 221, and agitates the air in the middle cavity 221, so that the air in the flow channel and the air outside the air monitor 200 have a pressure difference, and air flow is formed between the air monitor 200 and the flow channel.

Specifically, the lamp post 100 is in a triangular prism shape, the periphery of the lamp post 100 is provided with an illumination wall 101 and two light absorption walls 102, and the two light absorption walls 102 are arranged in a crossing manner; the cross bar 110 is abutted on the illumination wall 101 and is transversely arranged in an extending mode, and the display screen 130 is abutted on the illumination wall 101 and is arranged in the same direction as the cross bar 110 in an extending mode; solar panels 140 are provided on each of the two light absorbing walls 102.

In this embodiment, an upper universal swivel 141 is disposed on the light absorbing wall 102, the upper end of the solar panel 140 is hinged to the upper universal swivel 141, a swing arm 1400 swinging up and down is disposed on the light absorbing wall 102, a receiving groove for receiving the swing arm 1400 is disposed on the light absorbing wall 102, and the receiving groove extends along the axial direction of the lamp pole 100; the lower end of the swing arm 1400 is hinged in the receiving groove, and the upper end of the swing arm 1400 is connected with a lower universal swivel 142, and the lower universal swivel 142 is hinged with the lower end of the solar panel 140. In this way, by the action of the upper universal swivel 141 and the lower universal swivel 142 and the swinging action of the swinging arm 1400, the light absorbing surface of the solar panel 140 can be biased upwards, the effect is better, the light following can be realized to a certain extent, and the sunlight can be directly irradiated on the light absorbing surface.

As a preferred embodiment, a photosensor may be installed on the solar panel 140, and the swinging of the swing arm 1400 outward multiple times is achieved by the photosensitive data of the photosensor to find the optimal swinging angle.

When the swing arm 1400 is accommodated in the accommodating groove, the solar panel 140 extends along the axial direction of the lamp post 100, and when the swing arm 1400 swings out of the accommodating groove, the swing drives the solar panel 140 to swing outwards away from the lamp post 100, and the solar panel 140 and the lamp post 100 are obliquely arranged.

In this embodiment, the light absorbing wall 102 is provided with a driving element for driving the solar panel 140 to swing circumferentially relative to the lamp pole 100. In this way, through the action of the upper universal swivel 141 and the lower universal swivel 142, the left-right swing of the solar panel 140 with a certain angle is realized, specifically, the driving device can be a rotating ring 144, a groove is formed in the back surface of the upper part of the solar panel 140, which is close to the top, an elastic device is arranged in the groove, the elastic device is provided with an elastic block 143 which is mutually abutted with the rotating ring 144, a stripe or other structure for increasing friction force can be arranged between the elastic block 143 and the rotating ring 144, under the action of the elastic device, the mutual abutment between the elastic block 143 and the rotating ring 144 is ensured, the outer surface of the elastic block 143 is increased, the connection between the elastic block 143 and the rotating ring 144 is ensured all the time under the certain swing angle, and the left-right swing of the solar panel 140 is realized under the action of friction force.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Claims (8)

1. The multifunctional solar street lamp is characterized by comprising a lamp post, wherein a cross rod is arranged at the upper part of the lamp post, a machine body is arranged on the cross rod, and the bottom of the machine body is upwards sunken to form a concave cavity with an opening at the bottom; a lamp panel is arranged in the concave cavity, a plurality of luminous bodies which emit light downwards are arranged on the lamp panel, and a light-transmitting cover is covered on the bottom opening of the concave cavity;

the lamp post is provided with a display screen, and the top of the lamp post is provided with an air monitor for monitoring the air quality index; the periphery of the lamp post is provided with a solar panel, a storage battery is arranged in the lamp post, and the solar panel stores the converted electric energy in the storage battery; the lamp panel, the display screen and the air monitor are respectively and electrically connected with the storage battery;

the air monitor comprises a bottom cylinder and a middle cylinder with a closed periphery, wherein the bottom cylinder is provided with a bottom cavity with a closed bottom; the middle cylinder is internally provided with a middle cavity which is vertically arranged in a penetrating way, and an air sensor for monitoring the air quality index is arranged in the middle cavity; the lower part of the middle cylinder is provided with a lower section penetrating into the bottom cavity, and the upper part of the middle cylinder is provided with an upper section exposed above the bottom cylinder;

a bottom space is formed between the bottom of the lower section and the bottom of the bottom cavity, a top cover is sleeved on the upper section, a top cavity with an opening at the bottom is formed in the top cover, the upper section extends into the top cavity, and a top space is formed between the top of the upper section and the top of the top cavity;

an annular space communicated with the middle cavity is arranged between the inner side wall of the top cavity and the upper section, the annular space is provided with an annular opening which is arranged downwards, and outside air enters the annular space from bottom to top and then enters the middle cavity;

the periphery of the bottom cylinder is provided with a plurality of lower air holes, and the lower air holes are arranged at intervals along the circumferential direction of the bottom cylinder; the annular space, the top cavity, the middle cavity and the bottom cavity are sequentially communicated to form a flow channel for air flow, and the annular opening and the lower ventilation holes are respectively formed at two ends of the flow channel;

the bottom of the air sensor is connected with a rotating seat which is arranged in a rotating way, and the air sensor and the rotating seat are arranged eccentrically; the inner side wall of the middle cavity is movably connected with a rolling shaft which rolls along the inner side wall of the middle cavity;

the air sensor rotates with the rotating seat at fixed time for a set time, and in the eccentric rotation process of the air sensor along with the rotating seat, the rolling shaft rolls along the circumference of the inner side wall of the middle cavity to stir the air in the middle cavity, so that the air in the flow channel and the air outside the air monitor have pressure difference, and air flow is formed between the air monitor and the flow channel.

2. The multifunctional solar street lamp of claim 1, wherein the bottom of the top cover has an annularly arranged downward annular wall, the top of the bottom barrel has an annularly arranged upward annular wall, and the downward annular wall and the upward annular wall are arranged at intervals to form a middle interval;

the inner side of the upward annular wall is butted with the periphery of the middle cylinder, the upward annular wall is in closed arrangement, and the inner side of the upward annular wall and the periphery of the middle cylinder are in closed arrangement; the upward facing annular wall is disposed obliquely downward in a direction from inside to outside of the upward facing annular wall.

3. The multifunctional solar street lamp according to claim 2, wherein a plurality of ventilation channels are arranged in the top cover, and the ventilation channels are arranged at intervals along the circumferential direction of the top cover; the lower end of the air passage downwards penetrates through the downwards-facing annular wall to form a lower end opening, and the upper end of the air passage extends to the upper side of the top cavity to form an upper end opening communicated with the top cavity.

4. A multifunctional solar street lamp according to claim 3, wherein the top of the top cavity is upwards recessed to form a top recessed area, the top recessed area is vertically aligned with the top of the middle barrel, and the upper end openings of the plurality of air passages are respectively communicated to the periphery of the top recessed area and are arranged at intervals along the periphery of the top recessed area.

5. The multifunctional solar street lamp according to claim 4, wherein the top of the top concave area is provided with a downward arranged top wall, the top wall is in an inverted cone shape, and the middle part of the top wall protrudes downward in a cone shape; the top wall is disposed obliquely upward along a direction from a middle portion to an outer periphery of the top wall, and the plurality of upper end openings are aligned laterally toward the top wall.

6. The multifunctional solar street lamp according to any one of claims 1 to 5, wherein the lamp post is in a triangular prism shape, the periphery of the lamp post is provided with an illumination wall and two light absorption walls, and the two light absorption walls are arranged in a crossing manner; the cross rod is butted on the illumination wall and transversely extends, and the display screen is butted on the illumination wall and extends in the same direction as the cross rod; the solar panels are respectively arranged on the two light absorption walls.

7. The multifunctional solar street lamp according to claim 6, wherein the light absorbing wall is provided with an upper universal swivel, the upper end of the solar panel is hinged with the upper universal swivel, the light absorbing wall is provided with a swinging arm swinging up and down, and the light absorbing wall is provided with a storage groove for storing the swinging arm, and the storage groove is arranged along the axial extension of the lamp post; the lower end of the swing arm is hinged in the storage groove, the upper end of the swing arm is connected with a lower universal rotating head, and the lower universal rotating head is hinged with the lower end of the solar panel;

when the swing arm is stored in the storage groove, the solar panel extends along the axial direction of the lamp post, when the swing arm swings out of the storage groove, the swing drives the solar panel to swing outwards away from the lamp post, and the solar panel and the lamp post are obliquely arranged.

8. The multifunctional solar street lamp according to claim 7, wherein the light absorbing wall is provided with a driving element for driving the solar panel to swing circumferentially relative to the lamp post.