CN114973715A - Traffic guidance device based on mobile crowd sensing - Google Patents

Abstract

The invention provides a traffic guidance device based on mobile crowd sensing, which comprises a director, wherein a top cover is installed at the upper end of the director, a solar panel swings at the upper end of the top cover, a camera rotates at the outer side of the director, a base is installed at the lower end of the director, a control box is installed at the upper end of the base, a transmission mechanism for adjusting the orientation of the solar panel by using a siphon principle is arranged inside the top cover, a sliding mechanism capable of facilitating the overall movement of the director is arranged inside the base, due to the arrangement of an inclined plate, a sliding frame slides upwards inside a supporting rod, a gear on the inner wall of the supporting rod is rotatably embedded with a toothed sheet, a sliding frame can be prevented from falling downwards, the sliding frame drives a push rod upwards when upwards, the push rod further pushes one side of a roll shaft to swing, the swing angle of the roll shaft is larger than 90 degrees, the roll shaft can drive the solar panel to adjust the overall orientation, so that the transmission mechanism can use rainwater and siphon principles, the orientation of the solar panel is automatically adjusted.

Description

Traffic guidance device based on mobile crowd sensing

Technical Field

The invention relates to the technical field of traffic guidance, in particular to a traffic guidance device based on mobile crowd sensing.

Background

The traffic guidance device is mainly used for traffic guidance, evacuation guidance and signal transmission, takes an LED as a light source and takes stroboscopic or constant illumination as a main working mode, and the light of the traffic guidance device usually stores energy and charges through a solar panel, aiming at the technical inspiration of the traffic guidance device;

the following problems have been found in the study of traffic guidance devices:

the traffic guidance device supplies energy through the solar panel, the solar panel supplements energy through absorbing sunlight, sunlight moves along with the passage of time, the position of the solar panel is fixed, the direction cannot be automatically adjusted, and the traffic guidance device needs manual carrying when moving, so that the whole traffic guidance device is inconvenient to move quickly;

at present, CN202010465079.0 in the prior art discloses a stable command device for urban traffic, which improves the stability through a stabilizing mechanism and improves the protection through a protection mechanism;

the solar energy panel orientation adjusting device mainly solves the problem that a traffic command device cannot adjust the orientation of a solar panel.

Disclosure of Invention

In order to solve the above technical problems, the present invention provides a traffic guidance device based on mobile crowd sensing to solve the above problems described in the background art.

The invention relates to a traffic command device based on mobile crowd sensing, which aims to achieve the following specific technical means: the utility model provides a traffic guidance device based on remove crowd's wisdom perception, includes the commander, the top cap is installed to the upper end of commander, the upper end swing of top cap has solar panel, the outside rotation of commander has the camera, the base is installed to the lower extreme of commander, the control box is installed to the upper end of base, the inside of top cap is equipped with the drive mechanism who utilizes siphon principle to adjust solar panel orientation, and the inside of base is equipped with the slide mechanism that can make things convenient for commander bulk movement.

Further, the inside of top cap is cavity form setting, and the inside of base is inversion concavity setting, and solar panel passes through the power cord respectively with camera and control box electric connection, and the control box includes signal receiver and controller, and signal receiver is connected with external control end for external control end can control the camera through the control box, and then makes this kind of commander device can be based on removing crowd's wisdom perception.

Furthermore, the rainwater is collected by the two sides of the top cover, and after the rainwater is collected, the rainwater is impacted upwards by utilizing the siphon principle, so that the orientation of the solar panel can be automatically adjusted by the transmission mechanism, the sliding mechanism at the lower end of the base can assist the base to move integrally, and further the commanding device can be assisted to move integrally.

Further, drive mechanism includes header tank, inlet tube, pipeline, seal carrier, bracing piece, carriage, swash plate, telescopic link, tooth piece, gear, push rod and roller.

Further, the header tank is inlayed in the both sides of top cap, the inlet tube runs through in one side of header tank, the pipeline link up in one side of inlet tube, the bracing piece runs through in the both sides of top cap upper end, the seal receptacle slides and runs through in the inside upper end of pipeline, the carriage slides in the inside lower extreme of bracing piece, the swash plate swings in the both sides of carriage lower extreme, the telescopic link stretches out and draws back in the inboard of swash plate, the pick is inlayed in the both sides of carriage upper end, the gear is rotatory in the inner wall of bracing piece, the push rod slides in the upper end of carriage, the roller is rotatory in the upper end of bracing piece.

Furthermore, the header tank is the concave setting, and the filter screen has been inlayed to the upper end of header tank, and the inlet tube is in the top of header tank one side, and the header tank link up through the inside of inlet tube with the top cap.

Further, the inner chamber has been seted up to the inside both sides of top cap, and the inner chamber link up with the inlet tube, and the pipeline runs through in the inside of inner chamber, and the upper end of pipeline extends to the inside of bracing piece, and the pipeline is the crooked form setting, and the both ends length of pipeline is 5-7cm mutually poor, and the shorter one end of pipeline is close to the one end of inlet tube, and the other end of pipeline runs through to the inside of bracing piece.

Furthermore, the lower extreme of carriage and the upper end interval of pipeline 1-2cm, the carriage is the vertical slip in the inside of bracing piece, and the swash plate is the rubber material, and the swash plate is the slope 15-30 setting, and the telescopic link is the three-section and cup joints the setting, and the telescopic link is the inboard of horizontal arrangement in the swash plate, and one section is horizontal worker form setting in the middle of the telescopic link, and one section is slided with both sides in the middle of the telescopic link and is laminated.

Furthermore, the tooth plates are vertically arranged, 2-4 groups of tooth plates are arranged, the tooth plates are rotatably embedded with the gears, and the sliding frame can be integrally limited and fixed by the gears.

Further, slide mechanism includes gyro wheel, sleeve, footboard, pivot, joint frame and armshaft, and the gyro wheel rotates in the both sides of base lower extreme, and the sleeve cup joints in one side of gyro wheel, and the footboard slides in the both sides of base upper end, and the pivot articulates in telescopic both sides, and joint frame and armshaft swing are in the both sides of pivot.

Furthermore, grooves are formed in two sides of the inside of the pedal, every two grooves form a group, 4-6 groups of grooves are vertically arranged, the grooves are movably nested with the clamping frame, and the inside of the pedal is arranged in a hollow shape.

Further, one side of the clamping frame close to the groove is in a semi-circular arc shape, the semi-circular arc angle is 180 degrees, the semi-circular arc on one side of the clamping frame is convenient to be embedded with the groove quickly, the weight of the arm is larger than that of the clamping frame, the clamping frame is integrally in two-section sleeved mode, and the clamping frame can swing through the rotating shaft conveniently.

Has the beneficial effects that:

1. rainwater is collected through the water collecting tank, when the water level is high, the rainwater enters the inside of the top cover through the water inlet pipe, then the rainwater is gradually injected into the inside of the pipeline, the sealing frame is impacted in the pipeline to slide through water pressure along with the continuous injection of the rainwater, further, the sealing frame assists the air in the pipeline to be discharged in the sliding process, so that the inside of the pipeline is in a vacuum state, the rainwater at the lower end of the pipeline flows upwards by utilizing the siphon principle, and further, the rainwater impacts the bottom of the sliding frame;

2. due to the arrangement of the inclined plate, the sliding frame slides upwards in the supporting rod, the sliding frame can be prevented from falling downwards by utilizing the rotary embedding of the gear and the toothed sheet on the inner wall of the supporting rod, the push rod is driven to move upwards when the sliding frame moves upwards, and then the push rod pushes one side of the roller shaft to swing, the swing angle of the roller shaft is larger than 90 degrees, the roller shaft can drive the whole orientation of the solar panel to be adjusted, so that the transmission mechanism can automatically adjust the orientation of the solar panel by utilizing the rainwater and siphon principles;

3. the pedal is treaded, the pedal slides downwards at the upper end of the base, the clamping frame rapidly swings through the rotating shaft due to the sliding of the pedal, the clamping frame integrally swings downwards, and meanwhile, the clamping frame drives the shaft arm to swing upwards through the rotating shaft;

4. and then the sleeve is whole to be slided downwards for the gyro wheel extends to the lower extreme of base, because armshaft weight is greater than the joint frame, so the armshaft from top to bottom swings, and at this moment, joint frame joint once more in the inner wall of footboard, and then carry out spacing fixed through the joint frame to the sleeve, can carry out spacing fixed to the gyro wheel simultaneously, make things convenient for the supplementary commander of gyro wheel overall shifting.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic cross-sectional view of the top cover of the present invention.

Fig. 3 is a schematic view of the piping structure of the present invention.

FIG. 4 is an enlarged view of the structure at A in FIG. 2 according to the present invention.

Fig. 5 is a schematic view of the sliding frame structure of the present invention.

FIG. 6 is a side view of a partial structure of the support bar of the present invention.

FIG. 7 is a schematic view of a base assembly according to the present invention.

FIG. 8 is a cross-sectional view of the pedal of the present invention.

FIG. 9 is an enlarged view of the structure at B in FIG. 7 according to the present invention.

FIG. 10 is a schematic diagram of a card-connecting rack according to the present invention after swinging.

In fig. 1 to 10, the correspondence between the component names and the reference numbers is:

1-director, 101-top cover, 102-solar panel, 103-base, 104-camera, 105-control box, 2-water collecting tank, 201-water inlet pipe, 202-pipeline, 203-sealing frame, 3-supporting rod, 301-sliding frame, 302-inclined plate, 303-telescopic rod, 304-toothed sheet, 4-gear, 5-push rod, 501-roll shaft, 6-roller, 601-sleeve, 602-pedal, 7-rotating shaft, 701-clamping frame and 702-shaft arm.

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 a part of the embodiments of the present invention, rather than all embodiments, and all other embodiments obtained by a person of ordinary skill in the art without creative efforts based on the embodiments of the present invention belong to the protection scope of the present invention.

Example (b):

as shown in figures 1 to 10:

example 1: a traffic guidance device based on mobile crowd sensing comprises a conductor 1, wherein a top cover 101 is installed at the upper end of the conductor 1, a solar panel 102 swings at the upper end of the top cover 101, a camera 104 rotates at the outer side of the conductor 1, a base 103 is installed at the lower end of the conductor 1, a control box 105 is installed at the upper end of the base 103, a transmission mechanism for adjusting the orientation of the solar panel 102 by using a siphon principle is arranged inside the top cover 101, and a sliding mechanism which can facilitate the conductor 1 to move integrally is arranged inside the base 103;

wherein: the interior of the top cover 101 is arranged in a hollow shape, the interior of the base 103 is arranged in an inverted concave shape, the solar panel 102 is electrically connected with the camera 104 and the control box 105 through power lines, the control box 105 comprises a signal receiver and a controller, the signal receiver is connected with an external control end, so that the external control end can control the camera 104 through the control box 105, and further the commanding device can sense based on mobile crowd intelligence;

rainwater is collected at two sides of the top cover 101, and after the rainwater is collected, the rainwater is impacted upwards by using a siphon principle, so that the orientation of the solar panel 102 can be automatically adjusted by the transmission mechanism, and the sliding mechanism at the lower end of the base 103 can assist the base 103 to move integrally, so that the commanding device can be assisted to move integrally;

example 2: referring to fig. 1-6 of the specification, embodiment 2 is different from embodiment 1 in that the transmission mechanism includes a water collecting tank 2, a water inlet pipe 201, a pipe 202, a sealing frame 203, a support rod 3, a sliding frame 301, an inclined plate 302, an expansion link 303, a tooth plate 304, a gear 4, a push rod 5 and a roller shaft 501, the water collecting tank 1 is embedded in two sides of a top cover 101, the water inlet pipe 201 penetrates one side of the water collecting tank 2, the pipe 202 penetrates one side of the water inlet pipe 201, the support rod 3 penetrates two sides of the upper end of the top cover 101, the sealing frame 203 penetrates the upper end of the pipe 202 in a sliding manner, the sliding frame 301 slides in the lower end of the support rod 3, the inclined plate 302 swings in two sides of the lower end of the sliding frame 301, the expansion link 303 extends in the inner side of the inclined plate 302, the tooth plate 304 is embedded in two sides of the sliding frame 301, the gear 4 rotates on the inner wall of the support rod 3, the push rod 5 slides in the upper end of the sliding frame 301, the roller shaft 501 rotates at the upper end of the support rod 3;

wherein: the water collecting tank 2 is concave, a filter screen is embedded at the upper end of the water collecting tank 2, the water inlet pipe 201 is positioned above one side of the water collecting tank 2, and the water collecting tank 2 is communicated with the inside of the top cover 101 through the water inlet pipe 201;

the filter screen can filter impurities in the rainwater, and the filtered rainwater enters the water inlet pipe 201;

the inner cavity is formed in two sides of the inner part of the top cover 101, the inner cavity is communicated with the water inlet pipe 201, the pipeline 202 penetrates through the inner cavity, the upper end of the pipeline 202 extends into the supporting rod 3, the pipeline 202 is arranged in a bent mode, the length difference between two ends of the pipeline 202 is 5-7cm, the shorter end of the pipeline 202 is close to one end of the water inlet pipe 201, and the other end of the pipeline 202 penetrates into the supporting rod 3;

the sealing frame 203, the sealing frame 203 is arranged in a T shape, and the outer side of the sealing frame 203 is in sliding fit with the inner part of the pipeline 202;

the sealing frame 203 slides in the pipeline 202, and the sealing frame 203 can assist in emptying the air in the pipeline 202;

the supporting rod 3 is positioned between the top cover 101 and the solar panel 102, the supporting rod 3 is arranged in a hollow shape, and the upper end of the roller shaft 501 is rotatably embedded with the lower end of the solar panel 102;

the lower end of the sliding frame 301 is spaced from the upper end of the pipeline 202 by 1-2cm, and the sliding frame 301 vertically slides inside the supporting rod 3;

the telescopic device comprises an inclined plate 302 and telescopic rods 303, wherein the inclined plate 302 is made of rubber, the inclined plate 302 is inclined at 15-30 degrees, the telescopic rods 303 are sleeved in three sections, the telescopic rods 303 are transversely arranged on the inner side of the inclined plate 302, the middle section of the telescopic rods 303 is transversely arranged in a I shape, and the middle section of the telescopic rods 303 is in sliding fit with two sides;

by utilizing the shape arrangement of the telescopic rod 303, the inclined plate 302 can be prevented from sliding downwards integrally, and further the sliding frame 301 can be prevented from sliding downwards integrally in the supporting rod 3, and meanwhile, the arrangement of the inclined plate 302 can facilitate the sliding frame 301 to slide upwards integrally;

the tooth plates 304 and the gears 4 are vertically arranged, 2-4 groups of tooth plates 304 are arranged, the tooth plates 304 are rotatably embedded with the gears 4, and the sliding frame 301 can be integrally limited and fixed by the gears 4;

the upper end of the push rod 5 is arranged below the two sides of the roller shaft 501, and the distance between the push rod 5 and the center of the roller shaft 501 is 2-4 cm;

wherein: rainwater is collected through the water collecting tank 2, when the water level is high, the rainwater enters the inside of the top cover 101 through the water inlet pipe 201, then the rainwater is gradually injected into the inside of the pipeline 202, the sealing frame 203 impacts the inside of the pipeline 202 through water pressure to slide along with the continuous injection of the rainwater, further, in the sliding process of the sealing frame 203, air in the auxiliary pipeline 202 is discharged, the inside of the pipeline 202 is in a vacuum state, further, the rainwater at the lower end of the pipeline 202 flows upwards by utilizing the siphon principle, and further the rainwater impacts the bottom of the sliding frame 301;

due to the arrangement of the inclined plate 302, the sliding frame 301 slides upwards in the supporting rod 3, the sliding frame 301 can be prevented from falling downwards by the rotary embedding of the gear 4 and the toothed sheet 304 on the inner wall of the supporting rod 3, the push rod 5 is driven upwards when the sliding frame 301 moves upwards, then the push rod 5 pushes one side of the roller shaft 501 to swing, the swing angle of the roller shaft 501 is larger than 90 degrees, the roller shaft 501 can drive the whole orientation of the solar panel 102 to be adjusted, and the transmission mechanism can automatically adjust the orientation of the solar panel 102 by utilizing the rainwater and siphon principles;

example 3: referring to fig. 7-10 of the specification, embodiment 3 is different from embodiments 1 and 2 in that the sliding mechanism includes a roller 6, a sleeve 601, a pedal 602, a rotating shaft 7, a clamping frame 701 and a shaft arm 702, the roller 6 rotates at two sides of the lower end of the base 103, the sleeve 601 is sleeved at one side of the roller 6, the pedal 602 slides at two sides of the upper end of the base 103, the rotating shaft 7 is hinged at two sides of the sleeve 601, and the clamping frame 701 and the shaft arm 702 swing at two sides of the rotating shaft 7;

wherein: the upper end of the sleeve 601 extends to the inside of the pedal 602, and the sleeve 601 vertically slides in the inside of the pedal 602;

the two sides of the inside of the pedal 602 are provided with grooves, each two grooves form a group, 4-6 groups of grooves are vertically arranged, the grooves are movably nested with the clamping frame 701, and the inside of the pedal 602 is hollow;

the clamping frame 701 is arranged in a semicircular arc shape at one side, close to the groove, of the clamping frame 701, the angle of the semicircular arc is 180 degrees, and the semicircular arc at one side of the clamping frame 701 is conveniently and quickly embedded with the groove;

the weight of the shaft arm 702 is greater than that of the clamping frame 701, and the clamping frame 701 is integrally sleeved in two sections, so that the clamping frame 701 can swing through the rotating shaft 7 conveniently;

wherein: by stepping on the pedal 602, the pedal 602 slides downwards at the upper end of the base 103, and due to the sliding of the pedal 602, the clamping frame 701 swings quickly through the rotating shaft 7, so that the clamping frame 701 swings downwards integrally, and meanwhile, the clamping frame 701 drives the shaft arm 702 to swing upwards through the rotating shaft 7;

and then the whole lapse of sleeve 601 for gyro wheel 6 extends to the lower extreme of base 103, because axle arm 702 weight is greater than joint frame 701, therefore axle arm 702 swings from top to bottom, and at this moment, joint frame 701 joint in the inner wall of footboard 602 once more, and then carry out spacing fixed through joint frame 701 to sleeve 601, can carry out spacing fixed to gyro wheel 6 simultaneously, makes things convenient for the supplementary commander of gyro wheel 6 overall movement.

Claims (10)

1. A traffic guidance device based on mobile crowd sensing is characterized in that: comprises that

The solar control system comprises a director (1), wherein a top cover (101) is installed at the upper end of the director (1), a solar panel (102) swings at the upper end of the top cover (101), a camera (104) rotates at the outer side of the director (1), a base (103) is installed at the lower end of the director (1), and a control box (105) is installed at the upper end of the base (103);

the device comprises a top cover (101) and a base (103), wherein the inside of the top cover (101) is arranged in a hollow shape, and the inside of the base (103) is arranged in an inverted concave shape;

the solar panel (102) is electrically connected with the camera (104) and the control box (105) through power lines respectively, the control box (105) comprises a signal receiver and a controller, and the signal receiver is connected with an external control end, so that the external control end can control the camera (104) through the control box (105);

the solar control system comprises a transmission mechanism and a sliding mechanism, wherein the transmission mechanism for adjusting the orientation of a solar panel (102) by utilizing a siphon principle is arranged in a top cover (101), and the sliding mechanism which can facilitate the integral movement of the commander (1) is arranged in a base (103).

2. The traffic guidance device based on mobile crowd sensing of claim 1, wherein: the transmission mechanism comprises a water collecting tank (2), a water inlet pipe (201), a pipeline (202), a sealing frame (203), a support rod (3), a sliding frame (301), an inclined plate (302), a telescopic rod (303), a tooth piece (304), a gear (4), a push rod (5) and a roller shaft (501), wherein the water collecting tank (1) is embedded in two sides of a top cover (101), the water inlet pipe (201) penetrates through one side of the water collecting tank (2), the pipeline (202) penetrates through one side of the water inlet pipe (201), the support rod (3) penetrates through two sides of the upper end of the top cover (101), the sealing frame (203) penetrates through the upper end of the inside of the pipeline (202) in a sliding manner, the sliding frame (301) slides at the lower end of the inside of the support rod (3), the inclined plate (302) swings at two sides of the lower end of the sliding frame (301), the telescopic rod (303) stretches out and draws back at the inner side of the inclined plate (302), the tooth piece (304) is embedded in two sides of the upper end of the sliding frame (301), the gear (4) rotates on the inner wall of the support rod (3), the push rod (5) slides on the upper end of the sliding frame (301), and the roller shaft (501) rotates on the upper end of the support rod (3).

3. The traffic guidance device based on mobile crowd sensing of claim 2, wherein: the water collecting tank (2) is concave, a filter screen is embedded in the upper end of the water collecting tank (2), the water inlet pipe (201) is located above one side of the water collecting tank (2), and the water collecting tank (2) is communicated with the inside of the top cover (101) through the water inlet pipe (201).

4. The traffic guidance device based on mobile crowd sensing of claim 2, wherein: the inner chamber has been seted up to the inside both sides of top cap (101), and the inner chamber link up with inlet tube (201), and pipeline (202) run through in the inside of inner chamber, and the upper end of pipeline (202) extends to the inside of bracing piece (3), and pipeline (202) are the bending form and set up, and the both ends length of pipeline (202) differs 5-7cm, and the one end that inlet tube (201) was close to the shorter one end of pipeline (202), and the other end of pipeline (202) runs through to the inside of bracing piece (3).

5. The traffic guidance device based on mobile crowd sensing of claim 2, wherein: the support rod (3) is positioned between the top cover (101) and the solar panel (102), the support rod (3) is arranged in a hollow shape, and the upper end of the roll shaft (501) is rotatably embedded with the lower end of the solar panel (102);

the lower end of the sliding frame (301) is separated from the upper end of the pipeline (202) by 1-2cm, and the sliding frame (301) vertically slides inside the supporting rod (3).

6. The traffic guidance device based on mobile crowd sensing of claim 2, wherein: swash plate (302) are the rubber material, and swash plate (302) are slope 15-30 and set up, and telescopic link (303) are the three-section and cup joint the setting, and telescopic link (303) are horizontal arrange in the inboard of swash plate (302), and one section is horizontal worker form setting in the middle of telescopic link (303), one section slides with both sides in the middle of telescopic link (303) and laminates.

7. The traffic guidance device based on mobile crowd sensing of claim 2, wherein: the tooth plates (304) are vertically arranged, 2-4 groups of tooth plates (304) are arranged, and the tooth plates (304) are rotatably embedded with the gears (4);

the upper end of the push rod (5) is arranged below the two sides of the roller shaft (501), and the distance between the push rod (5) and the center of the roller shaft (501) is 2-4 cm.

8. The traffic guidance device based on mobile crowd sensing of claim 1, wherein: slide mechanism includes gyro wheel (6), sleeve (601), footboard (602), pivot (7), joint frame (701) and armshaft (702), and gyro wheel (6) are rotatory in the both sides of base (103) lower extreme, and sleeve (601) cup joint in one side of gyro wheel (6), and footboard (602) slide in the both sides of base (103) upper end, and pivot (7) articulate in the both sides of sleeve (601), and joint frame (701) and armshaft (702) swing in the both sides of pivot (7).

9. The traffic guidance device based on mobile crowd sensing of claim 8, wherein: the upper end of the sleeve (601) extends to the inside of the pedal (602), and the sleeve (601) vertically slides in the inside of the pedal (602);

the novel pedal comprises a pedal (602), wherein grooves are formed in two sides of the interior of the pedal (602), every two grooves form a group, 4-6 groups of the grooves are vertically arranged, the grooves are movably nested with a clamping frame (701), and the interior of the pedal (602) is hollow.

10. The traffic guidance device based on mobile crowd sensing of claim 8, wherein: one side of the clamping frame (701) close to the groove is arranged in a semicircular arc shape, and the angle of the semicircular arc is 180 degrees;

the weight of the shaft arm (702) is greater than that of the clamping frame (701), and the clamping frame (701) is integrally sleeved in two sections.

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