CN114664100B - Temporary traffic signal device with automatic homing and anti-collision functions - Google Patents

Abstract

The invention discloses an automatic homing and anti-collision temporary traffic signal device, which comprises a base, a solar energy electricity storage device and a fixing frame, wherein the solar energy electricity storage device is arranged in the base, a toughened glass layer is arranged at the upper end of the base, a clamping groove mechanism is arranged in the base, and the fixing frame is arranged at the upper end of the base; when the device is used in a general form, the protective shell and the fixing frame float in the sky under the action of the buoyancy mechanism, so that the height of the light-emitting lamp can be effectively increased to facilitate the observation of a traffic signal device by a driver at a far distance, and when an external device collides with an object, the protective shell and the fixing frame float in the air, so that the external device can collide with the bottom structure of the device only, and the protective shell and the fixing frame can restore to the original position under the action of self buoyancy after the collision.

Description

Temporary traffic signal device with automatic homing and anti-collision functions

Technical Field

The invention relates to the technical field of traffic, in particular to a temporary traffic signal device with automatic homing and collision avoidance.

Background

In the life today, in order to increase the efficiency of transportation and avoid accidents during transportation and increase the efficiency of transportation, traffic signal devices are needed at intersections, so that pedestrians and vehicles pass through the intersections orderly, and temporary traffic signal devices are one type of traffic signal devices, which generally serve as temporary traffic signal devices, and temporary traffic signal devices have some disadvantages when in use, such as:

in the process that temporary traffic signal device used, it is usually directly placed in road center, because its height is lower, neither be convenient for the navigating mate observe the device in the distance, the vehicle also has the risk of striking rather than taking place simultaneously, thereby make temporary traffic signal device easy to take place to damage, in the in-process when the device is used, in case the device takes place phenomenon such as striking, can cause the position of device to change, because temporary traffic signal device can not resume the normal position, so can influence the use of device, general temporary traffic signal device can only fix the run-out according to the time of setting, and can not carry out automatic adjustment according to the vehicle running state on road surface, so make the intelligent degree of device lower, traffic transportation's efficiency has been reduced.

Disclosure of Invention

The invention aims to provide a temporary traffic signal device with automatic homing and collision avoidance, so as to solve the problems in the background art.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides a temporary traffic signal device with automatic homing and anticollision, includes base, solar energy power storage device and mount, the inside of base is provided with solar energy power storage device, the upper end of base is provided with the toughened glass layer, draw-in groove mechanism has been seted up to the inside of base, the upper end of base is provided with the mount, the side equidistance of mount is provided with 4 light-emitting lamps, the inside of mount is provided with the climbing mechanism, the outside of mount is provided with the protecting sheathing, the side inside of protecting sheathing is provided with printing opacity color-developing mechanism, the inside survey of protecting sheathing is provided with the light blocking structure, and the device is divided into two kinds when using;

firstly, the ground anti-blowing mode used in the strong wind mode is adopted, and when the device is used, the protective shell and the fixing frame are embedded into the clamping groove mechanism, so that the stability of the protective shell and the fixing frame in use is improved, and at the moment, when an external object collides with the device, the protective shell can effectively protect the fixing frame, and the fixing frame is prevented from being damaged;

secondly, use under the general form, protective housing and mount float in the sky under buoyancy mechanism's effect this moment, not only can be effectual increase show the height of light and be convenient for the driver just can observe traffic signal device in the remote place, can also when external device bumps with the object, because protective housing and mount float in the air, so can make external device bump only to the bottom structure of device, protective housing and mount can resume the normal position under the effect of self buoyancy after taking place the striking simultaneously.

Further, the light-emitting lamp is protruding, the side of light-emitting lamp is the slope form, light-emitting lamp and light blocking structure are sliding connection, and the light-emitting lamp sets up in the outside of mount, because the outside of mount only is provided with 4 light-emitting lamps, and the light-emitting lamp is general light structure, compares in general traffic signal device, and the light-emitting lamp need not beat, so can effectually reduce the weight of mount, and the protecting sheathing of being convenient for floats in the sky with the mount.

Further, printing opacity color development mechanism is provided with 2 kinds, and 2 kinds of printing opacity color development mechanism are provided with 4 groups in turn, printing opacity color development mechanism includes first printing opacity layer and second projecting layer, the inside of first printing opacity layer is provided with red and green 2 kinds, and the first printing opacity layer colour of object is the same, and first printing opacity layer divide into red green two kinds, when the display lamp shines at first printing opacity layer, because first printing opacity layer has the colour, so when light passes first printing opacity layer, first printing opacity layer can render the colour, so can render the light into green and red to instruct the driver.

Further, the surface of the second light projection layer is wavy, the inner side of the first light transmission layer is provided with a light blocking structure, the light blocking structure comprises a light shielding layer, the inner side of the light shielding layer is an inclined plane, the second light projection layer is a yellow light projection layer, so that light can be rendered yellow when passing through the second light projection layer, surrounding people can be warned, and the second light projection layer is wavy, so that the area of the light can be effectively increased by the second light projection layer when the light passes through the second light projection layer, and more people can observe the warning lamp;

when the external vehicle runs through the device, the gas can generate thrust to the second light projecting layer, the second light projecting layer is pushed to move to drive the protective housing to rotate, the first light transmitting layer and the second light projecting layer are driven to rotate when the protective housing rotates, the angles of light rays can be adjusted when the protective housing rotates, so that the red, green and yellow lamps are converted, and when no vehicle passes through the device, the inclined surfaces of the light shielding layer are smaller in resistance when the inclined surfaces of the light shielding layer are contacted with the light-emitting lamps, and the light shielding layer is not easy to move when the plane of the light shielding layer is contacted with the light-emitting lamps, so that when no wind force exists, the light-emitting lamps can be overlapped with the second light projecting layer, and the surrounding is warned, so that the traffic efficiency of the road surface is greatly increased.

Furthermore, the whole of the fixing frame and the protecting shell is conical, the side surfaces of the fixing frame and the protecting shell are arc-shaped, the protecting shell is rotationally arranged on the outer side of the fixing frame, a fixing cap is arranged in the upper end of the protecting shell, and the side surfaces of the fixing frame and the protecting shell are arc-shaped, so that wind force born by the device can be effectively reduced, the protecting shell is prevented from rotating under the action of natural wind force, and the passing efficiency of a road is further improved;

when the vehicle runs slowly, the traffic situation is good and accidents are not easy to happen, meanwhile, the wind power caused by the movement of the vehicle is small, so that the device is not started, and otherwise, when the vehicle runs quickly, the device is started.

Further, the buoyancy mechanism comprises an air bag layer and an air charging port, the air bag layer is arranged in the fixing frame, the air charging port is arranged at the center of the upper end of the air bag layer, when the device is used, air is charged into the air bag layer through the air charging port, so that the air bag layer moves upwards, the device is driven to move upwards, the protecting shell of the device and the fixing frame are suspended in the sky to prevent the device from being impacted, the device is prevented from being influenced, and the device can recover to the original position under the buoyancy effect of the air after being influenced.

Further, the side of base is the arc, the inside of base is provided with solar energy power storage device, the upper end of base is provided with toughened glass layer, and the base is located ground, and the base is the face form, so can avoid base and external object to take place the striking to sunshine can see through toughened glass layer and solar energy power storage device contact, thereby makes solar energy power storage device can collect solar energy, has also increased the weight of device bottom simultaneously and has reduced the weight of device top, has improved the stability of device when using.

Further, draw-in groove mechanism includes spacing groove, first draw-in groove and second draw-in groove, the spacing groove is circular form, the inside at the spacing groove is installed to the shell is embedded, the bottom of spacing groove is provided with rectangular first draw-in groove, the inside at first draw-in groove is installed to the mount is embedded, the lower extreme of first draw-in groove is provided with the second draw-in groove that is rectangular form, the inside block of second draw-in groove is provided with the connecting wire, and when the device was used, the spacing groove can be spacing to the shell for the shell can only remove in the inside of spacing groove, and the first draw-in groove can be spacing to the mount, avoids the mount to take place to rotate.

Further, the base is rectangular, the apex angle department of base is provided with the haulage rope, the inside of haulage rope is provided with the connecting wire that is rectangular, the other end of haulage rope is connected with the connecting rope, the side of connecting rope is connected with the mount, the inside of connecting rope is provided with the connecting wire, the inside of connecting rope is provided with the support column that is rectangular, the support column is connected for the block with the mount with the second draw-in groove respectively, and the second draw-in groove can be spacing to the support column, and when the mount suspension was in the sky, haulage rope and connecting rope can be connected upper and lower two parts of device, and the inside of haulage rope and connecting rope is provided with the connecting wire simultaneously to the top with the electric energy transmission of device bottom to when the device uses, because the connecting wire is rectangular, so increased the area of contact of connecting wire and support column, both reduced the frictional force between connecting wire and the support column, the radiating effect of connecting wire also can increase.

Compared with the prior art, the invention has the following beneficial effects: the invention is used in a general mode, at the moment, the protective shell and the fixed frame float in the sky under the action of the buoyancy mechanism, so that the height of the light-emitting lamp can be effectively increased to facilitate the observation of traffic signal devices by drivers at a relatively distance, and when an external device collides with an object, the protective shell and the fixed frame float in the air, so that the external device can only collide with the bottom structure of the device, and the protective shell and the fixed frame can restore to the original position under the action of self buoyancy after the collision.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

FIG. 1 is a schematic overall elevational cross-sectional view of the present invention;

FIG. 2 is a schematic view of the protective housing and mount mounting front cross-sectional structure of the present invention;

FIG. 3 is a schematic view of the bottom structure of the protective housing of the present invention;

FIG. 4 is a schematic perspective view of a protective housing according to the present invention;

FIG. 5 is a schematic perspective view of a base of the present invention;

FIG. 6 is a schematic view of the base and support column mounting structure of the present invention;

FIG. 7 is a schematic view of the internal structure of the connecting rope of the present invention;

fig. 8 is a schematic perspective view of a second light projecting layer of the present invention.

In the figure: 1. a base; 2. a solar energy storage device; 3. a tempered glass layer; 4. a limit groove; 5. a first clamping groove; 6. a second clamping groove; 7. a protective housing; 8. a first light-transmitting layer; 9. a light shielding layer; 10. an air bag layer; 11. an inflation inlet; 12. a fixing cap; 13. a traction rope; 14. a connecting rope; 15. a connecting wire; 16. a support column; 17. a second light projecting layer; 18. a fixing frame; 19. and a light-emitting lamp.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-8, the present invention provides the following technical solutions: the utility model provides a temporary traffic signal device with automatic homing and anticollision, including base 1, solar energy power storage device 2 and mount 18, the inside of base 1 is provided with solar energy power storage device 2, the upper end of base 1 is provided with toughened glass layer 3, draw-in groove mechanism has been seted up to the inside of base 1, the upper end of base 1 is provided with mount 18, the side equidistance of mount 18 is provided with 4 light-emitting lamps 19, the inside of mount 18 is provided with the climbing mechanism, the outside of mount 18 is provided with protecting sheathing 7, the side inside of protecting sheathing 7 is provided with printing opacity color-developing mechanism, the inside survey of protecting sheathing 7 is provided with the light blocking structure, the device is divided into two kinds when using;

firstly, the ground anti-blowing mode is used when the device is in a strong wind mode, and the protective shell 7 and the fixing frame 18 are embedded into the clamping groove mechanism when the device is used, so that the stability of the protective shell 7 and the fixing frame 18 in use is improved, and at the moment, when an external object collides with the device, the protective shell 7 can effectively protect the fixing frame 18 to avoid the damage of the fixing frame 18;

the second is that the use under the normal form, at this moment, protective housing 7 and mount 18 float in the sky under the effect of buoyancy mechanism, not only can be effectual increase show the height of light 19 just can observe traffic signal device at the distance of being convenient for the driver, can also when external device bumps with the object, because protective housing 7 and mount 18 float in the air, so can make external device bump to the bottom structure of device only, protective housing 7 and mount 18 can resume the normal position under the effect of self buoyancy after the striking takes place simultaneously.

The light-emitting lamp 19 is protruding, and the side of light-emitting lamp 19 is slope form, and light-emitting lamp 19 is sliding connection with the light blocking structure, and light-emitting lamp 19 sets up in the outside of mount 18, because the outside of mount 18 is provided with 4 light-emitting lamps 19 only, and light-emitting lamp 19 is general light structure, compare in general traffic signal device, light-emitting lamp 19 need not beat, so can effectually reduce the weight of mount 18, and the protecting sheathing 7 of being convenient for and mount 18 float in the sky.

The light-transmitting color-developing mechanism is provided with 2 kinds, and 2 kinds of light-transmitting color-developing mechanisms are alternately provided with 4 kinds, and the light-transmitting color-developing mechanism includes first light-transmitting layer 8 and second projecting layer 17, and the inside of first light-transmitting layer 8 is provided with red and green 2 kinds, and the first light-transmitting layer 8 colour of object is the same, and first light-transmitting layer 8 divide into red and green two kinds, when the display lamp 19 shines at first light-transmitting layer 8, because first light-transmitting layer 8 has the colour, when light passes first light-transmitting layer 8, first light-transmitting layer 8 can render the colour, so can render the light into green and red to guide the driver.

The surface of the second light projection layer 17 is wavy, the light blocking structure is arranged in the first light transmission layer 8 and comprises a light shielding layer 9, the inner side of the light shielding layer 9 is an inclined plane, the second light projection layer 17 is a yellow light projection layer, so that light is rendered yellow when passing through the second light projection layer 17, surrounding people are warned, the second light projection layer 17 is wavy, and therefore when the light passes through the second light projection layer 17, the area of the light can be effectively increased by the second light projection layer 17, and more people observe the warning lamp;

when the external vehicle runs through the device, the gas can generate thrust to the second light projecting layer 17, the second light projecting layer 17 is pushed to move to drive the protective housing 7 to rotate, the first light transmitting layer 8 and the second light projecting layer 17 are driven to rotate when the protective housing 7 rotates, the angles of light rays can be adjusted when the first light transmitting layer 8 and the second light projecting layer 17 rotate, so that red, green and yellow lamps are converted, and when no vehicle passes through the device, the inclined plane of the light shielding layer 9 is smaller in resistance when the inclined plane of the light shielding layer 9 contacts with the light displaying lamps 19, and when the plane of the light shielding layer 9 contacts with the light displaying lamps 19, the light displaying lamps 19 are not easy to move, so that when no wind force exists, yellow light is generated to warn the surrounding, the passing efficiency of the road surface is greatly increased, meanwhile, when the device needs to restart, a certain wind force is needed, and when more vehicles run, enough wind force starting devices can be generated, and the passing efficiency of the road surface is further improved.

The whole of the fixing frame 18 and the protective shell 7 is conical, the side surfaces of the fixing frame 18 and the protective shell 7 are arc-shaped, the protective shell 7 is rotatably arranged on the outer side of the fixing frame 18, the fixing cap 12 is arranged in the upper end of the protective shell 7, and the side surfaces of the fixing frame 18 and the protective shell 7 are arc-shaped, so that wind force born by the device can be effectively reduced, the protective shell 7 is prevented from rotating under the action of natural wind force, and the passing efficiency of a road is further improved;

when the vehicle runs slowly, the traffic situation is good and accidents are not easy to happen, meanwhile, the wind power caused by the movement of the vehicle is small, so that the device is not started, and otherwise, when the vehicle runs quickly, the device is started.

The buoyancy lift mechanism comprises an air bag layer 10 and an air charging port 11, the air bag layer 10 is arranged in the fixing frame 18, the air charging port 11 is arranged in the center of the upper end of the air bag layer 10, when the device is used, air is charged into the air bag layer 10 through the air charging port 11, so that the air bag layer 10 moves upwards, the device is driven to move upwards, the protective shell 7 of the device and the fixing frame 18 are suspended in the sky to prevent the device from being impacted, the device is prevented from being influenced, and the device can recover to the original position under the buoyancy effect of the air after being influenced.

The side of base 1 is the arc, and the inside of base 1 is provided with solar energy power storage device 2, and the upper end of base 1 is provided with toughened glass layer 3, and base 1 is located ground, and base 1 is the face form, so can avoid base 1 to take place the striking with external object to sunshine can see through toughened glass layer 3 and solar energy power storage device 2 contact, thereby make solar energy power storage device 2 can collect solar energy, also increased the weight of device bottom simultaneously and reduced the weight of device top, improved the stability of device when using.

The draw-in groove mechanism includes spacing groove 4, first draw-in groove 5 and second draw-in groove 6, spacing groove 4 is circular form, the embedded installation of protective housing 7 is in the inside of spacing groove 4, the bottom of spacing groove 4 is provided with rectangular first draw-in groove 5, the embedded installation of mount 18 is in the inside of first draw-in groove 5, the lower extreme of first draw-in groove 5 is provided with the second draw-in groove 6 that is rectangular form, the inside block of second draw-in groove 6 is provided with connecting wire 15, when the device is used, spacing groove 4 can be spacing protective housing 7, make protective housing 7 can only remove in the inside of spacing groove 4, and first draw-in groove 5 can be spacing to mount 18, avoid mount 18 to take place to rotate.

The base 1 is rectangular, the apex angle department of base 1 is provided with haulage rope 13, the inside of haulage rope 13 is provided with the connecting wire 15 that is rectangular, the other end of haulage rope 13 is connected with connecting rope 14, the side of connecting rope 14 is connected with mount 18, the inside of connecting rope 14 is provided with connecting wire 15, the inside of connecting rope 14 is provided with the support column 16 that is rectangular, support column 16 is the block with second draw-in groove 6 and mount 18 respectively and is connected, the second draw-in groove 6 can carry out spacingly to support column 16, when mount 18 suspension is in the sky, haulage rope 13 and connecting rope 14 can be connected the upper and lower two parts of device, the inside of haulage rope 13 and connecting rope 14 is provided with connecting wire 15 simultaneously, thereby transmit the electric energy of device bottom to the top of device, and when the device is used, because connecting wire 15 is rectangular, so increased the area of contact of connecting wire 15 and support column 16, both reduced the frictional force between connecting wire 15 and the support column 16, support column 16 also can increase the radiating effect of connecting wire 15.

The working principle of the invention is as follows: ground blowing prevention mode used in the case of strong wind mode: when the device is used, the protective shell 7 and the fixing frame 18 are embedded in the clamping groove mechanism, so that the stability of the protective shell 7 and the fixing frame 18 in use is improved, and at the moment, when an external object collides with the device, the protective shell 7 can effectively protect the fixing frame 18, and the fixing frame 18 is prevented from being damaged

The method is used in the general form: at this time, the protective housing 7 and the fixing frame 18 float in the sky under the action of the buoyancy mechanism, so that not only can the height of the light-emitting lamp 19 be effectively increased to facilitate the observation of the traffic signal device by a driver at a far distance, but also the external device can collide with the object when the external device collides with the object, and the protective housing 7 and the fixing frame 18 float in the air, so that the external device can collide with the bottom structure of the device only, and the protective housing 7 and the fixing frame 18 can restore to the original position under the action of self buoyancy after the collision.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: the above is only a preferred embodiment of the present invention, and the present invention is not limited thereto, but it is to be understood that the present invention is described in detail with reference to the foregoing embodiments, and modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. The utility model provides a temporary traffic signal device with automatic homing and anticollision, includes base (1), solar energy power storage device (2) and mount (18), its characterized in that: the inside of base (1) is provided with solar energy electricity storage device (2), the upper end of base (1) is provided with toughened glass layer (3), draw-in groove mechanism has been seted up to the inside of base (1), the upper end of base (1) is provided with mount (18), the side equidistance of mount (18) is provided with 4 light-emitting lamps (19), the inside of mount (18) is provided with climbing mechanism, the outside of mount (18) is provided with protecting sheathing (7), the inside light-transmitting color-developing mechanism that is provided with of side of protecting sheathing (7), the interior survey of protecting sheathing (7) is provided with light-blocking structure.

2. A temporary traffic signal device with automatic homing and collision avoidance as recited in claim 1, wherein: the light-emitting lamp (19) is in a protruding shape, the side face of the light-emitting lamp (19) is in an inclined shape, and the light-emitting lamp (19) is in sliding connection with the light-blocking structure.

3. A temporary traffic signal device with automatic homing and collision avoidance as recited in claim 1, wherein: the light-transmitting color-developing mechanism is provided with 2 types, 4 groups of 2 types of light-transmitting color-developing mechanisms are alternately arranged, the light-transmitting color-developing mechanism comprises a first light-transmitting layer (8) and a second light-projecting layer (17), 2 types of red and green colors are arranged in the first light-transmitting layer (8), and the colors of the first light-transmitting layers (8) of the objects are the same.

4. A temporary traffic signal device with automatic homing and collision avoidance as claimed in claim 3, wherein: the surface of the second light projecting layer (17) is wavy, a light blocking structure is arranged in the first light transmitting layer (8), the light blocking structure comprises a light shielding layer (9), and the inner side of the light shielding layer (9) is an inclined plane.

5. A temporary traffic signal device with automatic homing and collision avoidance as recited in claim 1, wherein: the whole of mount (18) and protecting sheathing (7) is the toper, and the side of mount (18) and protecting sheathing (7) is the arc, the outside rotation of mount (18) is provided with protecting sheathing (7), the inside fixed cap (12) that is provided with of upper end of protecting sheathing (7).

6. A temporary traffic signal device with automatic homing and collision avoidance as recited in claim 1, wherein: the buoyancy lifting mechanism comprises an air bag layer (10) and an air charging port (11), the air bag layer (10) is arranged in the fixing frame (18), and the air charging port (11) is arranged in the center of the upper end of the air bag layer (10).

7. A temporary traffic signal device with automatic homing and collision avoidance as recited in claim 1, wherein: the side of base (1) is the arc, the inside of base (1) is provided with solar energy power storage device (2), the upper end of base (1) is provided with toughened glass layer (3).

8. A temporary traffic signal device with automatic homing and collision avoidance as recited in claim 1, wherein: the clamping groove mechanism comprises a limiting groove (4), a first clamping groove (5) and a second clamping groove (6), wherein the limiting groove (4) is circular, a protective housing (7) is embedded in the limiting groove (4), the rectangular first clamping groove (5) is arranged at the bottom of the limiting groove (4), a fixing frame (18) is embedded in the first clamping groove (5), the rectangular second clamping groove (6) is arranged at the lower end of the first clamping groove (5), and a connecting wire (15) is arranged in the second clamping groove (6).

9. A temporary traffic signal device with automatic homing and collision avoidance as recited in claim 8, wherein: the base (1) is rectangular, the apex angle department of base (1) is provided with haulage rope (13), the inside of haulage rope (13) is provided with connecting wire (15) that are rectangular, the other end of haulage rope (13) is connected with connecting rope (14), the side of connecting rope (14) is connected with mount (18), the inside of connecting rope (14) is provided with connecting wire (15), the inside of connecting rope (14) is provided with support column (16) that are rectangular, support column (16) are the block with second draw-in groove (6) and mount (18) respectively and are connected.