CN115009460A

CN115009460A - Lighting equipment for ship navigation and use method thereof

Info

Publication number: CN115009460A
Application number: CN202210941008.2A
Authority: CN
Inventors: 孙彦刚; 杨显义; 李金宝; 欧书博; 刘鑫男; 曲维英; 倪维松; 李东旭; 王浩; 柳英杰; 庄涛; 王举岩; 于珍珍; 袁戎
Original assignee: China Merchants Jinling Shipping Weihai Co ltd
Current assignee: China Merchants Industrial Technology Shanghai Co ltd; China Merchants Jinling Shipping Weihai Co ltd
Priority date: 2022-08-08
Filing date: 2022-08-08
Publication date: 2022-09-06
Anticipated expiration: 2042-08-08
Also published as: CN115009460B

Abstract

The invention provides an illuminating device for ship navigation and a using method thereof, belongs to the technical field of ship illumination, and solves the problems that the existing illuminating device is easy to age and corrode due to long-term wind, sunshine and rain; the technical scheme is as follows: the adjustable illumination device is characterized in that an adjusting barrel is fixedly mounted on the base, the upper end of the adjusting barrel is in fit sliding connection with the illumination barrel through a straight sliding hole, the adjusting barrel is connected with the illumination barrel through a vertical position adjusting assembly, a movable illumination assembly and an ex-situ pushing assembly are arranged in the illumination barrel, the movable illumination assembly is mounted on the wall of the illumination barrel, and the ex-situ pushing assembly is fixedly mounted in the illumination barrel and pushes the movable illumination assembly to move. The beneficial effects of the invention are as follows: the invention realizes illumination at different vertical positions and different directions and is convenient to adjust according to requirements.

Description

Lighting equipment for ship navigation and use method thereof

Technical Field

The invention belongs to the technical field of ship lighting, and particularly relates to a lighting device for ship navigation and a using method thereof.

Background

Ship lighting is a necessary condition for ship navigation, operation and life of ship management workers. The illumination of boats and ships is usually including ensureing navigation safety and personnel's safety illumination, and lighting apparatus on the boats and ships among the prior art is mostly fixed searchlight, and this kind of lighting method's stability is higher, and simple structure, but lighting apparatus is blown by the wind for a long time and is shone the rain, and easy ageing and easily receive the erosion, have consequently reduced its life, and simultaneously, current illumination height is fixed, be not convenient for adjust as required, and in addition, lighting apparatus's lighting method is fixed, be not convenient for adjust as required during the actual lighting.

Based on the technical problem, the invention provides the illuminating equipment for ship navigation and the using method thereof, so as to solve the technical problem.

Disclosure of Invention

In order to solve the problems that the existing lighting equipment is exposed to wind, sun and rain for a long time, is easy to age and corrode, so that the service life of the lighting equipment is shortened, meanwhile, the existing lighting equipment is fixed in height and is inconvenient to adjust according to needs, in addition, the lighting direction of the lighting equipment is fixed, and the direction is inconvenient to adjust according to needs during actual lighting, the invention provides the lighting equipment for ship navigation and the using method thereof.

The invention provides lighting equipment for ship navigation, which comprises a base and a lighting cylinder, wherein an adjusting cylinder is fixedly arranged on the base, the upper end of the adjusting cylinder is in fit sliding connection with the lighting cylinder through a straight sliding hole, the adjusting cylinder is connected with the lighting cylinder through a vertical position adjusting assembly, the vertical position adjusting assembly realizes telescopic movement between the adjusting cylinder and the lighting cylinder, a movable lighting assembly and an ex-situ pushing assembly are arranged in the lighting cylinder, the movable lighting assembly is arranged on the wall of the lighting cylinder, and the ex-situ pushing assembly is fixedly arranged in the lighting cylinder and pushes the movable lighting assembly to move, so that the lighting mode of the movable lighting assembly is adjusted.

Further, the movable lighting assembly comprises a fixed lighting lamp, a 90-degree azimuth lighting lamp, a 180-degree azimuth lighting lamp, a 270-degree azimuth lighting lamp, an annular sliding groove and an arc-shaped sliding plate, three-quarter circular sliding holes, a semi-circular sliding hole and one-quarter circular sliding holes are sequentially formed in the wall of the lighting cylinder from top to bottom, the upper end and the lower end of the inner wall of each three-quarter circular sliding hole, the upper end and the lower end of the inner wall of each one-quarter circular sliding hole and the inner wall of each semi-circular sliding hole are fixedly connected with the annular sliding groove corresponding to radian, the arc-shaped sliding plate is connected to the annular sliding grooves in a laminating and sliding mode, the 90-degree azimuth lighting lamp, the 180-degree azimuth lighting lamp and the 270-degree azimuth lighting lamp are respectively installed on the outer side wall of the corresponding arc-shaped sliding plate, and the fixed lighting lamp is fixedly installed below the one-quarter circular sliding holes of the lighting cylinder.

Furthermore, the ectopic pushing assembly comprises a first driving motor, a rotating disc, a 90-degree azimuth illuminating lamp pushing rod, a 180-degree azimuth illuminating lamp pushing rod, a 270-degree azimuth illuminating lamp pushing rod, a combined pushing rod and three connecting blocks, the three connecting blocks are fixedly arranged on the inner side wall of an arc-shaped sliding plate corresponding to the 90-degree azimuth illuminating lamp, the 180-degree azimuth illuminating lamp and the 270-degree azimuth illuminating lamp respectively, the top of the illuminating cylinder is fixedly connected with the first driving motor, the driving end of the first driving motor penetrates through the top of the illuminating cylinder and is fixedly connected with the rotating disc, the outer wall of the rotating disc is fixedly connected with the 270-degree azimuth illuminating lamp pushing rod, the 180-degree azimuth illuminating lamp pushing rod, the 90-degree azimuth illuminating lamp pushing rod and the combined pushing rod at equal intervals along the circumferential direction of the rotating disc, and the bottoms of the 270-degree azimuth illuminating lamp pushing rod, the 180-degree azimuth illuminating lamp pushing rod and the 90-degree azimuth lamp pushing rod are respectively connected with the 270-degree azimuth illuminating lamp, the 270-degree azimuth illuminating lamp pushing rod, The bottoms of the connecting blocks corresponding to the 180-degree azimuth illuminating lamp and the 90-degree azimuth illuminating lamp are flush, the bottom of the combined push rod is flush with the bottom of the connecting block corresponding to the 90-degree azimuth illuminating lamp, and the connecting block corresponding to the 270-degree azimuth illuminating lamp is located between the combined push rod and the 270-degree azimuth illuminating lamp push rod.

Furthermore, the outer wall of the rotating disc is fixedly connected with a 270-degree azimuth illuminating lamp push rod, a 180-degree azimuth illuminating lamp push rod, a 90-degree azimuth illuminating lamp push rod and a combined push rod at equal intervals along the counterclockwise direction of the rotating disc; when the first driving motor drives the rotating disc to rotate anticlockwise, the combined push rod is in fit contact with the rear side wall of the three connecting blocks, until the 90-degree position illuminating lamp, the 180-degree position illuminating lamp and the 270-degree position illuminating lamp are in the same straight line for combined illumination, when the first driving motor drives the rotating disc to rotate clockwise, the 270-degree position illuminating lamp push rod, the 180-degree position illuminating lamp push rod and the 90-degree position illuminating lamp push rod are in contact with the front side wall of the corresponding three connecting blocks in sequence, and the 90-degree position illuminating lamp, the 180-degree position illuminating lamp and the 270-degree position illuminating lamp are in scattered illumination at the 90-degree position of the illuminating cylinder, the 180-degree position illuminating lamp and the 270-degree position illuminating lamp of the illuminating cylinder.

Further, vertical position control assembly includes second driving motor, thread bush, threaded rod, first bevel gear and second bevel gear, be equipped with the threaded rod in the regulation barrel, the threaded rod bottom is rotated through bearing and base and is connected, and the second bevel gear is installed to the threaded rod lower extreme, threaded rod upper end and the thread bush fit connection of fixing in the illumination bobbin base portion, second driving motor fixed mounting is on the base, and the safety cover is installed in the second motor outside, and second driving motor output penetrates and adjusts barrel inside and be connected with first bevel gear, first bevel gear is connected with the second bevel gear meshing of threaded rod lower extreme.

Furthermore, a movable press switch assembly is arranged in the adjusting cylinder, an unlocking groove and a merging groove are sequentially formed in the outer wall of the illuminating cylinder along the vertical direction from top to bottom, the merging groove is communicated with the unlocking groove, the bottom of the merging groove is higher than that of the unlocking groove, and the communication position of the unlocking groove and the merging groove is positioned below a fixed illuminating lamp on the illuminating cylinder; the activity push switch subassembly includes guide block, push rod, reset spring, push switch and install bin, push switch fixed mounting is on adjusting a section of thick bamboo upper end inner wall, the install bin lock in the push switch outside and with adjust a section of thick bamboo fixed connection, push rod one end and push switch contact, the other end run through behind the install bin with the sliding connection that laminates of unblock groove and merge groove, reset spring overlaps on the push rod of install bin, reset spring's both ends respectively with the tip of push rod and the inner wall fixed connection of install bin, fixedly connected with guide block on the intercommunication inner wall of adjusting a section of thick bamboo top and illumination section of thick bamboo, and guide block lateral wall and unblock groove and merge groove lateral wall laminating sliding connection.

In order to better achieve the object of the present invention, the present invention also provides a method for using a lighting apparatus for vessel navigation, comprising the steps of:

the method comprises the following steps: the base is arranged at a set position, a second driving motor of the vertical position adjusting assembly drives a first bevel gear to rotate, the first bevel gear drives a second bevel gear to rotate, the second bevel gear drives a threaded rod to rotate, the threaded rod drives a threaded sleeve to move, and the threaded sleeve drives the illuminating cylinder to adjust the position in the vertical direction, so that illumination at different vertical positions of the illuminating cylinder is realized;

step two: when the vertical adjusting assembly drives the lighting cylinder to move upwards, the guide block of the movable press switch assembly is matched with the unlocking groove and the merging groove to realize the moving guide treatment of the lighting cylinder, the push rod slides into the merging groove from the unlocking groove, the push rod is pressed at the bottom of the merging groove, the push rod presses the open press switch, and the fixed lighting lamp, the 90-degree azimuth lighting lamp, the 180-degree azimuth lighting lamp and the 270-degree azimuth lighting lamp are synchronously turned on;

step three: when combined illumination is carried out, a first driving motor of the ectopic pushing assembly drives the rotating disc to rotate anticlockwise, a combined pushing rod is contacted with the rear side wall of the three connecting blocks and pushes the 90-degree azimuth illuminating lamp and the 180-degree azimuth illuminating lamp to rotate, the 90-degree azimuth illuminating lamp, the 180-degree azimuth illuminating lamp and the 270-degree azimuth illuminating lamp are moved right above the fixed illuminating lamp, and then the fixed illuminating lamp, the 90-degree azimuth illuminating lamp, the 180-degree azimuth illuminating lamp and the 270-degree azimuth illuminating lamp are positioned on the same straight line, and the fixed illuminating lamp, the 90-degree azimuth illuminating lamp, the 180-degree azimuth illuminating lamp and the 270-degree azimuth illuminating lamp are combined for illumination;

step four: when the illumination is dispersed, the first driving motor of the ectopic pushing assembly drives the rotating disc to rotate clockwise, the pushing rod of the 270-degree azimuth illuminating lamp is contacted with the connecting block at the 270-degree azimuth illuminating lamp to push the 270-degree azimuth illuminating lamp to rotate, then a 180-degree azimuth illuminating lamp push rod is contacted with a connecting block at a 180-degree azimuth illuminating lamp to push the 180-degree azimuth illuminating lamp to rotate, finally a 90-degree azimuth illuminating lamp push rod is contacted with a connecting block at a 90-degree azimuth illuminating lamp to push the 90-degree azimuth illuminating lamp to rotate, when the 270-degree azimuth illuminating lamp rotates to 270 degrees, the 180-degree azimuth illuminating lamp rotates to 180 degrees, and the 90-degree azimuth illuminating lamp rotates to 90 degrees, the fixed illuminating lamp, the 90-degree azimuth illuminating lamp, the 180-degree azimuth illuminating lamp and the 270-degree azimuth illuminating lamp are used for illuminating at equal intervals along the circumferential direction of the illuminating cylinder, so that dispersed illumination is realized, and the illumination mode adjustment of the movable illuminating assembly is realized;

step five: when retrieving and closing lighting apparatus, vertical adjusting part drives a lighting cylinder and moves downwards, the push rod slides into the unlocking groove from the merging groove, the push rod resets under the effect of a reset spring, the push rod is separated from a press switch, the press switch synchronously closes a fixed lighting lamp, a 90-degree position lighting lamp, a 180-degree position lighting lamp and a 270-degree position lighting lamp, the lighting cylinder continues to move downwards, and the lighting cylinder is completely accommodated into the adjusting cylinder.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the second driving motor of the vertical position adjusting assembly drives the first bevel gear to rotate, the first bevel gear drives the second bevel gear to rotate, the second bevel gear drives the threaded rod to rotate, the threaded rod drives the threaded sleeve to move, and the threaded sleeve drives the illuminating cylinder to adjust the position in the vertical direction, so that illumination at different vertical positions is realized, adjustment is convenient as required, when illumination is not required, the illuminating cylinder is accommodated in the adjusting cylinder for protection treatment, wind, sun and rain can be avoided, aging and erosion speed is reduced, and the service life is prolonged.

2. The ectopic pushing assembly pushes the movable lighting assembly to carry out combined lighting or dispersed lighting, and the lighting mode can be adjusted according to the requirement.

3. When the lighting cylinder moves upwards, the guide block of the movable press switch assembly is matched with the unlocking groove and the merging groove to realize the moving guide processing of the lighting cylinder, the push rod slides into the merging groove from the unlocking groove, the push rod is pressed at the bottom of the merging groove, the push rod presses the press switch to synchronously turn on the fixed lighting lamp, the 90-degree azimuth lighting lamp, the 180-degree azimuth lighting lamp and the 270-degree azimuth lighting lamp, when the lighting cylinder moves downwards, the push rod slides into the unlocking groove from the merging groove, the push rod is reset under the action of the reset spring, the push rod is separated from the press switch, and the fixed lighting lamp, the 90-degree azimuth lighting lamp, the 180-degree azimuth lighting lamp and the 270-degree azimuth lighting lamp are synchronously turned off.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

FIG. 1 is a perspective view of the structure of the present invention;

FIG. 2 is a front view of the structure of the present invention;

FIG. 3 is a perspective view of another embodiment of the present invention;

FIG. 4 is a perspective view of the present invention taken along the line A-A of FIG. 1;

FIG. 5 is a perspective view of the present invention taken along the line B-B of FIG. 2;

FIG. 6 is a schematic view of the ectopic push component in combination with illumination according to the present invention;

FIG. 7 is an enlarged view of a portion C of FIG. 4;

FIG. 8 is an enlarged view of a portion D of FIG. 4;

FIG. 9 is an enlarged view of a portion E of FIG. 5;

fig. 10 is a partial enlarged view of F in fig. 5.

Wherein the reference numerals are:

1. a base; 2. a protective cover; 3. an adjusting cylinder; 4. an illumination barrel; 5. fixing the illuminating lamp; 6. a 90-degree azimuth illuminating lamp; 7. 180-degree azimuth illuminating lamp; 8. a 270-degree azimuth illuminating lamp; 9. an arc-shaped sliding plate; 10. an annular chute; 11. three quarter round holes; 12. a quarter of a smooth hole; 13. a semicircular slide hole; 14. unlocking the groove; 15. merging the grooves; 16. erecting a rod; 17. a top cover; 18. a first bevel gear; 19. a second bevel gear; 20. a threaded sleeve; 21. a threaded rod; 22. a second drive motor; 23. a 180-degree azimuth illuminating lamp push rod; 24. rotating the disc; 25. a first drive motor; 26. the 270-degree azimuth illuminating lamp push rod; 27. combining the push rods; 28. a 90-degree azimuth illuminating lamp push rod; 29. connecting blocks; 30. a wireless signal transceiver; 31. a microcontroller; 32. a push switch; 33. a push rod; 34. a guide block; 35. a return spring; 36. and (5) installing a box.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the following embodiments are further detailed. Of course, the specific embodiments described herein are merely illustrative of the invention and are not intended to be limiting.

Example 1

Referring to fig. 1 to 10, a lighting device for ship navigation, which comprises a base 1 and a lighting tube 4, wherein an adjusting tube 3 is fixedly mounted on the base 1, the upper end of the adjusting tube 3 is in sliding connection with the lighting tube 4 through a straight sliding hole, the adjusting tube 3 is connected with the lighting tube 4 through a vertical position adjusting assembly, the vertical position adjusting assembly realizes telescopic movement between the adjusting tube 3 and the lighting tube 4, a movable lighting assembly and an ectopic pushing assembly are arranged in the lighting tube 4, the movable lighting assembly is mounted on the wall of the lighting tube 4, the ectopic pushing assembly is fixedly mounted in the lighting tube 4 and pushes the movable lighting assembly to move, and the lighting mode adjustment of the movable lighting assembly is realized.

Movable lighting assembly includes a lighting section of thick bamboo 4, fixed light 5, 90 position light 6, 180 position light 7, 270 position light 8, annular spout 10 and arc slide 9, from the top down is equipped with quarter three smooth hole 11 on the 4 section of thick bamboos of lighting section of thick bamboo wall, semicircle smooth hole 13 and quarter smooth hole 12, quarter three smooth hole 11, equal fixedly connected with of lower extreme corresponds the annular spout 10 of radian on quarter smooth hole 12 and the semicircle smooth hole 13 inner wall, laminating sliding connection has arc slide 9 in the annular spout 10, and 90 position light 6, 180 position light 7 and 270 position light 8 are installed on the arc slide 9 lateral wall that corresponds, lighting section of thick bamboo 4 is fixed mounting has fixed light 5 below quarter smooth hole 12.

The ectopic pushing assembly comprises a 180-degree azimuth illuminating lamp pushing rod 23, a rotating disc 24, three first driving motors 25, a 270-degree azimuth illuminating lamp pushing rod 26, a combined pushing rod 27, three connecting blocks 29 and a 90-degree azimuth illuminating lamp pushing rod 28, the connecting blocks 29 are respectively and fixedly arranged on the inner side wall of an arc sliding plate 9 corresponding to the 90-degree azimuth illuminating lamp 6, the 180-degree azimuth illuminating lamp 7 and the 270-degree azimuth illuminating lamp 8, the top of an illuminating cylinder 4 is fixedly connected with the first driving motor 25, the driving end of the first driving motor 25 penetrates through the top of the illuminating cylinder 4 and is fixedly connected with the rotating disc 24, the outer wall of the rotating disc 24 is sequentially and fixedly connected with the 270-degree azimuth illuminating lamp pushing rod 26, the 180-degree azimuth illuminating lamp pushing rod 23, the 90-degree azimuth illuminating lamp pushing rod 28 and the combined pushing rod 27 at equal intervals along the circumferential direction, the bottoms of the 270-degree azimuth illuminating lamp pushing rod 26, the 180-degree azimuth illuminating lamp pushing rod 23 and the 90-degree azimuth illuminating lamp pushing rod 28 are respectively connected with the 270-degree azimuth lamp pushing rod 8, The bottoms of the connecting blocks 29 corresponding to the 180-degree azimuth illuminating lamp 7 and the 90-degree azimuth illuminating lamp 6 are flush, the bottom of the combined push rod 27 is flush with the bottom of the connecting block 29 corresponding to the 90-degree azimuth illuminating lamp, and the connecting block 29 corresponding to the 270-degree azimuth illuminating lamp 8 is positioned between the combined push rod 27 and the 270-degree azimuth illuminating lamp push rod 26.

When the outer wall of the rotating disc 24 is fixedly connected with a 270-degree azimuth illuminating lamp pushing rod 26, a 180-degree azimuth illuminating lamp pushing rod 23, a 90-degree azimuth illuminating lamp pushing rod 28 and a combining pushing rod 27 at equal intervals along the counterclockwise direction of the rotating disc 24, the first driving motor 25 drives the rotating disc 24 to rotate anticlockwise, the combining pushing rod 27 is in contact with the rear side walls of the three connecting blocks 29 in a fitting manner until the fixed illuminating lamp 5, the 90-degree azimuth illuminating lamp 6, the 180-degree azimuth illuminating lamp 7 and the 270-degree azimuth illuminating lamp 8 are positioned in the same straight line for combined illumination, the first driving motor 25 drives the rotating disc 24 to rotate clockwise, the 270-degree azimuth illuminating lamp pushing rod 26, the 180-degree azimuth illuminating lamp pushing rod 23 and the 90-degree azimuth illuminating lamp pushing rod 28 are sequentially in contact with the front side walls of the three connecting blocks 29 one by one, the fixed illuminating lamp 5 is positioned at the 0-degree azimuth of the illuminating cylinder 4, and the 90-degree azimuth illuminating lamp 6 is positioned at the 90-degree azimuth of the illuminating cylinder 4, The 180-degree azimuth illuminating lamp 7 performs distributed illumination at the 180-degree azimuth of the illuminating cylinder 4, and the 270-degree azimuth illuminating lamp 8 performs distributed illumination at the 270-degree azimuth of the illuminating cylinder 4; the lighting mode of adjusting formula lighting assembly can be adjusted to merge illumination or dispersion illumination, and the lighting mode can be adjusted as required, simultaneously because the light of different angles is the same with arc slide 9 and connecting block 29 mounting means, guarantees the convenience of installation and maintenance between the movable lighting assembly.

Vertical position control assembly includes second driving motor 22, threaded bush 20, threaded rod 21, first bevel gear 18 and second bevel gear 19, be equipped with threaded rod 21 in the regulation barrel 3, threaded rod 21 bottom is passed through the bearing and is rotated with base 1 and be connected, second bevel gear 19 is installed to threaded rod 21 lower extreme, threaded rod 21 upper end is connected with the threaded bush 20 cooperation of fixing in the illumination barrel 4 bottom, second driving motor 22 fixed mounting is on base 1, safety cover 2 is installed in the second motor 22 outside, second driving motor 22 output penetrates and adjusts barrel 3 inside and be connected with first bevel gear 18, first bevel gear 18 is connected with the second bevel gear 19 meshing of threaded rod 21 lower extreme.

Vertical position adjusting component's second driving motor 22 drives first bevel gear 18 and rotates, first bevel gear 18 drives second bevel gear 19 and rotates, second bevel gear 19 drives threaded rod 21 and rotates, threaded rod 21 drives thread bush 20 and removes, thread bush 20 drives illumination section of thick bamboo 4 adjusting position in vertical direction, realize the illumination of the different vertical position of illumination section of thick bamboo 4, be convenient for adjust as required, when need not the illumination, illumination section of thick bamboo 4 is accomodate and is carried out the protection processing in adjusting section of thick bamboo 3, can avoid blowing the sun and rain, slow down ageing and erosion rate, and long service life.

Example 2

On the basis of the embodiment 1, referring to fig. 4 and 7, a movable push switch assembly is arranged in the adjusting cylinder 3, an unlocking groove 14 and a merging groove 15 are sequentially arranged on the outer wall of the illuminating cylinder 4 from top to bottom along the vertical direction, the merging groove 15 is communicated with the unlocking groove 14, the bottom of the merging groove 15 is higher than that of the unlocking groove 14, and the communication position of the unlocking groove 14 and the merging groove 15 is positioned below the fixed illuminating lamp 5 on the illuminating cylinder 4; the activity push switch subassembly includes guide block 34, push rod 33, reset spring 35, push switch 32 and install bin 36, push switch 32 fixed mounting is on adjusting a 3 upper end inner wall, install bin 36 lock in the push switch 32 outside and with adjusting a 3 fixed connection, push rod 33 one end and push switch 32 contact, the other end runs through install bin 36 back and unlocks groove 14 and merging slots 15 laminating sliding connection, reset spring 35 overlaps on the push rod 33 in install bin 36, reset spring 35's both ends respectively with the tip of push rod 33 and the inner wall fixed connection of install bin 36, fixedly connected with guide block 34 on adjusting a 3 top and the intercommunication inner wall of illumination section of thick bamboo 4, and guide block 34 lateral wall and unlocks groove 14 and merging slots 15 lateral wall laminating sliding connection.

When the vertical adjusting assembly drives the illuminating cylinder 4 to move upwards, the guide block 34 of the movable press switch assembly is matched with the unlocking groove 14 and the merging groove 15 to achieve moving guide processing of the illuminating cylinder 4, when the push rod 33 slides into the merging groove 15 from the unlocking groove 14, the groove bottom of the merging groove 15 is higher than the groove bottom of the unlocking groove 14, the groove bottom of the merging groove 15 presses the push rod 33, the push rod 33 presses the press switch 32 to open the fixed illuminating lamp 5, the 90-degree position illuminating lamp 6, the 180-degree position illuminating lamp 7 and the 270-degree position illuminating lamp 8 synchronously, when the vertical adjusting assembly drives the illuminating cylinder 4 to move downwards, the push rod 33 slides into the unlocking groove 14 from the merging groove 15, the push rod 33 resets under the action of the reset spring 35, the push rod 33 is separated from the press switch 32, and the fixed illuminating lamp 5, the 90-degree position illuminating lamp 6, the 180-degree position illuminating lamp 7 and the 270-degree position illuminating lamp 8 are synchronously closed.

Upright posts 16 are fixedly connected to the top of the illumination cylinder 4 at equal intervals along the direction of the circle center, and a top cover 17 is fixedly connected to the tops of the upright posts 16; the top cover 17 protects the upper part of the illumination tube 4.

Wireless signal transceiver 30 and microcontroller 31 are installed to the 3 inner walls of regulation section of thick bamboo, microcontroller 31 automatically controlled input is connected with external power electricity, microcontroller 31 automatically controlled output and press switch 32, second driving motor 22 and first driving motor 25 electricity are connected, press switch 32 and fixed light 5, 90 position light 6, 180 position light 7 and 270 position light 8 electricity are connected, wireless signal transceiver 30 passes through wireless signal and is connected with control terminal, realize lighting apparatus wireless control.

the method comprises the following steps: install base 1 in setting for the position, vertical position adjusting part's second driving motor 22 drives first bevel gear 18 and rotates, and first bevel gear 18 drives second bevel gear 19 and rotates, and second bevel gear 19 drives threaded rod 21 and rotates, and threaded rod 21 drives threaded sleeve 20 and removes, and threaded sleeve 20 drives illumination section of thick bamboo 4 adjusting position in vertical direction, realizes the illumination of illumination section of thick bamboo 4 different vertical position.

Step two: the threaded rod 21 drives the lighting cylinder 4 to move upwards, the guide block 34 of the movable press switch assembly is matched with the unlocking groove 14 and the merging groove 15 to achieve moving guide processing of the lighting cylinder 4, the push rod 33 slides into the merging groove 15 from the unlocking groove 14, the push rod 33 is pressed at the bottom of the merging groove 15, the push rod 33 presses the press switch 32 to be opened, and the fixed lighting lamp 5, the 90-degree azimuth lighting lamp 6, the 180-degree azimuth lighting lamp 7 and the 270-degree azimuth lighting lamp 8 are synchronously opened;

step three: when combined illumination is carried out, the first driving motor 25 of the ectopic pushing assembly drives the rotating disc 24 to rotate anticlockwise, the combined pushing rod 27 is in contact with the rear side wall of the three connecting blocks 29 to push the 90-degree azimuth illuminating lamp 6, the 180-degree azimuth illuminating lamp 7 and the 270-degree azimuth illuminating lamp 8 to rotate, the 90-degree azimuth illuminating lamp 6, the 180-degree azimuth illuminating lamp 7 and the 270-degree azimuth illuminating lamp 8 are all moved to be right above the fixed illuminating lamp 5, then the fixed illuminating lamp 5, the 90-degree azimuth illuminating lamp 6, the 180-degree azimuth illuminating lamp 7 and the 270-degree azimuth illuminating lamp 8 are positioned on the same straight line, and the fixed illuminating lamp 5, the 90-degree azimuth illuminating lamp 6, the 180-degree azimuth illuminating lamp 7 and the 270-degree azimuth illuminating lamp 8 are combined for illumination;

step four: during dispersed illumination, a first driving motor 25 of the ectopic pushing assembly drives a rotating disc 24 to rotate clockwise, a pushing rod 26 of the 270-degree azimuth illuminating lamp is contacted with a connecting block 29 at the position of the 270-degree azimuth illuminating lamp 8 to push the 270-degree azimuth illuminating lamp 8 to rotate, a pushing rod 23 of the 180-degree azimuth illuminating lamp is contacted with a connecting block 29 at the position of the 180-degree azimuth illuminating lamp 7 to push the 180-degree azimuth illuminating lamp 7 to rotate, finally, a pushing rod 28 of the 90-degree azimuth illuminating lamp is contacted with a connecting block 29 at the position of the 90-degree azimuth illuminating lamp 6 to push the 90-degree azimuth illuminating lamp 6 to rotate, when the 270-degree azimuth illuminating lamp 8 rotates to 270 degrees, the 180-degree azimuth illuminating lamp 7 rotates to 180 degrees, and the 90-degree azimuth illuminating lamp 6 rotates to 90 degrees, the illuminating lamps 5, the 90-degree azimuth illuminating lamp 6, the 180-degree azimuth illuminating lamp 7 and the 270-degree azimuth illuminating lamp 8 are illuminated at equal intervals along the circumferential direction of the illuminating cylinder 4 to realize dispersed illumination, the lighting mode of the movable lighting assembly can be adjusted as required;

step five: retrieve lighting apparatus when closing, vertical adjusting part drives a lighting section of thick bamboo 4 downstream, push rod 33 slides into the unblock groove 14 from merge groove 15, push rod 33 resets under reset spring 35's effect, push rod 33 and press switch 32 separation, press switch 32 synchronous shut-down fixed lighting lamp, 90 position light, 180 position light and 270 position light, a lighting section of thick bamboo 4 continues downstream, take in into a regulation section of thick bamboo 3 completely and carry out protection processing lighting, can avoid when need not the illumination that the wind blows the sun and is shone the rain and drench, slow down ageing and erosion rate, prolonged service life.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent replacements, improvements, etc. within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a lighting apparatus for boats and ships navigation, includes a base and an illumination section of thick bamboo, its characterized in that, fixed mounting has a regulation section of thick bamboo on the base, adjust a section of thick bamboo upper end through straight sliding hole and an illumination section of thick bamboo laminating sliding connection to adjust and be connected through vertical position adjusting part between a section of thick bamboo and the illumination section of thick bamboo, vertical position adjusting part realizes adjusting the flexible removal between a section of thick bamboo and the illumination section of thick bamboo, be equipped with movable lighting assembly and dystopy promotion component in the illumination section of thick bamboo, movable lighting assembly installs on an illumination section of thick bamboo wall, dystopy promotion component fixed mounting promotes movable lighting assembly and removes in an illumination section of thick bamboo, realizes movable lighting assembly's lighting system and adjusts.

2. The lighting device for ship navigation according to claim 1, wherein the movable lighting assembly comprises a fixed lighting lamp, a 90 ° azimuth lighting lamp, a 180 ° azimuth lighting lamp, a 270 ° azimuth lighting lamp, an annular chute and an arc-shaped sliding plate, the wall of the lighting cylinder is sequentially provided with a three-quarter circular sliding hole, a semi-circular sliding hole and a quarter-circular sliding hole from top to bottom, the upper and lower ends of the inner walls of the three-quarter circular sliding hole, the quarter-circular sliding hole and the semi-circular sliding hole are fixedly connected with annular chutes with corresponding radians, the annular chutes are internally attached with arc-shaped sliding plates in a sliding manner, the 90 ° azimuth lighting lamp, the 180 ° azimuth lighting lamp and the 270 ° azimuth lighting lamp are respectively mounted on the corresponding outer side walls of the arc-shaped sliding plate, and the fixed lighting lamp is fixedly mounted below the quarter-circular sliding hole of the lighting cylinder.

3. The lighting device for ship navigation according to claim 2, wherein the ectopic push assembly comprises a first driving motor, a rotary disc, a 90 ° azimuth illuminating lamp push rod, a 180 ° azimuth illuminating lamp push rod, a 270 ° azimuth illuminating lamp push rod, a combined push rod and three connecting blocks, the connecting blocks are respectively and fixedly arranged on the inner side wall of the arc-shaped sliding plate corresponding to the 90 ° azimuth illuminating lamp, the 180 ° azimuth illuminating lamp and the 270 ° azimuth illuminating lamp, the top of the illuminating cylinder is fixedly connected with the first driving motor, the driving end of the first driving motor penetrates through the top of the illuminating cylinder and is fixedly connected with the rotary disc, the outer wall of the rotary disc is fixedly connected with the 270 ° azimuth illuminating lamp push rod, the 180 ° azimuth illuminating lamp push rod, the 90 ° azimuth illuminating lamp push rod and the combined push rod at equal intervals along the circumferential direction, and the 270 ° azimuth illuminating lamp push rod, The bottom of the pushing rod of the 180-degree azimuth illuminating lamp and the bottom of the pushing rod of the 90-degree azimuth illuminating lamp are respectively flushed with the bottoms of the connecting blocks corresponding to the 270-degree azimuth illuminating lamp, the 180-degree azimuth illuminating lamp and the 90-degree azimuth illuminating lamp, the bottom of the combined pushing rod is flushed with the bottom of the connecting block corresponding to the 90-degree azimuth illuminating lamp, and the connecting block corresponding to the 270-degree azimuth illuminating lamp is positioned between the combined pushing rod and the pushing rod of the 270-degree azimuth illuminating lamp.

4. A lighting device for ship navigation according to claim 3, wherein said outer wall of said rotary disk is fixedly connected with 270 ° azimuth illuminating lamp push rod, 180 ° azimuth illuminating lamp push rod, 90 ° azimuth illuminating lamp push rod and combined push rod at equal intervals along the counterclockwise direction of said rotary disk.

5. The lighting device for ship navigation according to claim 4, wherein the vertical position adjusting assembly comprises a second driving motor, a threaded sleeve, a threaded rod, a first bevel gear and a second bevel gear, the threaded rod is arranged in the adjusting cylinder, the bottom of the threaded rod is rotatably connected with the base through a bearing, the second bevel gear is arranged at the lower end of the threaded rod, the upper end of the threaded rod is in fit connection with the threaded sleeve fixed at the bottom of the illuminating cylinder, the second driving motor is fixedly arranged on the base, a protective cover is arranged on the outer side of the second motor, the output end of the second driving motor penetrates into the adjusting cylinder and is connected with the first bevel gear, and the first bevel gear is in mesh connection with the second bevel gear at the lower end of the threaded rod.

6. The lighting device for ship navigation according to claim 5, wherein the adjusting cylinder is internally provided with a movable push switch assembly, the outer wall of the lighting cylinder is sequentially provided with an unlocking groove and a merging groove from top to bottom along the vertical direction, the merging groove is communicated with the unlocking groove, the bottom of the merging groove is higher than that of the unlocking groove, and the communication part of the unlocking groove and the merging groove is positioned below a fixed lighting lamp on the lighting cylinder;

the activity push switch subassembly includes guide block, push rod, reset spring, push switch and install bin, push switch fixed mounting is on adjusting a section of thick bamboo upper end inner wall, the install bin lock just with adjusting a section of thick bamboo fixed connection in the push switch outside, push rod one end and push switch contact, the other end run through behind the install bin with the sliding connection that laminates of unblock groove and merge groove, reset spring overlaps on the push rod of install bin, reset spring's both ends respectively with the tip of push rod and the inner wall fixed connection of install bin, fixedly connected with guide block on the intercommunication inner wall of adjusting a section of thick bamboo top and illumination section of thick bamboo, and guide block lateral wall and unblock groove and merge groove lateral wall laminating sliding connection.

7. Use of a lighting device for vessel navigation according to claim 6, characterized in that it comprises the following steps:

the method comprises the following steps: the base is arranged at a set position, a second driving motor of the vertical position adjusting assembly drives a first bevel gear to rotate, the first bevel gear drives a second bevel gear to rotate, the second bevel gear drives a threaded rod to rotate, the threaded rod drives a threaded sleeve to move, and the threaded sleeve drives the illuminating cylinder to adjust the position in the vertical direction, so that the illuminating cylinder can illuminate at different vertical positions;

step three: when combined illumination is carried out, a first driving motor of the ectopic pushing assembly drives the rotating disc to rotate anticlockwise, a combined pushing rod on the rotating disc is in contact with the rear side walls of the three connecting blocks and pushes the 90-degree azimuth illuminating lamp, the 180-degree azimuth illuminating lamp and the 270-degree azimuth illuminating lamp to rotate, the 90-degree azimuth illuminating lamp, the 180-degree azimuth illuminating lamp and the 270-degree azimuth illuminating lamp are all moved right above the fixed illuminating lamp, and then the fixed illuminating lamp, the 90-degree azimuth illuminating lamp, the 180-degree azimuth illuminating lamp and the 270-degree azimuth illuminating lamp are positioned on the same straight line, and the fixed illuminating lamp, the 90-degree azimuth illuminating lamp, the 180-degree azimuth illuminating lamp and the 270-degree azimuth illuminating lamp are combined for illumination;

step four: when dispersed illumination is performed, a first driving motor of the ectopic pushing assembly drives the rotating disc to rotate clockwise, a pushing rod of a 270-degree azimuth illuminating lamp on the rotating disc is contacted with a connecting block at the 270-degree azimuth illuminating lamp to push the 270-degree azimuth illuminating lamp to rotate, then a pushing rod of a 180-degree azimuth illuminating lamp is contacted with a connecting block at the 180-degree azimuth illuminating lamp to push the 180-degree azimuth illuminating lamp to rotate, finally a pushing rod of a 90-degree azimuth illuminating lamp is contacted with a connecting block at the 90-degree azimuth illuminating lamp to push the 90-degree azimuth illuminating lamp to rotate, when the 270-degree azimuth illuminating lamp rotates to 270 degrees, the 180-degree azimuth illuminating lamp rotates to 180 degrees, and the 90-degree azimuth illuminating lamp rotates to 90 degrees, the illuminating lamp, the 90-degree azimuth illuminating lamp, the 180-degree azimuth illuminating lamp and the 270-degree azimuth illuminating lamp are fixed to perform equidistant illumination along the circumferential direction of the illuminating cylinder, and the dispersed illumination is realized;

step five: when retrieving and closing lighting apparatus, vertical adjusting part drives a lighting cylinder and moves down, and the push rod slides in from the merge slot and unlocks the groove, and the push rod resets under reset spring's effect, and push rod and press the switch separation, press the switch and close fixed lighting lamp, 90 position light, 180 position light and 270 position light in step, and a lighting cylinder continues the downstream, and a lighting cylinder is accomodate completely in the regulation cylinder.