Disclosure of Invention
The invention aims to provide a fishing lamp so as to solve the problems of high energy consumption and single lamp color of the existing fishing lamp.
The specific scheme is as follows: a fishing lamp comprises a lamp shade and a water pipeline penetrating the lamp shade up and down; the lampshade comprises an upper lampshade body and a light-transmitting lampshade arranged below the upper lampshade body, wherein the light-transmitting lampshade is provided with a plurality of layers of lampshade bodies which are sleeved in sequence, and a containing cavity is formed between every two adjacent lampshade bodies;
the upper cover body is also internally provided with a power supply module and a fluorescent sheet adjusting module:
the power module comprises a piezoelectric fiber column and a storage battery, wherein the piezoelectric fiber column is sleeved on the water pipeline and is electrically connected with the storage battery;
the fluorescent sheet adjusting module comprises a driving assembly and a pickup assembly arranged on the driving assembly:
the driving assembly comprises a rotating wheel, a third piezoelectric fiber driver and a third motor: the rotating wheel is sleeved on the water pipeline, the third motor is fixedly installed, the third piezoelectric fiber driver is in transmission connection with the third motor, can be abutted against the rotating wheel under the driving of the third motor, and has a first position and a second position which are vertical and parallel to the rotating wheel;
the pickup assembly comprises a fluorescent powder sheet storage table, a conveying crawler belt and a movable sliding rod arranged on the conveying crawler belt: the fluorescent powder sheet storage table is provided with a plurality of storage sliding grooves for storing fluorescent powder sheets with different specifications, and the movable sliding rod is provided with a material taking groove;
a second piezoelectric fiber driver and a second hydraulic cylinder are arranged below the fluorescent powder sheet storage table, and the second piezoelectric fiber driver is arranged on a piston rod of the second hydraulic cylinder so as to be driven by the second hydraulic cylinder to move up and down;
the lower part of the pick-up assembly is also provided with a first piezoelectric fiber driver and a first hydraulic cylinder, wherein the first piezoelectric fiber driver is arranged on a piston rod of the first hydraulic cylinder and used for compressing the fluorescent powder sheet on the movable slide rod.
Further, the upper end of the water pipeline is a cylindrical main water pipe, the lower end of the water pipeline is provided with a plurality of water diversion pipes communicated with the main water pipe, and the diameter of the water diversion pipes is smaller than that of the main water pipe; the water diversion pipes extend into the light transmission cover in a protruding mode, and an LED blue light chip is arranged on the outer wall of each water diversion pipe.
Further, the pick-up assembly is arranged on the rotating wheel, the first hydraulic cylinder is fixed on the inner wall of the upper cover body, and the third motor is fixed on the inner wall of the upper cover body.
Further, the device also comprises a first motor and a second motor, wherein the first motor and the second motor are respectively arranged on piston rods of the first hydraulic cylinder and the second hydraulic cylinder, and then the first piezoelectric fiber driver and the second piezoelectric fiber driver are respectively arranged on the first motor and the second motor so as to swing under the drive of the first motor and the second motor.
Further, the light-transmitting cover comprises three sub-cover bodies which are sleeved in sequence, the sub-cover bodies are all in a horn shape, and the top parts of the sub-cover bodies are all provided with through holes; a gap is arranged between two adjacent sub-covers to form the accommodating cavity.
Further, two limiting blocks are arranged on the upper portion and the lower portion of the water pipeline, and the rotating wheel is arranged between the limiting blocks.
According to the fishing lamp, through the arrangement of the through water pipeline, the power supply module and the fluorescent sheet adjusting module are arranged on the water pipeline, the power supply module is provided with the piezoelectric fiber column, and the piezoelectric fiber column supplies power and provides driving voltage by using deep sea water pressure; then, the fluorescent sheet adjusting module formed by the driving assembly and the pickup assembly mainly realizes driving action by a piezoelectric fiber driver, and has low energy consumption; the light-transmitting cover is internally provided with a containing cavity, and the fluorescent sheet adjusting module realizes the replacement of light rays with different colors by inserting fluorescent powder sheets with different colors into the containing cavity.
Detailed Description
For further illustration of the various embodiments, the invention is provided with the accompanying drawings. The accompanying drawings, which are incorporated in and constitute a part of this disclosure, illustrate embodiments and together with the description, serve to explain the principles of the embodiments. With reference to these matters, one of ordinary skill in the art will understand other possible embodiments and advantages of the present invention. The components in the figures are not drawn to scale and like reference numerals are generally used to designate like components.
The invention will now be further described with reference to the drawings and detailed description.
As shown in conjunction with fig. 1 to 4, this embodiment provides a fishing lamp including a lamp housing, a water pipe 3 installed in the lamp housing, and functional parts installed in the lamp housing:
the lampshade comprises an upper lampshade body 1 and a light-transmitting shade 2 arranged below the upper lampshade body 1, wherein in the embodiment, the upper lampshade body 1 is a cylindrical shell; the light-transmitting cover 2 includes an upper frame 22 and three sub-covers 21 sequentially sleeved, in this embodiment, the sub-covers 21 are horn-shaped, and the inner cavities of the sub-covers 21 are sequentially enlarged from inside to outside, and the bottoms of the sub-covers 21 are fixed on the upper frame 22, so that gaps are formed between two adjacent sub-covers 21 to form the accommodating cavity 210.
The upper frame 22 is sleeved in the upper cover 1, and a through hole 211 is formed at the top of each sub cover 21, namely at the cone tip part, so as to be communicated with external water, thereby realizing the conduction between the inside and the outside of the lampshade and the water, and balancing the water pressure.
A power module is also arranged in the upper cover body 1, and in the embodiment, the power module comprises a piezoelectric fiber column 4 and a storage battery 5; the water pipeline 3 penetrates through the lampshade up and down and is arranged at the axle center of the upper cover body 1, the piezoelectric fiber column 4 is sleeved on the water pipeline 3, and then the piezoelectric fiber column 4 is electrically connected with the storage battery 5; the piezoelectric fiber column 4 is pressed by deep sea water pressure, so that power supply to the storage battery 5 is realized, and meanwhile, voltage can be externally provided to supply other functional components in the upper cover body 1.
To realize the heat dissipation of the light emitting component, a cylindrical groove is disposed in the middle of the upper frame 22, three sets of extension tubes 23 are disposed at the bottom of the groove, in this embodiment, the extension tubes 23 are formed by flexible circuit boards, and a plurality of sets of LED blue light chips 231 are disposed on the outer walls of the extension tubes 23. Correspondingly, the upper end of the water pipeline 3 is a cylindrical main water pipe 31, the lower end of the water pipeline 3 is divided into a plurality of water diversion pipes 32 communicated with the main water pipe 31, and the diameter of the water diversion pipes 32 is smaller than that of the main water pipe 31 so as to realize water diversion; the main water pipe 31 is arranged in the groove, the water diversion pipes 32 are inserted in the extension pipes 23, and then the water diversion pipes 32 are protruded into the light-transmitting cover 2, so that the LED blue light chips 231 are arranged on the outer wall of each water diversion pipe 32, and the water body is cooled in real time after flowing through the LED blue light chips 231.
In this embodiment, the upper case 1 is further provided with the fluorescent sheet adjusting module, specifically, the fluorescent sheet adjusting module includes a driving assembly, and a pickup assembly 8 mounted on the driving assembly:
specifically, the driving assembly includes a rotating wheel 6, a third piezoelectric fiber driver 73, and a third motor (not shown): the rotating wheel 6 is sleeved on the main pipeline 31 of the water pipeline 3, so as to rotate around the main pipeline 31 and slide up and down, and the water pipeline 3 is provided with two limiting blocks up and down, so that the rotating wheel 6 is arranged between the limiting blocks, and the limiting of up and down movement is realized.
The third motor is fixedly installed on the inner wall of the upper housing 1, and the third piezoelectric fiber driver is in transmission connection with the third motor through a link assembly. Under the drive of the third motor, the third motor is provided with a first position which is perpendicular to the rotating wheel 6 and is abutted against the rotating wheel 6 so as to drive the rotating wheel 6 to rotate; and the rotating wheel 6 is parallel to the rotating wheel and is abutted against the second position of the rotating wheel 6 so as to drive the rotating wheel 6 to move up and down.
In this embodiment, the pickup assembly 8 includes a phosphor sheet storage table 83, a conveyor track 81, and a moving slide bar 82 provided on the conveyor track, and each module of the pickup assembly 8 is mounted on the rotating wheel 6 so as to be rotatable following the rotating wheel 6:
specifically, the phosphor sheet storing table 83 is horizontally arranged, and is provided with a plurality of parallel storing sliding grooves for storing phosphor sheets (not shown) of different specifications; correspondingly, the movable slide bar 82 is horizontally arranged, the conveying track 81 is vertical to the storage chute, and a material taking groove is arranged on the lower surface of the movable slide bar 82 for picking up the fluorescent powder sheet.
To achieve the pick-up of the phosphor sheet, a second piezoelectric fiber driver 72 and a second hydraulic cylinder (not shown) are also provided below the phosphor sheet storage table 83; the second hydraulic cylinder is vertically arranged, the second piezoelectric fiber driver 72 is arranged on a piston rod of the second hydraulic cylinder to be driven by the second hydraulic cylinder to move up and down to prop against the fluorescent powder sheet storage table 83, and the second piezoelectric fiber driver 72 is parallel to the surface where the storage chute is located.
In order to realize the fixation of the picked up fluorescent powder sheet, a first piezoelectric fiber driver 71 and a first hydraulic cylinder 710 are further arranged below the picking assembly 8, and the first piezoelectric fiber driver 71 is arranged on a piston rod of the first hydraulic cylinder 710 which is horizontally arranged, so as to be used for compressing the fluorescent powder sheet on the movable slide rod 82.
In this embodiment, the pickup assembly 8 is disposed on the rotating wheel 6, the first hydraulic cylinder 710 is fixed on the inner wall of the upper housing 1, and the third motor is fixed on the inner wall of the upper housing 1; in other embodiments, preferably, a first motor and a second motor may be further provided, the first and second motors being respectively disposed on piston rods of the first and second hydraulic cylinders, and then the first and second piezo-electric fiber drivers being respectively disposed on the first and second motors, so that the first and second motors are driven to swing by the first and second motors.
The specific working procedure of this embodiment is as follows:
(1) Rotary movement mode of the wheel 6
Turning on the third motor to rotate and drive the third piezoelectric fiber driver 73, so that the third piezoelectric fiber driver 73 is parallel to the rotating wheel 6;
then, the third piezoelectric fiber driver 73 is energized and the voltage is gradually increased, so that the a piezoelectric fiber and the B piezoelectric fiber of the third piezoelectric fiber driver 73 are simultaneously reduced, the curvature is reduced, and the head above the third piezoelectric fiber driver 73 is moved from one position to another position to drive the wheel to rotate.
(2) Up and down movement of the wheels
Turning on the third motor to drive the third piezoelectric fiber driver 73, so that the third piezoelectric fiber driver 73 is perpendicular to the rotating wheel 6;
the third piezoelectric fiber driver 73 is energized and the voltage is gradually increased so that the a piezoelectric fiber and the B piezoelectric fiber of the third piezoelectric fiber driver 73 are simultaneously made smaller and the curvature is made smaller, and the head above the third piezoelectric fiber driver 73 is moved from one position to another position to thereby drive the wheel to move up and down.
(3) Method for switching fluorescent powder sheet
S1, opening a conveying crawler belt 81 to enable a groove of a movable slide bar 82 to move to a designated fluorescent powder sheet position;
s2, moving the second hydraulic cylinder to enable the second piezoelectric fiber driver 72 to move upwards until the head of the second piezoelectric fiber driver 72 touches the lower part of the fluorescent powder sheet and then stops;
s3, applying voltage to the second piezoelectric fiber driver 72 and gradually increasing the voltage, so that the piezoelectric fiber A and the piezoelectric fiber B are simultaneously reduced, the curvature is reduced, and the head above the second piezoelectric fiber driver 72 moves from one position to another position, and then the fluorescent powder sheet is driven to move into a groove of the moving slide rod 82;
s4, moving the moving slide rod 82 to be placed above the three accommodating cavities 210;
s5, using the up-and-down movement mode of the rotating wheel 6 to enable the movable sliding rod 82 to move downwards, slowly inserting the fluorescent powder sheet into a designated accommodating cavity 210 until one end of the fluorescent powder sheet reaches the bottom end of the terminal cover body 21;
s6, moving the first hydraulic cylinder to enable the first piezoelectric fiber driver 71 to move forwards until the head of the first piezoelectric fiber driver 71 presses the fluorescent powder sheet;
s7, simultaneously, the moving slide bar 82 moves upwards by using the up-and-down moving mode of the rotating wheel 6, and meanwhile, the piston rod in the first hydraulic cylinder moves forwards, so that the first piezoelectric fiber driver 71 keeps unchanged position and continuously presses the fluorescent powder sheet, and further, the deformable pressure head in the fluorescent powder sheet is separated from the groove of the moving slide bar 82, and further, the first piezoelectric fiber driver 71 can move the fluorescent powder sheet in a horn-like shape to be consistent with the rotating moving mode of the wheel.
While the invention has been particularly shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.