JP6807498B1 - Marine protected area alarms that use wave energy - Google Patents

Abstract

PROBLEM TO BE SOLVED: To disclose an alarm device for a marine protected area using wave energy. SOLUTION: The alarm box is included, and a slide chamber opened downward is installed in the alarm box, and when the tide is full, the alarm box is moved and interlocked upward by relying on the buoyancy of a floating block. The moving mechanism moves the elevating rod and the light upward, and then the second energizing block sticks to the first energizing block in the energizing mechanism, and the storage battery is the light and motor by the third electric wire and the second electric wire. The light is lit by the rotating block, and the motor rotates the light by the rotating block, so that when the tide is full, the employee can be alerted and the safety of the employee can be guaranteed, inside the power generation mechanism. The floating ball floats on the surface of the sea, and the floating ball is moved up and down by the waves on the surface of the sea to generate electricity, and the electric energy is stored in the storage battery by the first electric wire. [Selection diagram] Fig. 1

Description

The present invention relates to the field of alarm technology, and is specifically an alarm for a marine protected area that uses wave energy.

Wave energy is one of the most important types of ocean energy if it is one of the concrete forms of ocean energy, and the development and utilization of wave energy is to mitigate the energy crisis and the environment. It is very important to reduce pollution, and generating electricity with wave energy produces electrical energy powered by wave energy. In general, marine protected area alarms do not give early warning of the state of the ocean when the tide is high, which means that employees work in the marine protected area even when the tide is high and there is a certain degree of danger. And the general marine protected area alarms do not have the ability to use the energy of the waves to generate electricity.

Chinese Patent Application Publication No. 1047664648

It is an object of the present invention to provide an alarm device for a marine protected area that uses wave energy, and to eliminate the above-mentioned drawbacks in the existing technology.

The marine protected area alarm using the wave energy of the embodiment of the present invention includes an alarm box, a slide chamber opened downward is installed in the alarm box, and a slide rod is installed in the slide chamber. Is attached so that it can slide, a fixing base is fixedly attached to the bottom surface of the slide rod, an elevating chamber opened upward is installed above the slide chamber, and an elevating rod is installed in the elevating chamber. Is attached so that the light can slide, a light is fixedly attached to the top surface of the elevating rod, and an energizing mechanism capable of energizing and shining the light is installed below the elevating rod. A moving mechanism capable of moving and interlocking the elevating rod and the light in the vertical direction is installed on both the left and right sides of the elevating rod, and a first energizing block is fixedly attached to the bottom surface of the elevating rod to perform the first energizing. The block and the elevating chamber are slidably mounted, a second energizing block is fixedly mounted in the left inner wall of the elevating chamber, and the moving mechanism moves the elevating rod upward and interlocks with it. The first energizing block is attached to the second energizing block, and the energizing mechanism is energized.

Rotating chambers are installed on both the left and right sides of the alarm box, and a transmission rod is mounted in the front inner wall of the rotary chamber so as to be rotatable, and a connecting rod is fixedly attached to the transmission rod to connect the rod. A fixed rod is fixedly attached to the rod, floating balls are fixedly attached to both front and rear sides of the fixed rod, a power generation mechanism is installed behind the rotating chamber, and the floating balls move up and down on the sea surface. The transmission rod rotates, and the power generation mechanism generates power by rotating the transmission rod.

Based on the above technical plan, a floating block is fixedly attached to the alarm box.

Based on the above technical plan, the power generation mechanism includes a ratchet gear chamber installed on the rear side of the rotary chamber, the transmission rod extends rearward and penetrates the front inner wall of the ratchet gear chamber. A ratchet gear is fixedly attached to the rear side surface of the transmission rod, a generator is fixedly attached to the rear inner wall of the ratchet gear chamber, and power is supplied between the generator and the ratchet gear. A rod is fixedly attached, a storage battery is installed on the rear side of the generator, and a first electric wire is connected between the storage battery and the generator.

Based on the above technical plan, the moving mechanism includes a gear chamber installed so as to communicate with both left and right sides of the slide chamber, and a meshing chamber is installed behind the gear chamber, and the gear chamber and the said. A rotary rod is rotatably attached to and from the meshing chamber, a gear is fixedly attached to the front surface of the rotary rod, and the gear and the slide rod are meshed with each other to be rear of the rotary rod. A first bevel gear is fixedly attached to the side surface, a thread chamber is installed above the meshing chamber, and the top wall of the meshing chamber penetrates into the top wall of the thread chamber. The screw rod is attached so as to be rotatable, and a second bevel gear is fixedly attached to the bottom surface of the screw rod, and the second bead gear and the first bevel gear are meshed with each other in the thread chamber. Is attached so that the thread block can slide, the thread block and the screw rod are attached by threads, a moving rod is fixedly attached to one side surface of the thread block, and the moving rod is upward. It extends to and penetrates the top surface of the alarm box, and the moving rod and the alarm box are attached so as to be slidable, and an intermediate rod is fixedly attached between the moving rods on both the left and right sides. The intermediate rod and the elevating rod are attached so as to be slidable, and a stop block is attached to the elevating rod symmetrically and fixedly, and the intermediate rod is positioned between the stop blocks on both the upper and lower sides. doing.

Based on the above technical plan, the energization mechanism includes a rotating block rotatably mounted in the elevating chamber, in which a rectangular chamber is installed and in the rectangular chamber. The auxiliary block is attached so as to be slidable, the auxiliary block is rectangular, the auxiliary rod and the rotating block are attached so as to be slidable , the auxiliary rod and the auxiliary block are fixedly attached, and the first A second electric wire is connected between the two energizing blocks and the storage battery.

Based on the above technical plan, the power chamber is installed in the elevating chamber so as to communicate with each other, the power chamber is fixedly attached to the rectangular chamber, and the power chamber is fixedly attached to the left inner wall of the power chamber. The motor is fixedly attached, the motor rod is fixedly attached to the right side surface of the right-facing output shaft of the motor, and the fourth bevel gear is fixedly attached to the right side surface of the motor rod. The four bevel gears are meshed with the third bead gear, and a third electric wire is connected between the first energizing block and the motor.

Based on the above technical plan, a hinge rod is symmetrically hinged to the fixed base, a limit rod is symmetrically hinged to the alarm box, and the limit rod is connected to the limit rod. The limit chamber is installed, and the limit chamber and the hinge rod are attached so as to be slidable.

Based on the above technical plan, the fixed base is made of antiseptic material and has a large mass.

The beneficial effect of the present invention is: The present invention relies on the buoyancy of the floating block to move and interlock the alarm box upwards when the tide is high, so that the moving mechanism moves and interlocks the lifting rod and the light upwards. After that, the second energizing block sticks to the first energizing block in the energizing mechanism, and the storage battery supplies power to the light and the motor by the third electric wire and the second electric wire, so that the light shines and the motor also The rotating block links the lights to rotate, paying attention to the employees when the tide is high, and ensuring the safety of the employees. The floating balls in the power generation mechanism float on the sea surface, and the floating balls are caused by the waves on the sea surface. It is worth moving up and down, generating electricity with a generator, storing electrical energy in a storage battery with a first wire, and spreading it.

In order to explain the present invention in detail with reference to FIGS. 1 to 6 below and to explain the present invention in a convenient manner, the following directions are defined as follows: FIG. 1 is a front view of the apparatus of the present invention, and is described above and below. The left-right front-back direction and the up-down, left-right front-back direction of the self-projection relationship in FIG. 1 are the same.

FIG. 1 is a schematic configuration diagram of the present invention. FIG. 2 is a schematic cross-sectional configuration in the AA direction in FIG. 1 of the present invention. FIG. 3 is a schematic cross-sectional configuration in the BB direction in FIG. 1 of the present invention. FIG. 4 is an enlarged schematic view of point C in FIG. 1 of the present invention. FIG. 5 is a schematic plan view of the floating block in the present invention. FIG. 6 is a schematic cross-sectional configuration in the DD direction in FIG. 1 of the present invention.

With reference to FIGS. 1 to 6, the alarm device of the marine protected area using the wave energy of the embodiment of the present invention includes an alarm box 22, and a slide chamber 55 opened downward is installed in the alarm box 22. The slide rod 11 is slidably mounted in the slide chamber 55, and the fixing base 12 is fixedly mounted on the bottom surface of the slide rod 11 and opens upward above the slide chamber 55. The elevating chamber 48 is installed, and the elevating rod 25 is slidably attached to the elevating chamber 48, and the light 24 is fixedly attached to the top surface of the elevating rod 25. An energizing mechanism 101 that can energize and illuminate the light 24 is installed below, and the elevating rod 25 and the light 24 can be moved and interlocked in the vertical direction on both the left and right sides of the slide chamber 55. A mechanism 102 is installed, a first energizing block 47 is fixedly attached to the bottom surface of the elevating rod 25, and the first energizing block 47 and the elevating chamber 48 are attached so as to be slidable. A second energizing block 45 is fixedly mounted in the left inner wall of the above, and the moving mechanism 102 moves and interlocks the elevating rod 25 upward, whereby the first energizing block 47 becomes the second energizing block 45. The energizing mechanism 101 is energized, rotating chambers 21 are installed on the left and right sides of the alarm box 22, and the transmission rod 36 is installed in the front inner wall of the rotating chamber 21 so as to be rotatable. A connecting rod 20 is fixedly attached to the transmission rod 36, a fixed rod 54 is fixedly attached to the connecting rod 20, and floating balls 18 are fixedly attached to both front and rear sides of the fixed rod 54. A power generation mechanism 103 is installed on the rear side of the rotary chamber 21, and the floating ball 18 floats up and down on the sea surface, whereby the transmission rod 36 rotates, and the transmission rod 36 rotates to generate the power. The mechanism 103 generates power.

Further, in one embodiment, the floating block 19 is fixedly attached to the alarm box 22.
The floating block 19 provides buoyancy to the alarm box 22, which allows the alarm box 22 to float on the surface of the sea.

Further, in one embodiment, the power generation mechanism 103 includes a ratchet gear chamber 34 installed on the rear side of the rotary chamber 21, and the transmission rod 36 extends rearward to the front inner wall of the ratchet gear chamber 34. A ratchet gear 35 is fixedly attached to the rear side surface of the transmission rod 36, and a generator 33 is fixedly attached to the rear inner wall of the ratchet gear chamber 34 to generate power. A power rod 37 is fixedly attached between the device 33 and the ratchet gear 35, a storage battery 31 is installed behind the generator 33, and a storage battery 31 is installed between the storage battery 31 and the generator 33. The first electric wire 32 is connected,
When a wave is triggered on the sea surface, the floating ball 18 moves upward, the floating ball 18 rotates and interlocks the transmission rod 36 with the connecting rod 20, and the transmission rod 36 is the power rod with the ratchet gear 35. 37 is rotationally interlocked, and the power rod 37 rotates to give power to the generator 33, whereby the generator 33 generates power, the generator 33 generates power, and then the first electric wire 32 provides electric energy. Is stored in the storage battery 31, and when the floating ball 18 moves downward, the transmission rod 36 does not rotate the power rod 37 by the ratchet gear 35.

Further, in one embodiment, the moving mechanism 102 includes a gear chamber 30 installed so as to communicate with the left and right sides of the slide chamber 55, and a meshing chamber 39 is installed on the rear side of the gear chamber 30. A rotary rod 13 is rotatably attached between the gear chamber 30 and the meshing chamber 39, and a gear 29 is fixedly attached to the front surface of the rotary rod 13 so that the gear 29 and the meshing chamber 39 can be rotated. The slide rod 11 is engaged, the first bevel gear 40 is fixedly attached to the rear side surface of the rotating rod 13, and the thread chamber 27 is installed above the meshing chamber 39. A screw rod 17 penetrating the top wall of the meshing chamber 39 is rotatably attached to the top wall of the 27, and a second bevel gear 38 is fixedly attached to the bottom surface of the screw rod 17. The second bevel gear 38 and the first bevel gear 40 are meshed with each other, and the thread block 28 is slidably mounted in the thread chamber 27, and the thread block 28 and the screw rod 17 are attached to each other. Attached by a screw thread, a moving rod 26 is fixedly attached to one side surface of the screw thread block 28, and the moving rod 26 extends upward and penetrates the top surface of the alarm box 22. The rod 26 and the alarm box 22 are attached so as to be slidable, an intermediate rod 61 is fixedly attached between the moving rods 26 on both the left and right sides, and the intermediate rod 61 and the elevating rod 25 can slide. The stop block 23 is vertically symmetrically and fixedly attached to the elevating rod 25, and the intermediate rod 61 is located between the stop blocks 23 on both the upper and lower sides.
When the tide is full, the floating block 19 can move and interlock the alarm box 22 upward so that the slide rod 11 slides in the slide chamber 55 and the slide rod 11 slides into the gear. 29 and the rotary rod 13 are rotationally interlocked, the rotary rod 13 is rotationally interlocked with the screw rod 17 by meshing the first captive gear 40 and the second captive gear 38, and the screw rod 17 is rotated to obtain the screw rod 17. The screw thread block 28 and the moving rod 26 are moved upward, and the moving rod 26 moves and interlocks the elevating rod 25 upward by the intermediate rod 61 and the stopping block 23, whereby the first energizing block. 47 sticks to the second energizing block 45.

Further, in one embodiment, the energizing mechanism 101 includes a rotating block 56 mounted so as to be rotatable in the elevating chamber 48, and a third bevel gear 53 is fixedly attached to the rotating block 56. Attached, a rectangular chamber 51 is installed in the rotating block 56, and the auxiliary block 57 is mounted in the rectangular chamber 51 so as to be slidable. The auxiliary block 57 is rectangular and is fitted with an auxiliary rod 50. The rotating block 56 is attached so as to be slidable , the auxiliary rod 50 and the auxiliary block 57 are fixedly attached, and a second electric wire 60 is provided between the second energizing block 45 and the storage battery 31. Concatenated,
When the second energizing block 45 is attached to the first energizing 47, the storage battery 31 causes the light 24 to illuminate by the second electric wire 60.

Further, in one embodiment, the power chamber 52 is installed so as to communicate with the elevating chamber 48, the power chamber 52 is fixedly attached to the rectangular chamber 51, and the power chamber 52 is fixedly attached. The motor 43 is fixedly mounted in the left inner wall of the motor 43, the motor rod 42 is fixedly mounted on the right side surface of the right-facing output shaft of the motor 43, and the fourth is mounted on the right side surface of the motor rod 42. The bevel gear 41 is fixedly attached, the fourth bevel gear 41 is meshed with the third bead gear 53, and the third electric wire 44 is connected between the first energizing block 47 and the motor 43. ,
When the second energizing block 45 is attached to the first energizing block 47, the storage battery 31 starts the motor 43 by the third electric wire 44, and the motor 43 starts the motor 43 and the fourth umbrella gear. The fourth umbrella gear 41 is rotationally interlocked with the 41, the rotary block 56 is rotationally interlocked by the meshing with the third umbrella gear 53, the rotary block 56 is rotated, and the elevating rod 25 is rotated by the auxiliary block 57. And the light 24 are rotated and interlocked.

Further, in one embodiment, the hinge rod 14 is symmetrically connected to the fixing base 12 by a hinge, and the limit rod 16 is symmetrically connected to the alarm box 22 by a hinge. A limit chamber 15 is installed in the limit rod 16, and the limit chamber 15 and the hinge rod 14 are attached so as to be slidable.
The limit rod 16 and the hinge rod 14 not only improve the stability of the alarm box 22, but also limit the distance that the alarm box 22 moves upward.

Further, in one embodiment, the fixed base 12 is made of an antiseptic material and can be stably placed in an area of a marine protected area having a large mass and a shallow depth.

When a wave is triggered on the sea surface, the floating ball 18 moves upward, the floating ball 18 rotates and interlocks the transmission rod 36 with the connecting rod 20, and the transmission rod 36 is the power rod with the ratchet gear 35. 37 is rotated and interlocked, and the power rod 37 rotates to give power to the generator 33, whereby the generator 33 generates power, the generator 33 generates power, and then the first electric wire 32 generates electric energy. Is stored in the storage battery 31, and when the floating ball 18 moves downward, the transmission rod 36 does not rotate the power rod 37 by the ratchet gear 35, and when the tide is full, the floating block 19 can move and interlock the alarm box 22 upward, whereby the slide rod 11 slides in the slide chamber 55, and the slide rod 11 rotates and interlocks the gear 29 and the rotary rod 13. The rotary rod 13 rotates and interlocks the screw rod 17 by meshing the first gear 40 and the second gear 38, and the screw rod 17 rotates to cause the screw thread block 28 and the moving rod 26. Is moved upward, and the moving rod 26 moves and interlocks the elevating rod 25 upward by the intermediate rod 61 and the stop block 23, whereby the first energizing block 47 is attached to the second energizing block 45. When the second energizing block 45 is attached to the first energizing 47, the storage battery 31 illuminates the light 24 by the second electric wire 60, and the storage battery 31 causes the motor 43 by the third electric wire 44. When the motor 43 is started, the motor rod 42 and the fourth umbrella gear 41 are rotationally interlocked, and the fourth umbrella gear 41 is engaged with the third umbrella gear 53 to rotate and interlock the rotary block 56. The rotation block 56 rotates, and the auxiliary block 57 rotates and interlocks the elevating rod 25 and the light 24.

The beneficial effect of the present invention is: The present invention relies on the buoyancy of the floating block to move and interlock the alarm box upwards when the tide is high, so that the moving mechanism moves the elevating rod and the light upwards. After that, the second energizing block sticks to the first energizing block in the energizing mechanism, and the storage battery supplies power to the light and the motor by the third electric wire and the second electric wire, so that the light shines and the motor also The rotating block rotates the lights to link the lights, and when the tide is full, you can pay attention to the employees and guarantee the safety of the employees. It is worth moving up and down, generating electricity with a generator, storing electrical energy in a storage battery with a first wire, and spreading it.

One of ordinary skill in the art can make various modifications to the above embodiment without departing from the general spirit and concept of the present application. All of these variants should be covered within the scope of protection of this application. The protection plan of this application should be based on the claims of the patent attached to this application.

Claims (8)

A slide chamber that opens downward is installed in the alarm box, including an alarm box, and a slide rod is mounted in the slide chamber so that the slide rod can slide, and a fixing base is fixed to the bottom surface of the slide rod. An elevating chamber that opens upward is installed above the slide chamber, and the elevating rod is installed in the elevating chamber so that it can slide, and a light is fixed to the top surface of the elevating rod. An energizing mechanism that can energize and illuminate the light is installed below the elevating rod, and the elevating rod and the light are moved and interlocked in the vertical direction on both the left and right sides of the slide chamber. A movable mechanism is installed, and a first energizing block is fixedly attached to the bottom surface of the elevating rod so that the first energizing block and the elevating chamber can slide, and the left side of the elevating chamber. A second energizing block is fixedly mounted in the inner wall, and the moving mechanism moves and interlocks the elevating rod upward, whereby the first energizing block is attached to the second energizing block, and the energizing mechanism Is energized, rotating chambers are installed on both the left and right sides of the alarm box, a transmission rod is installed in the front inner wall of the rotating chamber so that it can rotate, and a connecting rod is fixedly attached to the transmission rod. A fixed rod is fixedly attached to the connecting rod, floating balls are fixedly and fixedly attached to both front and rear sides of the fixed rod, and a power generation mechanism is installed to the rear side of the rotating chamber. The floating ball floats up and down on the surface of the sea, whereby the transmission rod rotates, and the rotation of the transmission rod causes the power generation mechanism to generate power. An alarm device in a marine protected area using wave energy. .. The alarm device for a marine protected area that uses wave energy according to claim 1, wherein a floating block is fixedly attached to the alarm box. The power generation mechanism includes a ratchet gear chamber installed on the rear side of the rotary chamber, the transmission rod extends rearward and penetrates the front inner wall of the ratchet gear chamber, and a ratchet on the rear side surface of the transmission rod. Gears are fixedly mounted, a generator is fixedly mounted in the rear inner wall of the ratchet gear chamber, and a power rod is fixedly mounted between the generator and the ratchet gear. The ocean protection using wave energy according to claim 1, wherein a storage battery is installed on the rear side of the generator, and a first electric wire is connected between the storage battery and the generator. Ward alarm. The moving mechanism includes a gear chamber installed so as to communicate with each other on the left and right sides of the slide chamber, a meshing chamber is installed on the rear side of the gear chamber, and rotation is performed between the gear chamber and the meshing chamber. The rod is attached so as to be rotatable, a gear is fixedly attached to the front surface of the rotating rod, the gear and the slide rod are engaged, and a first bevel gear is attached to the rear surface of the rotating rod. It is fixedly attached, a thread chamber is installed above the meshing chamber, and a screw rod penetrating the top wall of the meshing chamber is installed in the top wall of the thread chamber so as to be rotatable. A second bevel gear is fixedly attached to the bottom surface of the screw rod, and the second bevel gear and the first bevel gear are engaged with each other so that the thread block can slide in the thread chamber. The thread block and the screw rod are attached by threads, and a moving rod is fixedly attached to one side surface of the thread block, and the moving rod extends upward to the top of the alarm box. It penetrates the surface and is attached so that the moving rod and the alarm box can slide, and an intermediate rod is fixedly attached between the moving rods on both the left and right sides, and the intermediate rod and the elevating rod Is attached so as to be slidable, the elevating rod is attached with a stop block symmetrically and fixedly, and the intermediate rod is located between the stop blocks on both the upper and lower sides. An alarm device for a marine protected area that uses the wave energy according to claim 1. The energizing mechanism includes a rotating block mounted so as to be rotatable in the elevating chamber, a rectangular chamber is installed in the rotating block, and an auxiliary block is slidably mounted in the rectangular chamber. The auxiliary block is rectangular and is attached so that the auxiliary rod and the rotating block can slide , the auxiliary rod and the auxiliary block are fixedly attached, and the second energizing block and the storage battery are attached to each other. The alarm device for a marine protected area that uses wave energy according to claim 3 , wherein a second electric wire is connected between them. A power chamber is installed in the elevating chamber so as to communicate with each other, the power chamber is fixedly mounted in the rectangular chamber, and a motor is fixedly mounted in the left inner wall of the power chamber. A motor rod is fixedly attached to the right side surface of the right-facing output shaft of the motor, a fourth umbrella gear is fixedly attached to the right side surface of the motor rod, and the fourth umbrella gear is a third umbrella gear. The alarm device for a marine protected area that uses wave energy according to claim 5 , wherein a third electric wire is connected between the first energizing block and the motor. A hinge rod is symmetrically connected to the fixed base by a hinge, a limit rod is symmetrically connected to the alarm box by a hinge, and a limit chamber is installed in the limit rod. The alarm device for a marine protected area using wave energy according to claim 1, wherein the limit chamber and the hinge rod are attached so as to be slidable. The alarm device for a marine protected area that uses wave energy according to claim 1, wherein the fixed base is made of an antiseptic material and has a large mass.

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