CN112082099A

CN112082099A - Marine environment detection lamp capable of preventing water flow impact from releasing hands

Info

Publication number: CN112082099A
Application number: CN202011105887.2A
Authority: CN
Inventors: 刘欣艳
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-10-15
Filing date: 2020-10-15
Publication date: 2020-12-15
Anticipated expiration: 2040-10-15
Also published as: CN112082099B

Abstract

The invention provides a marine environment detection lamp for preventing water flow from impacting and releasing hands, which comprises a main body and a handle, wherein the front end of the main body is fixedly connected with an illuminating lamp to generate light to illuminate and detect a specified area; the limiting block is inserted and embedded at the middle part of the handle through two ends of the limiting block and is close to the surfaces of the two ends. This kind of prevent that rivers from strikeing marine environment detection lamp of taking off hand is provided with the stopper, can drive its stopper through the stopper and pull the removal to both sides because rivers strike when rotatory at the rotation axis because of, because pull to the stopper and let middle part combination piece laminating carry out the crisscross lift each other of application of force formation recess in the hand for can carry out further laminating and injecing to make it can not take off the hand easily to the hand when taking place rivers when holding its handle.

Description

Marine environment detection lamp capable of preventing water flow impact from releasing hands

Technical Field

The invention relates to the technical field of marine environment detection, in particular to a marine environment detection lamp.

Background

Marine environments refer to the vast continuum of the ocean and oceans of the general water space on earth. Including seawater, substances dissolved and suspended in seawater, seafloor sediments and marine life. Is a living cradle and a human resource treasure house. And wherein there is the pilot lamp among the instrument that is used for marine environment, can let the dive personnel illuminate through the pilot lamp and make its monitoring more comprehensive and convenient to appointed region in the sea, but present pilot lamp all carries out direct contact control through the dive personnel, and can lead to so when taking place rivers change impact to cause it to take off hand.

Disclosure of Invention

The invention aims to solve the technical problem that a marine environment detection lamp is easy to fall off due to the impact of the change of water flow when searchlighting monitoring is carried out at the water bottom.

The purpose and the effect of the marine environment detection lamp for preventing water flow from impacting and falling off the hand are achieved by the following specific technical means:

a marine environment detection lamp for preventing water flow from impacting and releasing hands comprises a main body and a handle, wherein the front end of the main body is fixedly connected with an illuminating lamp to generate light rays to illuminate and detect a specified area, and the main body is taken and controlled by holding the handle fixedly connected with the top end of the main body;

and the limiting blocks are inserted and embedded at the two ends of the limiting blocks and are close to the surfaces of the two ends of the handle.

Further preferred embodiments: the handle comprises;

the rotary shaft is a round shaft with the smaller diameter at the middle part of the handle, and the peripheral surface of the round shaft of the rotary shaft is provided with a thread-shaped groove mark;

the displacement ring is a ring which is sleeved and embedded around the rotating shaft close to two ends, and the inner wall surface of the displacement ring is provided with a groove mark which is embedded with the surface of the rotating shaft;

the embedded shaft is a circular shaft with a smaller diameter, one end of the rotating shaft is connected with the main body, and the circular shaft of the embedded shaft is embedded in the groove on the surface of one side of the main body;

the separating shaft is a circular ring which is sleeved and embedded on the periphery of the middle part of the rotating shaft and has a larger diameter;

the impact shaft is a disk with larger diameter and fixedly connected with the other end of the rotating shaft.

Further preferred embodiments: the rotating shaft comprises;

the limiting groove is a circular groove with smaller diameter and is formed in the middle of the rotating shaft close to two sides.

Further preferred embodiments: the separating shaft comprises;

the limiting ring is a circular ring-shaped bulge at two ends of the hollow inner wall in the middle of the separating shaft, the circular ring bulge width of the limiting ring is embedded with the groove width of the limiting groove, and the bulge thickness of the limiting ring is larger than the groove height of the limiting groove.

Further preferred embodiments: the impact shaft comprises;

the impact block is a triangular lug which is arranged in a bent and inclined manner on the peripheral surface of the impact shaft in one direction;

the bending groove is an arc groove at which the impact block is obliquely bent towards one side.

Further preferred embodiments: the limiting block comprises a limiting block body;

the connecting arc groove is an arc-shaped groove formed by connecting the top ends of inclined plates at two ends of the limiting block with the displacement ring part in an embedded manner;

the inclined shaft is a circular shaft which is connected with the bottom end of the arc groove inclined plate and the middle part of the limiting block;

the combined block is a rectangular square block which is formed by mutually connecting and combining a plurality of limiting blocks at the middle part of the limiting block into a plane at the middle part of the limiting block.

Further preferred embodiments: the combination block comprises;

the lifting groove is a hollow part, one side surface of the combination block extends through the long hair-shaped groove, and the inner part of the hollow part is a round shaft-shaped groove;

the lifting shaft is a round shaft which is embedded in the surface of the other side of the combined block, the peripheral surface of the round shaft of the lifting shaft and the inner wall of the lifting groove are provided with embedded thread-shaped groove marks, and the bottom end of the lifting shaft is connected with the bottom end of the lifting groove through a spring.

Has the advantages that:

(1) this kind of prevent that rivers from strikeing marine environment detection lamp of taking off hand is provided with the stopper, can drive its stopper through the stopper and pull the removal to both sides because rivers strike when rotatory at the rotation axis because of, because pull to the stopper and let middle part combination piece laminating carry out the crisscross lift each other of application of force formation recess in the hand for can carry out further laminating and injecing to make it can not take off the hand easily to the hand when taking place rivers when holding its handle.

(2) The device is provided with the partition shaft, can not exert an influence to its rotation at the part that the rotation axis was held to the hand because water flow impact is rotatory through the partition shaft, also lets the rotation of rotation axis can not receive the unable rotation of renting because of the hand grip simultaneously for the rotation of rotation axis is more smooth and easy can not because of the friction card is pause.

Drawings

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

Fig. 2 is a schematic view showing the entire structure of the rotating shaft according to the present invention.

Fig. 3 is an enlarged schematic view of the structure at a in fig. 2 according to the present invention.

Fig. 4 is a schematic view of the overall structure of the impact shaft of the present invention.

FIG. 5 is a schematic view of the overall structure of the stopper of the present invention.

Fig. 6 is an enlarged view of the structure at B in fig. 5 according to the present invention.

In FIGS. 1-6: the main body 1, the illuminating lamp 101, the handle 2, the rotating shaft 201, the limit groove 2011, the displacement ring 202, the embedding shaft 203, the separating shaft 204, the limit ring 2041, the impact shaft 205, the impact block 2051, the bending groove 2052, the limit block 3, the connecting arc groove 301, the deflection shaft 302, the combination block 303, the lifting groove 3031 and the lifting shaft 3032.

Detailed Description

As shown in figures 1 to 6:

the invention provides a marine environment detection lamp for preventing water flow from impacting and releasing hands, which comprises a main body 1 and a handle 2, wherein the front end of the main body 1 is fixedly connected with an illuminating lamp 101 to generate light rays to illuminate and detect a specified area, and the main body 1 is used for taking and controlling the main body 1 by holding the handle 2 fixedly connected with the top end of the main body 1;

the limiting block 3 is embedded in the middle of the handle 2 through two ends of the limiting block 3 in an inserting and combining mode and is close to the surfaces of the two ends.

Wherein, the grip 2 comprises;

a rotating shaft 201, wherein the rotating shaft 201 is a round shaft with a smaller diameter at the middle part of the handle 2, and the peripheral surface of the round shaft of the rotating shaft 201 is provided with a thread-shaped groove mark;

a displacement ring 202, wherein the displacement ring 202 is a circular ring which is sleeved and embedded around the two ends of the rotating shaft 201, and the inner wall surface of the displacement ring 202 is provided with a groove mark which is embedded with the surface of the rotating shaft 201; when the displacement ring 202 is displaced to both sides, the inclined plates of the connecting arc grooves 301 connected to the periphery are driven to perform inclined movement.

A fitting shaft 203, wherein the fitting shaft 203 is a circular shaft with a smaller diameter and one end of the rotating shaft 201 is connected with the main body 1, and the circular shaft of the fitting shaft 203 is fitted in a groove on one side surface of the main body 1;

a partition shaft 204, wherein the partition shaft 204 is a circular ring which is sleeved and embedded on the periphery of the middle part of the rotating shaft 201 and has a larger diameter; when the impact shaft 205 rotates, the middle rotating shaft 201 is driven to rotate together, and when the impact shaft 205 rotates, the groove marks arranged on the peripheral surface of the impact shaft are embedded with the groove marks on the inner wall of the displacement ring 202, so that the displacement ring 202 is driven to move towards two sides along the peripheral surface of the rotating shaft 201.

The impact shaft 205, the impact shaft 205 is a disk with a larger diameter fixedly connected with the other end of the rotating shaft 201.

Wherein, the rotating shaft 201 comprises;

the limiting groove 2011 and the limiting groove 2011 are circular grooves with smaller diameters, which are close to two sides, in the middle of the rotating shaft 201.

Wherein, the partition shaft 204 comprises;

the limiting ring 2041 and the limiting ring 2041 are annular protrusions at two ends of the hollow inner wall in the middle of the separating shaft 204, the annular protrusion width of the limiting ring 2041 is embedded with the groove width of the limiting groove 2011, and the protrusion thickness of the limiting ring 2041 is greater than the groove height of the limiting groove 2011.

Wherein, the impact shaft 205 comprises;

an impact block 2051, wherein the impact block 2051 is a triangular bump whose peripheral surface of the impact shaft 205 is bent and inclined in one direction; because the curved groove 2052 on one side of the impact block 2051 on the peripheral surface of the impact shaft 205 receives the impact force of the water flow better, the impact shaft 205 is forced to apply force to the impact block 2051 to drive the impact shaft 205 to rotate.

The curved groove 2052, the curved groove 2052 is an arc groove at a position where the impact piece 2051 is obliquely curved to one side.

Wherein, the limited block 3 comprises;

the connecting arc groove 301 is an arc-shaped groove, the top ends of the inclined plates at the two ends of the limiting block 3 are embedded and connected with the displacement ring 202;

the inclined shaft 302 is a circular shaft which is connected with the bottom end of the inclined plate of the arc groove 301 and the middle part of the limiting block 3; when the inclined plate connected with the arc groove 301 obliquely moves towards two sides, the bottom end is connected with the middle part of the limiting block 3 through the inclined shaft 302, so that the middle part of the limiting block 3 can be stretched to lift the hand to be more tightly attached when the inclined plate connected with the arc groove 301 obliquely moves towards two sides, and the hand is more stably limited.

The combined block 303 is a rectangular square block formed by mutually connecting and combining a plurality of blocks in the middle of the limiting block 3 to form a plane in the middle of the limiting block 3. When the middle part of stopper 3 promotes when laminating to the hand, the combination piece 303 at middle part can support on the hand, the continuous promotion of middle part through stopper 3 lets combination piece 303 can support and apply force at the hand, force combination piece 303 can carry out mutual lift according to the recess on its hand and form the recess gomphosis, and the mutual lift between combination piece 303 is through the lift axle 3032 gomphosis of its one side carry out the lift removal in the lift groove 3031 of another combination piece 303 one side, make combination piece 303 can mutual lift form the recess and laminate the hand surface, make stopper 3 can be better carry out spacing fixed when laminating to the hand because rivers impact, make rivers can not easily take off the hand when taking place to change the impact.

Wherein, the combination block 303 comprises;

the lifting groove 3031, the lifting groove 3031 is a hollow part of one side surface of the combination block 303, which extends into the inner part through the long hair-shaped groove to form a round shaft-shaped groove;

the lifting shaft 3032 and the lifting shaft 3032 are round shafts which are embedded on the other side surface of the combination block 303, the peripheral surface of the round shaft of the lifting shaft 3032 and the inner wall of the lifting groove 3031 are provided with embedded thread-shaped groove marks, and the bottom end of the lifting shaft 3032 is connected with the bottom end of the lifting groove 3031 through a spring.

The working principle is as follows:

the specific use mode and action of the embodiment are that firstly, the illuminating lamp 101 at the front end of the main body 1 is communicated with the power supply to enable the illuminating lamp 101 to irradiate light, then the main body 1 is controlled by holding the grip 2 to control the light to irradiate the light to a specified area underwater for illumination, when the grip 2 is controlled by holding, if the water is impacted, the water impacts the impact shaft 205 at one end of the grip 2, because the curved groove 2052 at one side of the impact block 2051 on the peripheral surface of the impact shaft 205 better receives the impact force of the water flow, the impact block 2051 is forced to apply force to drive the impact shaft 205 to rotate, when the impact shaft 205 rotates, the middle rotating shaft 201 is driven to rotate together, and when the impact shaft 205 rotates, the groove marks arranged on the peripheral surface are embedded with the groove marks on the inner wall of the displacement ring 202, the displacement ring 202 is driven to move towards two sides along the peripheral surface of the rotating shaft 201, meanwhile, the displacement ring 202 drives the inclined plates of the connecting arc grooves 301 connected to the periphery to move obliquely when moving towards two sides, when the inclined plates of the connecting arc grooves 301 move towards two sides, the bottom ends of the inclined plates are connected with the middle parts of the limiting blocks 3 through the inclined shafts 302, so that the middle parts of the limiting blocks 3 can be stretched to be more tightly attached to hands when the inclined plates of the connecting arc grooves 301 move towards two sides, the hands can be more stably limited, meanwhile, when the rotating shaft 201 rotates, a diver can control the inclined plates by holding the separating shaft 204 on the rotating shaft 201, and a certain gap is reserved between the hollow parts of the inner wall of the separating shaft 204 and the peripheral surface of the rotating shaft 201 through the embedding of the limiting rings 2041 at two ends of the separating shaft 204 and the limiting grooves 2011, the separation shaft 204 is not affected when the rotation shaft 201 rotates, the rotation of the rotation shaft 201 is not affected when a person who dives holds the handle 2, finally, when the middle part of the limiting block 3 is lifted and attached to a hand, the combination block 303 in the middle part is supported to the hand, the combination block 303 is supported to the hand to apply force through continuous lifting of the middle part of the limiting block 3, the combination block 303 is forced to mutually lift according to a groove on the hand to form groove embedding, the combination blocks 303 lift up and down mutually, the lifting shaft 3032 on one side is embedded in the lifting groove 3031 on one side of the other combination block 303 to move up and down, the combination blocks 303 can mutually lift up and down to form a groove to be attached to the surface of the hand, and the limiting block 3 can better limit and fix when lifting and attaching to the hand due to water flow impact, so that the main body 1 cannot easily fall off the hand when the water flow is changed and impacted.

Claims

1. A marine environment detection lamp for preventing water flow from impacting and releasing hands comprises a main body (1) and a handle (2), wherein the front end of the main body (1) is fixedly connected with an illuminating lamp (101) to generate light rays to illuminate and detect a specified area, the main body (1) is used for taking and controlling the main body (1) by holding the handle (2) fixedly connected with the top end of the main body (1), and the marine environment detection lamp is characterized in that the handle (2) is fixedly connected with the top end of the main body;

the limiting block (3) is embedded in the middle of the handle (2) through the two ends of the limiting block (3) in an inserting and combining mode and is close to the surfaces of the two ends.

2. The marine environment detection lamp for preventing water flow from impacting and releasing hands of claim 1, wherein: the handle (2) comprises;

the rotary shaft (201), the said rotary shaft (201) is the round shaft with smaller diameter of the middle part of the grip (2), and there are thread-like groove marks on the surface around the round shaft of the rotary shaft (201);

the displacement ring (202) is a circular ring which is sleeved and embedded around the rotating shaft (201) close to two ends, and the inner wall surface of the displacement ring (202) is provided with a groove mark which is embedded with the surface of the rotating shaft (201);

the embedded shaft (203) is a circular shaft with a smaller diameter, one end of the rotating shaft (201) is connected with the main body (1), and the circular shaft of the embedded shaft (203) is embedded in a groove on one side surface of the main body (1);

the separating shaft (204) is a circular ring which is sleeved and embedded on the periphery of the middle part of the rotating shaft (201) and has a larger diameter;

the impact shaft (205) is a disc with a larger diameter and fixedly connected with the other end of the rotating shaft (201).

3. The marine environment detection lamp for preventing water flow from impacting and releasing hands of claim 2, wherein: the rotating shaft (201) comprises;

spacing groove (2011), spacing groove (2011) are the ring form recess that both sides are littleer for rotation axis (201) middle part is close to.

4. The marine environment detection lamp for preventing water flow from impacting and releasing hands of claim 2, wherein: the separation shaft (204) comprises;

spacing ring (2041), spacing ring (2041) are the annular arch for separating axle (204) middle part cavity inner wall both ends, and spacing ring (2041) ring bulge width is than spacing groove (2011) groove width looks gomphosis, and spacing ring (2041) protruding thickness is than spacing groove (2011) groove height simultaneously and is wanting greatly.

5. The marine environment detection lamp for preventing water flow from impacting and releasing hands of claim 2, wherein: the impact shaft (205) comprises;

the impact block (2051), the impact block (2051) is a triangular bump which is arranged by bending and inclining the peripheral surface of the impact shaft (205) towards one direction;

the bending groove (2052) is an arc groove at which the impact block (2051) is obliquely bent towards one side.

6. The marine environment detection lamp for preventing water flow from impacting and releasing hands of claim 1, wherein: the limiting block (3) comprises a limiting block;

the connecting arc groove (301) is an arc-shaped groove formed by partially embedding and connecting the top ends of inclined plates at two ends of the limiting block (3) and the displacement ring (202);

the inclined shaft (302) is a circular shaft which is connected with the bottom end of the inclined plate of the arc groove (301) and the middle part of the limiting block (3);

the combined block (303) is a rectangular square block which is formed by mutually connecting and combining a plurality of middle parts of the limiting blocks (3) into a middle plane of the limiting blocks (3).

7. The marine environment detection lamp for preventing water flow from impacting and releasing hands of claim 6, wherein: the combination block (303) comprises;

the lifting groove (3031) is a hollow part, one side surface of the combination block (303) extends through the long hair-shaped groove, and the inner part of the hollow part is a round shaft-shaped groove;

the lifting shaft (3032) is a round shaft which is embedded on the other side surface of the combination block (303), the peripheral surface of the round shaft of the lifting shaft (3032) and the inner wall of the lifting groove (3031) are provided with embedded thread-shaped groove marks, and the bottom end of the lifting shaft (3032) is connected with the bottom end of the lifting groove (3031) through a spring.