CN114136401A - Electronic device for forecasting water depth of bathing beach - Google Patents

Abstract

The invention discloses an electronic device for forecasting the water depth of a bathing beach, which relates to the technical field of ocean monitoring and forecasting and comprises a floating device, wherein a propeller is arranged on the floating device, the accuracy of water depth measurement can be influenced when the floating device deviates on the sea surface, the propeller moves to drive the floating device to recover the normal position so as to detect the sea water, a fixing device is arranged at the lower end of the floating device, the fixing device is placed on the sea bottom through a rope on the floating device, a drill bit is arranged in the fixing device, and when the fixing device is contacted with the sea bottom, the drill bit works to fix the fixing device on the sea bottom.

Description

Electronic device for forecasting water depth of bathing beach

Technical Field

The invention relates to the technical field of ocean monitoring, in particular to an electronic device for forecasting the water depth of a bathing beach.

Background

In summer and autumn, people want to blow cool sea wind to the seaside in hot weather, and guests visiting the seaside want to wash a fast-pain sea bath and enjoy a full-bodied seafood banquet. The bathing beach becomes a good place for common people, not only meets the requirements of playing, but also meets the greedy desire of people eating goods. The bay in one of the continuous cloud harbors has a plurality of bathing beaches, the largest is in the west continuous island, the transportation is convenient, the position is suitable, the facility is complete, and the water is clear and fine. Tent, sun umbrella scale ratio on the sandy beach, swimsuit is the colourful and six in the shallow water, just as inlay a beautiful garland for the sea, in the in-process that everybody plays, and safety is also a rule that is not neglected, and the sea bathing place depth of water level often changes, and some people who play here are too little to know, easily takes place the accident.

Patent with application number CN201711457725.3 discloses a method and a device for detecting seawater depth, the method comprises: determining at least two detection sampling points in a sea area to be detected, and acquiring the seawater depth of each detection sampling point; aiming at each point to be detected in the sea area to be detected, creating a rectangular coordinate system positioned on the sea level, enabling the point to be detected to be positioned at the origin of the rectangular coordinate system, and determining the coordinate value of each detection sampling point in the rectangular coordinate system; constructing a kriging function according to the coordinate values of the detection sampling points and the seawater depth; solving the kriging function to obtain a variable matrix; and calculating the depth of the seawater corresponding to the point to be detected according to the variable matrix. The seawater measuring device is complicated in seawater measurement, and the variable of seawater can cause inaccuracy of data test in the measuring process.

Disclosure of Invention

The technical problem to be solved by the invention is to provide a function capable of automatically moving and accurately detecting the depth of seawater aiming at the defects in the prior art, and overcome the working problem that the depth of seawater is obtained by calculating through putting a device into the seawater in the prior art.

The technical scheme adopted by the invention for solving the technical problems is as follows: the invention relates to an electronic device for forecasting the water depth of a bathing beach, which comprises a floating device and a fixing device arranged below the floating device, wherein the floating device comprises a floating disc, rotating gears are arranged on the side edges of the floating disc, the floating disc is provided with rotating teeth in a sliding manner, the rotating gears are meshed with the rotating teeth, a floating frame is arranged inside the floating disc, a propeller shell is arranged on the floating frame in a sliding manner, a propeller is arranged inside the propeller shell, a lifting gear and a line barrel gear are arranged on the floating frame, the line barrel gear is connected with the propeller through a belt, the lifting gear drives the line barrel gear to rotate, the line barrel gear drives the belt to rotate, the belt drives the propeller to rotate, the rotating gears drive the rotating teeth to rotate, the rotating teeth drive the floating frame to rotate, the floating frame drives the propeller shell to rotate, and drives the floating frame to rotate in multiple directions, so that the invention can move in multiple directions.

Furthermore, the floating device further comprises a sliding block which is slidably mounted on the floating frame and connected with the belt, when the propeller shell slides on the floating frame, the belt drives the sliding block to move, a wire barrel wheel is arranged on the floating frame, a lifting wire is arranged on the wire barrel wheel, a drill bit protection barrel is arranged on the side edge of the floating disc, when the propeller lifts, the rotation of the screw does not stop through the movement of the sliding block, and the sliding block tensions the belt when lifting.

Furthermore, the thread barrel gear is provided with a clamping electric cylinder, the thread barrel gear clamps the thread barrel wheel through the clamping electric cylinder, the lifting wire is provided with a recording wheel, the recording wheel is rotatably installed on the floating disc, the thread barrel gear drives the thread barrel wheel to rotate, the thread barrel wheel drives the lifting wire to move, the lifting wire is tightened through rotation of the thread barrel wheel, and accuracy of water depth detection is guaranteed.

Furthermore, a sensor is arranged on the recording wheel, the recording wheel is driven to rotate when the lifting line moves, and the depth of the seawater is calculated by the recording wheel according to the number of rotation turns of the recording wheel.

Further, the fixing device comprises a fixing table, a middle-end gear is arranged on the fixing table, a driving gear is arranged on the fixing table and meshed with the middle-end gear, a pushing long rod is arranged on the side edge of the middle-end gear in a rotating mode, a sliding plate is arranged on the fixing table in a sliding mode, one end of the pushing long rod is connected to the fixing table in a rotating mode, the other end of the pushing long rod is connected to the sliding plate in a rotating mode, a steering gear is arranged on the side edge of the fixing table, a rotating cone is arranged at the front end of the steering gear, a drill cone gear and a drill cone are arranged at the lower end of the rotating cone in a rotating mode, a drill cone driving gear is arranged at the bottom end of the fixing table, a motor is arranged on the drill cone driving gear, the drill cone driving gear drives the drill cone gear to rotate, the driving gear drives the rotating cone to rotate through the pushing long rod, and drives the rotating cone to enter the sea bottom, and the fixing device fixes the underwater robot in sea integrally.

Furthermore, the sliding plate is provided with a rack, the rack on the sliding plate is meshed with the steering gear, and the sliding plate drives the steering gear to rotate when sliding on the fixed platform.

Further, fixing device still include with lift line fixed connection's slope post, be provided with response spring in the middle-end gear upper end, response spring and slope post connection, the lift line drives the slope post and promotes response spring when flotation device takes place to squint, response spring makes flotation device remove through the skew degree.

Furthermore, the inside spring that is provided with of slope post, through being connected of slope post and lift line, detect lift line elasticity degree, when the too tight or too loose condition of lift line appearance, the line bucket wheel rotates and drives the lift line adjustment.

The working principle of the device is as follows: when the device is operated, the device is placed in seawater, the lifting gear drives the wire barrel gear to rotate, the wire barrel gear drives the wire barrel wheel to rotate, the wire barrel wheel puts down the lifting wire, the lifting wire drives the fixing device to move downwards, the drill bit is pulled out of the drill bit protection barrel, the wire barrel gear drives the belt to rotate, the belt drives the propeller to rotate to move, when the fixing position is reached, the fixing device is placed on the seabed, the driving gear drives the middle end gear to rotate, the middle end gear drives the pushing long rod to move, the pushing long rod drives the sliding plate to slide on the fixing platform, the rack on the sliding plate is meshed with the steering gear to rotate, the steering gear drives the rotating cone to rotate, the rotating cone gear is meshed with the drill bit driving gear, when the drill bit driving gear rotates, the drill bit driving gear drives the drill bit gear to rotate, so that the drill bit is inserted into the seabed, when the floating device is blown by seawater, the lift line drives the skew extrusion response spring of slope post, and response spring conveys skew data to flotation device on, and the flotation device who accepts the data passes through the running gear and drives to change and float the tooth rotation, and the sliding block removes adjustment propeller position simultaneously, and line bucket gear drives the belt and rotates with the propeller, makes flotation device and fixing device keep horizontal position, and the lift line drives the record wheel when the motion and rotates, detects the depth of water through record wheel pivoted number of turns.

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

(1) the invention carries out position transfer in time in the process of detecting seawater through the arranged floating device, so that the fixing device always keeps the horizontal position, and the accurate position of the detected water depth is ensured.

(2) The device is fixed on the seabed through the arranged fixing device, so that the device is prevented from being damaged or separated from a detection position due to the beating of sea waves.

(3) The invention can reflect the offset angle between the floating device and the fixing device in real time through the induction spring on the fixing device, and can carry out rapid adjustment.

Drawings

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

Fig. 2 is a schematic view of the structure of the floating device of the present invention.

Fig. 3 is a partial schematic view of the structure of the flotation device of the present invention.

FIG. 4 is a schematic structural view of a fixing device according to the present invention.

Detailed Description

In the following description of the present invention, it is to be noted that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the following description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; the term "connecting" may be directly or indirectly connected through an intermediate, and those skilled in the art can understand the specific meaning of the above terms in the present invention in a specific case.

The invention will be further described with reference to the drawings and illustrative embodiments, which are provided herein to illustrate and not to limit the invention. In addition, if a detailed description of the known art is not necessary to show the features of the present invention, it is omitted.

Example (b): referring to fig. 1, an electronic device for forecasting the depth of water in a bathing beach is shown, which comprises a floating device 1 for driving the device to move and adjusting the position of the device, and a fixing device 2 for fixing the device on the seabed for work is arranged at the lower end of the floating device 1.

Referring to fig. 2 and 3, the floating device 1 includes a floating plate 101, a rotary gear 102 is disposed on a side of the floating plate 101, a rotary floating tooth 110 is slidably disposed on the floating plate 101, the rotary gear 102 is engaged with the rotary floating tooth 110, a floating frame 103 is disposed inside the floating plate 101, a sliding block 108 and a wire barrel wheel 104 are disposed on the floating frame 103, a lifting wire 109 is disposed on the wire barrel wheel 104, a bit protection barrel 111 is disposed on a side of the floating plate 101, a propeller housing 112 is slidably disposed on the floating frame 103, a propeller 113 is disposed inside the propeller housing 112, a lifting gear 106 and a wire barrel gear 105 are disposed on the floating frame 103, the wire barrel gear 105 is connected to the propeller 113 through a belt, a clamping cylinder is disposed on the wire barrel gear 105, the wire barrel gear 105 clamps the wire barrel wheel 104 through the clamping cylinder, a recording wheel 114 is disposed on the lifting wire 109, the recording wheel 114 is rotatably mounted on the floating plate 101, the lifting gear 106 drives the wire barrel gear 105 to rotate, the wire barrel gear 105 drives the wire barrel wheel 104 to rotate, the lifting wire 109 is put down, the lifting wire 109 drives the fixing device to move downwards, the wire barrel gear 105 drives the belt 107 to rotate, the belt 107 drives the propeller 113 to rotate to move, the fixing device is placed on the seabed, the rotating gear 102 drives the floating teeth 110 to rotate, the position of the propeller is adjusted through the sliding block 108, the wire barrel gear 105 drives the belt 107 and the propeller 113 to rotate, the floating device and the fixing device are kept in a horizontal position, the lifting wire 109 drives the recording wheel 114 to rotate when moving, and the water depth is detected through the number of rotating circles of the recording wheel 114.

Referring to fig. 4, the fixing device 2 includes a fixing table 201, a middle gear 202 is disposed on the fixing table 201, a driving gear 204 is disposed on the fixing table 201, the driving gear 204 is engaged with the middle gear 202, a long pushing rod 205 is rotatably disposed on a side of the middle gear 202, a sliding plate 206 is slidably disposed on the fixing table 201, one end of the long pushing rod 205 is rotatably connected to the fixing table 201, the other end of the long pushing rod 205 is rotatably connected to the sliding plate 206, a steering gear 207 is disposed on a side of the fixing table 201, a rotating cone 208 is disposed at a front end of the steering gear 207, a drill cone gear 209 and a drill cone 210 are rotatably disposed at a lower end of the rotating cone 208, a drill cone driving gear 211 is disposed at a bottom end of the fixing table 201, a rack is disposed on the sliding plate 206, the rack is engaged with the steering gear 207 on the sliding plate 206, a lifting wire 109 is disposed on the inclined column 212, an induction spring 203 is disposed in an upper end of the middle gear 202, the induction spring 203 is connected with the inclined column 212, the driving gear 204 drives the middle end gear 202 to rotate, the middle end gear 202 drives the long pushing rod 205 to move, the long pushing rod 205 drives the sliding plate 206 to slide on the fixed platform 201, a rack on the sliding plate 206 is meshed with the steering gear 207 to rotate, the steering gear 207 drives the rotating cone 208 to rotate, the rotating cone 208 drives the drill cone gear 209 to rotate with the drill cone 210, the drill cone gear 209 is meshed with the drill cone driving gear 211, when the drill cone driving gear 211 rotates, the drill cone driving gear 211 drives the drill cone gear 209 to rotate, the drill cone 210 is inserted into the seabed, when the floating device is blown by seawater, the lifting wire 109 drives the inclined column 212 to deflect and extrude the induction spring 203, and the induction spring 203 transmits deflection data to the floating device.

The present invention is not limited to the above-described embodiments, and those skilled in the art will be able to make various modifications without creative efforts from the above-described conception and fall within the scope of the present invention.

Claims (8)

1. The utility model provides a sea bathing beach depth of water forecast electronic device, includes flotation device, installs the fixing device in flotation device below, its characterized in that: flotation device including floating the dish, it is provided with transmitting gear to float the dish side, it is provided with the rotation tooth to float to slide on the dish, transmitting gear and rotation tooth meshing, float the inside floating frame that is provided with of dish, it is provided with the propeller shell to slide on the floating frame, the inside propeller that is provided with of propeller shell, be provided with lifting gear and line bucket gear on the floating frame, line bucket gear passes through the belt and is connected with the propeller, lifting gear drives line bucket gear revolve, line bucket gear drives the belt and rotates, the belt drives the propeller and rotates, transmitting gear drives and rotates tooth rotation, it drives the floating frame and rotates to rotate tooth, the floating frame drives the propeller shell and rotates.

2. The electronic device for forecasting the water depth of the bathing beach of claim 1, wherein: the floating device further comprises a sliding block which is slidably mounted on the floating frame and connected with the belt, when the propeller shell slides on the floating frame, the belt drives the sliding block to move, a wire barrel wheel is arranged on the floating frame, a lifting wire is arranged on the wire barrel wheel, and a drill bit protection barrel is arranged on the side edge of the floating disc.

3. The electronic device for forecasting the water depth of the bathing beach of claim 2, wherein: the wire barrel gear is provided with a clamping electric cylinder, the wire barrel gear clamps a wire barrel wheel through the clamping electric cylinder, the lifting wire is provided with a recording wheel, the recording wheel is rotatably installed on the floating disc, the wire barrel gear drives the wire barrel wheel to rotate, and the wire barrel wheel drives the lifting wire to move.

4. The electronic device for forecasting the water depth of the bathing beach of claim 3, wherein: the recording wheel is provided with a sensor, the recording wheel is driven to rotate when the lifting line moves, and the recording wheel calculates the depth of the seawater according to the number of rotation turns of the recording wheel.

5. The electronic device for forecasting the water depth of the bathing beach of claim 1, wherein: the fixing device include the fixed station, be provided with the middle-end gear on the fixed station, be provided with drive gear on the fixed station, drive gear and middle-end gear engagement, middle-end gear side rotates and is provided with the promotion stock, it is provided with the sliding plate to slide on the fixed station, promotion stock one end is rotated and is connected on the fixed station, it rotates and connects on the sliding plate to promote the stock other end, the fixed station side is provided with steering gear, the steering gear front end is provided with rotates the awl, it is provided with drill cone gear and drill cone to rotate the awl lower extreme rotation, the fixed station bottom is provided with drill cone drive gear, be provided with the motor on the drill cone drive gear, drill cone drive gear drives drill cone gear and rotates, drive gear drives the middle-end gear and rotates, the middle-end gear drives through promoting the stock and rotates the rotation awl.

6. The electronic device for forecasting the water depth of the bathing beach of claim 5, wherein: the sliding plate is provided with a rack, the rack on the sliding plate is meshed with the steering gear, and the sliding plate drives the steering gear to rotate when sliding on the fixed platform.

7. The electronic device for forecasting the water depth of the bathing beach of claim 6, wherein: the fixing device further comprises an inclined column fixedly connected with the lifting line, an induction spring is arranged in the upper end of the middle-end gear and connected with the inclined column, the lifting line drives the inclined column to push the induction spring when the floating device is deviated, and the induction spring enables the floating device to move through the deviation degree.

8. The electronic device for forecasting the water depth of the bathing beach of claim 7, wherein: the inclined column is internally provided with a spring, and the tightness degree of the lifting line is detected through the connection of the inclined column and the lifting line.

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