CN218954569U - A regional monitoring device for marine organism diversity protection - Google Patents

Abstract

The utility model relates to a regional monitoring devices for marine organism diversity protection, it includes the base and installs in the monitoring module of base, the base is provided with anchor subassembly, anchor subassembly includes inserted bar and a plurality of reinforcement pin, the inserted bar is connected in the base and is used for penetrating inside the seabed, the reinforcement pin wears to establish and slide and connect in the inserted bar, the reinforcement pin is used for penetrating inside the seabed from the inserted bar side, anchor subassembly is still including the control piece that is used for controlling the reinforcement pin and slides. This application has the effect that improves monitoring devices at the convenience of submarine installation and dismantlement.

Description

A regional monitoring device for marine organism diversity protection

Technical Field

The application relates to the field of marine organism diversity monitoring technology, in particular to a regional monitoring device for marine organism diversity protection.

Background

Today, in the form of marine pollution, people often make marine organism protection programs to protect the diversity of marine organisms. Therefore, it is particularly important to provide a monitoring device in a protection area of marine organism diversity to monitor the marine organism diversity. Wherein, monitoring devices generally include the base and install in the monitoring component of base, during the use, with the base through a plurality of bolts or screw fixation in the seabed for detection component can monitor the condition of marine organism diversity.

When the monitoring device needs to be disassembled or placed in other protection areas, the bolts or the screws on the base are easy to rust, and meanwhile, the working environment is located on the sea floor, so that the whole monitoring device is relatively difficult to disassemble and subsequently install, and inconvenience is brought to staff.

Disclosure of Invention

In order to improve the convenience of monitoring devices at submarine installation and dismantlement, this application provides a regional monitoring device for marine organism diversity protection.

The application provides a regional monitoring device for marine organism diversity protection adopts following technical scheme:

the utility model provides a regional monitoring devices for marine organism diversity protection, includes the base and installs in the monitoring module of base, the base is provided with anchor subassembly, anchor subassembly includes inserted bar and a plurality of reinforcement round pin, the inserted bar is connected in the base and is used for penetrating inside the seabed, the reinforcement round pin wears to establish and slide and connect in the inserted bar, the reinforcement round pin is used for penetrating inside the seabed from the inserted bar side, anchor subassembly is still including the control piece that is used for controlling the reinforcement round pin and slides.

Through adopting above-mentioned technical scheme, during the installation, wear to locate the seabed with the inserted bar of base below, consolidate the round pin towards the outside slip of inserted bar through the control later to penetrate the seabed soil body of inserted bar side, and then under the effect of inserted bar and reinforcement round pin, comparatively firm installation in the seabed with base and monitoring module, during the dismantlement, only need consolidate the round pin through the control reverse movement, directly pull up the base later can, make the inserted bar break away from the seabed, and then dismantle monitoring device wholly, and make monitoring device wholly comparatively convenient when installation and dismantlement.

Optionally, the end of the plunger facing the sea floor and the end of the reinforcing pin facing the sea floor are provided as a pointed structure.

Through adopting above-mentioned technical scheme, can improve the inserted bar and consolidate the convenience of round pin when wearing to establish the seabed soil body.

Optionally, the control piece includes screw rod and control block, the screw rod extends along inserted bar length direction, just the screw rod rotates to be connected in the inserted bar, the control block sets up to frustum form structure, the control block is established with the axle sleeve and threaded connection in the screw rod, the control block slides and connects in the inserted bar, consolidate the inclined plane that the round pin connects in the control block.

Through adopting above-mentioned technical scheme, after the inserted bar penetrated the seabed soil body, rotate the screw rod for the screw rod can drive the control block and slide, and then promotes through the control block and consolidate the round pin and slide towards the inserted bar outside, with consolidate the round pin and wear to locate the seabed soil body, wholly be fixed in the seabed with monitoring devices.

Optionally, the inclined plane on the control block is provided with a clamping groove, the clamping groove extends along the inclined direction of the inclined plane, the clamping groove is provided with a stepped groove or a dovetail groove with a small end opening, and the reinforcing pin is clamped and connected in a sliding manner to the clamping groove.

Through adopting above-mentioned technical scheme, when dismantling monitoring devices, reverse rotation screw rod, and then drive control block reverse slip, then under the effect of draw-in groove, can pull the reinforcement round pin and withdraw the inserted bar inside, and then remove the restriction to the inserted bar, the inserted bar of being convenient for pulls out from the seabed, the dismantlement of base of being convenient for.

Optionally, the anchor subassembly is provided with a plurality ofly on the base, each the equal coaxial fixedly connected with driven gear of screw rod, the base rotates and is connected with the transmission ring gear, the transmission ring gear meshes in a plurality of driven gears simultaneously.

Through adopting above-mentioned technical scheme, during the installation, wear to locate submarine soil body with a plurality of inserted bars after, rotate the transmission ring gear and can control a plurality of driven gears rotation simultaneously, and then the reinforcement round pin in a plurality of anchor assemblies of simultaneous control is flexible, and then when increasing monitoring devices overall installation steadiness, ensure the convenience of installation and dismantlement.

Optionally, the base rotates and is connected with the driving gear, the driving gear meshes in the transmission ring gear, the coaxial fixedly connected with control handle of driving gear, control handle is located the base outside.

Through adopting above-mentioned technical scheme, during the use, hand control handle can control the transmission ring gear, increases the result of use.

Optionally, the base is provided with a balancing weight.

Through adopting above-mentioned technical scheme, the balancing weight of setting can make the base have the subsidence and order about for monitoring devices whole can be comparatively firm be located the seabed, reduce the buoyancy that the anchor subassembly received, the steadiness when further increasing monitoring devices installation.

Optionally, the base is provided with a plurality of handholds.

Through adopting above-mentioned technical scheme, the handheld portion of setting is convenient for the handheld monitoring devices of staff, further improves monitoring devices's convenience when installation and dismantlement.

In summary, the present application includes at least one of the following beneficial technical effects:

1. during installation, the inserted link below the base is penetrated into the seabed, then the reinforcing pin is controlled by the control piece to slide towards the outside of the inserted link, and penetrates into the seabed soil body at the side of the inserted link, so that the base and the monitoring assembly are relatively firmly installed on the seabed;

2. during installation, after penetrating the seabed soil body with a plurality of inserted bars, rotate the transmission ring gear and can control a plurality of driven gears rotation simultaneously, and then the reinforcement round pin in a plurality of anchor assemblies of simultaneous control stretches out and draws back, and then when increasing monitoring devices overall installation steadiness, ensure the convenience of installation and dismantlement.

Drawings

FIG. 1 is a schematic diagram of an embodiment of the present application;

FIG. 2 is a schematic view of a partial cross-sectional structure of a base of an embodiment of the present application;

fig. 3 is an enlarged schematic view of the portion a in fig. 2.

Reference numerals illustrate: 1. a base; 2. a monitoring component; 3. an anchor assembly; 31. a rod; 32. a reinforcing pin; 33. a control member; 331. a screw; 332. a control block; 333. a clamping groove; 4. a driven gear; 5. a drive ring gear; 6. a drive gear; 61. a control handle; 7. balancing weight; 8. a hand-held part.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-3.

The embodiment of the application discloses a regional monitoring device for marine organism diversity protection. Referring to fig. 1 and 2, an area monitoring device for marine organism diversity protection includes a base 1 and a monitoring assembly 2, wherein the monitoring assembly 2 can monitor marine organism diversity, and the monitoring assembly 2 is installed at the upper end of the base 1. At this time, the base 1 is provided with the anchor assembly 3, and the anchor assembly 3 includes inserted bar 31 and a plurality of reinforcement pin 32, and the vertical extension of inserted bar 31 and upper end fixed connection are in the terminal surface under the base 1, and reinforcement pin 32 wears to establish along the radial of inserted bar 31 and slide and connect in inserted bar 31. The anchor assembly 3 further comprises a control member 33, the control member 33 being able to control the sliding movement of the reinforcement pin 32.

Meanwhile, the upper end of the base 1 is fixedly connected with a balancing weight 7, and the side edge of the base 1 is fixedly connected with a plurality of handheld parts 8.

During installation, the inserted link 31 below the base 1 is penetrated at the seabed, then the reinforcing pin 32 is controlled by the control piece 33 to slide towards the outside of the inserted link 31, and penetrates into the seabed soil body at the side of the inserted link 31, so that the base 1 and the monitoring assembly 2 are relatively stably installed at the seabed under the actions of the inserted link 31 and the reinforcing pin 32. During disassembly, only the control piece 33 is used for controlling the reinforcement pin 32 to reversely move, and then the base 1 is directly pulled up, so that the inserted rod 31 is separated from the seabed, and the whole monitoring device is disassembled. And make monitoring devices whole comparatively convenient when the installation is dismantled.

The balancing weight 7 that sets up can make base 1 have the subsidence and order about for monitoring devices whole comparatively firm being located the seabed, the buoyancy that reduces anchor assembly 3 received further increases the steadiness when monitoring devices installs. The handheld portion 8 that sets up, the staff of being convenient for holds monitoring devices, further improves monitoring devices's convenience when installation and dismantlement.

Referring to fig. 1 and 2, in order to improve convenience of the insert rod 31 and the reinforcing pin 32 when penetrating through the seabed soil, one end of the insert rod 31 facing the seabed and one end of the reinforcing pin 32 facing the seabed are each provided with a tip structure.

Referring to fig. 2 and 3, the control member 33 includes a screw 331 and a control block 332, the screw 331 extending along the length of the insert 31, the screw 331 being located inside the insert 31 and rotatably coupled to the insert 31. The control block 332 is configured as a frustum-shaped structure, the control block 332 is sleeved and slidingly connected to the screw 331, and the control block 332 is clamped and slidingly connected to the insert rod 31 along the length direction of the insert rod 31. The inclined plane on the control block 332 is provided with a plurality of clamping grooves 333, the clamping grooves 333 extend along the inclined direction of the inclined plane, and the clamping grooves 333 are provided as stepped grooves with small end openings, and can be provided as dovetail grooves. The end of the reinforcement pin 32 far away from the seabed soil mass is clamped and slidingly connected in the clamping groove 333.

After the inserted link 31 penetrates into the seabed soil body, the screw 331 is rotated, so that the screw 331 can drive the control block 332 to slide, and then the reinforcing pin 32 is pushed to slide towards the outside of the inserted link 31 by the control block 332, so that the reinforcing pin 32 penetrates into the seabed soil body, and the monitoring device is integrally fixed on the seabed. And when the monitoring device needs to be disassembled, the screw 331 is reversely rotated, the control block 332 is further driven to reversely slide, then under the action of the clamping groove 333, the reinforcing pin 32 can be pulled to retract into the inserted link 31, the limitation on the inserted link 31 is further relieved, the inserted link 31 is conveniently pulled out of the seabed, and the base 1 is conveniently disassembled.

In other embodiments, the screw 331 of the control member 33 may be configured as a push rod fixedly connected to the control member 332, and the push rod is slidingly connected to the inside of the insert rod 31.

Referring to fig. 2, in order to increase the stability of the base 1 mounted on the seabed, the anchor assemblies 3 under the base 1 are provided in plurality. At this time, the screw 331 in each anchoring assembly 3 is coaxially and fixedly connected with the driven gear 4, the inside of the base 1 is rotationally connected with the driving gear ring 5, and the driving gear ring 5 is simultaneously meshed with the driven gears 4. After the plurality of inserted bars 31 penetrate through the seabed soil body, the rotation transmission toothed ring 5 can simultaneously control the rotation of the plurality of driven gears 4, and then simultaneously control the extension and retraction of the reinforcing pins 32 in the plurality of anchor assemblies 3, and further ensure the convenience of installation and disassembly while the overall installation stability of the monitoring device is increased.

Referring to fig. 1 and 2, a driving gear 6 is rotatably connected to the base 1, the driving gear 6 is engaged with the transmission gear ring 5, and the driving gear 6 is also located inside the base 1. At this time, the driving gear 6 is fixedly connected with a control handle 61 coaxially, and the control handle 61 extends out of the base 1. In use, the transmission toothed ring 5 can be controlled by holding the control handle 61, so that the use effect is improved.

The implementation principle of the area monitoring device for marine organism diversity protection is as follows: during installation, a plurality of inserted bars 31 below the base 1 are penetrated on the seabed, and then the control handle 61 is rotated to control the reinforcing pin 32 to slide towards the outside of the inserted bars 31 and penetrate into the seabed soil body at the side of the inserted bars 31, so that the base 1 and the monitoring assembly 2 are relatively stably installed on the seabed under the action of the inserted bars 31 and the reinforcing pins 32. During disassembly, the reinforcing pin 32 can be controlled to reversely move only by reversely rotating the control handle 61, and then the base 1 is directly pulled up, so that the inserted rod 31 is separated from the seabed, and the whole monitoring device is disassembled. And make monitoring devices whole comparatively convenient when the installation is dismantled.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (8)

1. The utility model provides a regional monitoring device for marine organism diversity protection, includes base (1) and installs in monitoring module (2) of base (1), its characterized in that: the base (1) is provided with anchor subassembly (3), anchor subassembly (3) include inserted bar (31) and a plurality of reinforcement round pin (32), inserted bar (31) are connected in base (1) and are used for penetrating inside the seabed, reinforcement round pin (32) wear to establish and slide and connect in inserted bar (31), reinforcement round pin (32) are used for penetrating inside the seabed from inserted bar (31) side, anchor subassembly (3) still include control piece (33) that are used for controlling reinforcement round pin (32) and slide.

2. An area monitoring device for marine biodiversity protection of claim 1, wherein: the end of the inserted link (31) facing the sea floor and the end of the reinforcing pin (32) facing the sea floor are provided as a tip structure.

3. An area monitoring device for marine biodiversity protection of claim 1, wherein: the control piece (33) comprises a screw rod (331) and a control block (332), the screw rod (331) extends along the length direction of the inserted link (31), the screw rod (331) is rotationally connected to the inserted link (31), the control block (332) is arranged to be of a frustum-shaped structure, the control block (332) is coaxially sleeved and in threaded connection with the screw rod (331), the control block (332) is slidingly connected to the inserted link (31), and the reinforcing pin (32) is connected to the inclined plane of the control block (332).

4. A regional monitoring device for marine biodiversity protection as claimed in claim 3, wherein: the inclined plane on control block (332) has seted up draw-in groove (333), draw-in groove (333) extend along the incline direction on inclined plane, draw-in groove (333) set up to tip open-ended ladder groove or dovetail, reinforcement pin (32) joint and slip connect in draw-in groove (333).

5. A regional monitoring device for marine biodiversity protection as claimed in claim 3, wherein: the base (1) is provided with a plurality of anchor assemblies (3), each screw rod (331) is coaxially and fixedly connected with a driven gear (4), the base (1) is rotationally connected with a transmission toothed ring (5), and the transmission toothed ring (5) is simultaneously meshed with the driven gears (4).

6. An area monitoring device for marine biodiversity protection of claim 5, wherein: the base (1) is rotationally connected with a driving gear (6), the driving gear (6) is meshed with a transmission toothed ring (5), the driving gear (6) is coaxially and fixedly connected with a control handle (61), and the control handle (61) is positioned outside the base (1).

7. An area monitoring device for marine biodiversity protection of claim 1, wherein: the base (1) is provided with a balancing weight (7).

8. An area monitoring device for marine biodiversity protection of claim 1, wherein: the base (1) is provided with a plurality of handhold parts (8).

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