CN217994729U - Disposable flow measuring buoy - Google Patents

Abstract

The utility model belongs to the technical field of measure the buoy, a disposable flow measurement buoy is disclosed, including the buoy main part, the water inlet has been seted up to the top of buoy main part, the inside of buoy main part is provided with deposits equipment, be connected with the linkage piece around the buoy main part. This disposable flow measurement buoy, be provided with through the inside at the buoy main part and deposit equipment, carry out the in-process that contacts when depositing equipment and rivers, phosphor powder flows along rivers, thereby inform staff's buoy main part's position, and phosphor powder is disposable packing, there is not extravagant phenomenon, be favorable to the staff to look for the position of observing the buoy main part, be provided with gravity mechanism through the bottom at the buoy main part, thereby guarantee that the focus of buoy main part is in the bottom, avoid the buoy main part phenomenon that rolls to appear, and adjust the interval of gravity mechanism and buoy main part through being provided with the connecting rope, further improve the stability of buoy main part, be favorable to guaranteeing measuring result's accuracy.

Description

Disposable flow measuring buoy

Technical Field

The utility model relates to a measure buoy technical field, specifically be a disposable flow measurement buoy.

Background

In the river region, people can use the buoy to carry out the current surveying work, thereby judge the flow according to the time that the buoy drifted through the river, the variety of buoy is various, and most all can be divided into surface of water buoy, float bar and two buoys, and the material of buoy is also various, and most of them are through floating the material and the marker constitution that observes easily, be the indispensable partly in the current survey field, but the current survey buoy in the market still has following problem:

1. in the process of using the current flow measuring buoy in the market, the appearance of a marker is not obvious enough, so that the phenomenon of neglecting the buoy is easy to occur, the buoy floating area cannot be found, a large amount of time is wasted in the process of finding the buoy, and the operation of workers is not facilitated;

2. in the process of floating the measuring buoy, the buoy rolls easily, so that the marker enters underwater, the buoy is stored underwater, and the flow velocity on the water is inconsistent with that under the water, so that the measuring result is inaccurate easily, and the measuring buoy is not beneficial to use by workers.

Aiming at the problems, the novel measurement buoy is innovatively designed on the basis of the original measurement buoy.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a disposable flow measurement buoy, in order to solve the in-process that flow measurement buoy on the existing market that proposes in the above-mentioned background art is using, the outward appearance of marker is obvious inadequately, thereby the phenomenon emergence of neglecting the buoy appears neglecting easily, make the buoy float over the region and fail the discovery, and in-process also waste a large amount of time looking for the buoy, be unfavorable for the staff operation, carry out floated in-process at the measurement buoy, the buoy appears rolling easily, thereby cause the marker to enter into under water, and because of the buoy save under water, flow rate inconsistent under water and under water, thereby cause the measuring result inaccurate easily, be unfavorable for the problem that the staff used.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a disposable flow measurement buoy, includes the buoy body, the water inlet has been seted up to the top of buoy body, the inside of buoy body is provided with deposits equipment, the buoy body be connected with the linkage block all around, the below of buoy body is connected with the connecting rod, the below of connecting rod is connected with the buoy chassis, the below on buoy chassis is connected with gravity mechanism.

Preferably, the buoy body is of a streamline structure, the central point of the buoy body is superposed with the central point of the water inlet, and linkage blocks are uniformly and equidistantly distributed below the buoy body.

Preferably, the storage device and the buoy body are integrally installed, and pollution-free fluorescent powder is filled in the storage device.

Preferably, the connection mode of the connecting rod and the buoy chassis is fixed connection, the buoy chassis and the gravity mechanism are integrally installed, and the center point of the gravity mechanism is coincided with the center point of the buoy body.

Preferably, the upper portion of the buoy chassis is connected with a connecting rope, the upper portion of the connecting rope is connected with a rotating rod, two sides of the rotating rod are connected with connecting rods, the connecting rods are located inside the sliding grooves, and one side of each connecting rod is connected with a clamping block.

Preferably, the block and the connecting rod block each other, and the block is integrated installation with the linking rod to the linking rod is sliding connection with the connected mode of sliding tray, the sliding tray symmetric distribution is in the both sides of dwang, and the dwang is integrated installation through connecting rope and buoy chassis.

Compared with the prior art, the beneficial effects of the utility model are that: the disposable flow-measuring buoy is provided with a flow-measuring buoy,

1. by arranging the storage equipment inside the buoy body, when the storage equipment is in contact with water flow, the fluorescent powder flows out along the water flow, so that the position of the buoy body is informed to a worker, the fluorescent powder is filled at one time, waste is avoided, and the worker can find the position of the buoy body for observation;

2. the gravity mechanism is arranged at the bottom of the buoy body, so that the gravity center of the buoy body is guaranteed to be located at the bottom, the phenomenon that the buoy body rolls is avoided, the distance between the gravity mechanism and the buoy body is adjusted through the connecting rope, the stability of the buoy body is further improved, and the accuracy of a measuring result is guaranteed.

Drawings

FIG. 1 is a schematic front view of an embodiment of the present invention;

FIG. 2 is a schematic front view of a second embodiment of the present invention;

FIG. 3 is a schematic top view of the embodiment of the present invention;

FIG. 4 is a schematic view of the three-dimensional structure of the connection block of the present invention;

fig. 5 is a schematic top view of the joint rod of the present invention.

In the figure: 1. a float body; 2. a water inlet; 3. storing the equipment; 4. a connecting rod; 5. a buoy chassis; 6. a gravity mechanism; 7. a linkage block; 8. rotating the rod; 9. a clamping block; 10. a connecting rod; 11. a sliding groove; 12. and connecting ropes.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example one: referring to fig. 1, a disposable flow measurement buoy includes a buoy body 1, in order to prevent the buoy body 1 from rolling, a connecting rod 4 is connected below the buoy body 1, a buoy chassis 5 is connected below the connecting rod 4, a gravity mechanism 6 is connected below the buoy chassis 5, the connecting rod 4 is fixedly connected with the buoy chassis 5, the buoy chassis 5 and the gravity mechanism 6 are integrally installed, and a center point of the gravity mechanism 6 coincides with a center point of the buoy body 1, and the buoy chassis 5 is limited by the gravity mechanism 6, so that the center of gravity of the buoy chassis 5 is stable, and the phenomenon of side turning of the buoy body 1 is avoided.

Please refer to fig. 1, in order to observe the position of the buoy body 1 conveniently, a water inlet 2 is disposed above the buoy body 1, a storage device 3 is disposed inside the buoy body 1, linkage blocks 7 are connected around the buoy body 1, the buoy body 1 is of a streamline structure, a center point of the buoy body 1 coincides with a center point of the water inlet 2, the linkage blocks 7 are uniformly and equidistantly distributed below the buoy body 1, the storage device 3 and the buoy body 1 are integrally installed, pollution-free fluorescent powder is filled inside the storage device 3, and the position of the buoy body 1 is reported by the fluorescent powder, so that the observation convenience of the buoy body 1 is improved.

Example two: referring to fig. 2-5, this embodiment is an improvement of the above embodiment, in order to adjust the position of the gravity mechanism 6, a connecting rope 12 is connected above the buoy chassis 5, a rotating rod 8 is connected above the connecting rope 12, two sides of the rotating rod 8 are connected with connecting rods 10, the connecting rods 10 are located inside sliding grooves 11, one side of each connecting rod 10 is connected with a clamping block 9, the clamping block 9 and the connecting rod 4 are clamped with each other, the clamping block 9 and the connecting rods 10 are integrally installed, the connecting rods 10 and the sliding grooves 11 are connected in a sliding manner, the sliding grooves 11 are symmetrically distributed on two sides of the rotating rod 8, the rotating rod 8 and the buoy chassis 5 are integrally installed through the connecting rope 12, and the connecting rope 12 is driven by the rotating rod 8 to be tightened, so as to adjust the position of the gravity mechanism 6, and further improve the stability of the gravity mechanism 6.

The connecting rope 12 in the second example is identical to the effect achieved in the connecting rod 4 in the second example, and the connecting rope 12 can adjust the height of the gravity mechanism 6 in the second example.

The working principle is as follows: example one: according to the figure 1, firstly, a beam is arranged at a measured end position, then the beam goes to a starting position, the gravity mechanism 6 faces downwards and is thrown into water, the gravity center is positioned at the position of the gravity mechanism 6 at the moment, so that the buoy body 1 cannot roll due to water flow, when the buoy body 1 reaches the position of the beam, due to the obstruction of the beam, the gravity mechanism 6 and the buoy chassis 5 are impacted by the water flow, the buoy body 1 can incline, the linkage block 7 blocks the beam in the inclining process, meanwhile, the water flow enters the buoy body 1 through the water inlet 2 and then is accumulated in the buoy body 1 along with the water flow, so that the water flow drives the fluorescent powder stored in the storage device 3, the fluorescent powder flows out along the water flow, and a worker can accurately judge the position of the buoy body 1, thereby calculating the water flow;

example two: according to fig. 2-5, the effect achieved in the example two connecting ropes 12 and the example one connecting rod 4 is the same, as above, when the buoy body 1 is launched, the engaging block 9 can be pulled out according to the depth of the water flow, the engaging block 9 simultaneously drives the engaging rod 10 to move, when the engaging block 9 is separated from the connecting rod 4, the engaging block 9 is rotated, at this time, the engaging rod 10 rotates inside the connecting rod 4, and the engaging rod 10 simultaneously drives the rotating rod 8 to rotate, so that the connecting ropes 12 are tightened or loosened, thereby adjusting the position of the buoy chassis 5, changing the gravity mechanism 6, which is the working process of the whole device, and the content not described in detail in this specification is the prior art known to those skilled in the art.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a disposable flow measurement buoy, includes the buoy body, its characterized in that: the water inlet is formed in the upper portion of the buoy body, storage equipment is arranged inside the buoy body, the periphery of the buoy body is connected with the linkage blocks, the connecting rod is connected to the lower portion of the buoy body, the buoy chassis is connected to the lower portion of the connecting rod, and the gravity mechanism is connected to the lower portion of the buoy chassis.

2. The disposable flow-measuring buoy of claim 1, wherein: the buoy body is of a streamline structure, the central point of the buoy body is superposed with the central point of the water inlet, and linkage blocks are uniformly and equidistantly distributed below the buoy body.

3. The disposable flow-measuring buoy of claim 2, wherein: the storage equipment and the buoy body are integrally installed, and pollution-free fluorescent powder is filled in the storage equipment.

4. The disposable flow-measuring buoy of claim 1, wherein: the connecting rod is fixedly connected with the buoy chassis, the buoy chassis and the gravity mechanism are integrally installed, and the center point of the gravity mechanism is coincided with the center point of the buoy body.

5. The disposable flow-measuring buoy of claim 1, wherein: the top on buoy chassis is connected with the connection rope, and the top of connecting the rope is connected with the dwang to the both sides of dwang are connected with the pole that links up, the pole that links up is located the inside of sliding tray, and links up one side of pole and is connected with the block.

6. The disposable flow-measuring buoy of claim 5, wherein: the clamping block and the connecting rod are clamped with each other, the clamping block and the connecting rod are integrally installed, the connecting rod and the sliding groove are connected in a sliding mode, the sliding grooves are symmetrically distributed on two sides of the rotating rod, and the rotating rod and the buoy chassis are integrally installed through the connecting rope.

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