CN210191763U - Flood peak data acquisition instrument capable of adjusting suspension state - Google Patents
Flood peak data acquisition instrument capable of adjusting suspension state Download PDFInfo
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- CN210191763U CN210191763U CN201921144486.0U CN201921144486U CN210191763U CN 210191763 U CN210191763 U CN 210191763U CN 201921144486 U CN201921144486 U CN 201921144486U CN 210191763 U CN210191763 U CN 210191763U
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- rubber ball
- waterproof
- data acquisition
- air valve
- circuit board
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Abstract
The utility model relates to a flood peak data acquisition instrument of adjustable suspended state. The technical scheme of the utility model is that: the acquisition instrument comprises a waterproof device, a data acquisition device and a suspension control device, wherein the data acquisition device and the suspension control device are arranged in the waterproof device; the waterproof device comprises a rubber ball and a waterproof bottle, and the waterproof bottle is arranged in the rubber ball; the data acquisition device comprises an acquisition communication part, a circuit board and a power supply, wherein the acquisition communication part, the circuit board and the power supply are arranged in the waterproof bottle, and the acquisition communication part, the circuit board and the power supply are electrically connected in sequence; suspension controlling means is the balancing weight, and the balancing weight setting is inside and waterproof bottle bottom at the rubber ball, its characterized in that: the suspension control device also comprises an air valve which is arranged on the outer wall of the rubber ball and communicated with the inner cavity of the rubber ball, and the air valve is electrically connected with the circuit board. An object of the utility model is to provide a can control the peak data acquisition appearance of the adjustable suspended state that floats or suspend.
Description
Technical Field
The utility model relates to a flood peak data acquisition instrument of adjustable suspended state.
Background
In the data acquisition of the flood peak, when the acquisition instrument floats on the water surface, the flood peak data information of the river surface can be well monitored, but the river consists of the river surface and the river middle part, the water flow turbulence degree of the river surface and the water flow turbulence degree of the river middle part are different, and only the collection of the river surface information cannot completely represent all the information of the river.
Therefore, a data acquisition instrument which can monitor the flood peak information of the water surface and can also be converted from a floating state to a floating state is sought, and the problem to be solved is to be solved urgently for monitoring the complete flood peak information of the river.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a can control the peak data acquisition appearance of the adjustable suspended state that floats or suspend.
In order to achieve the above object, the utility model adopts the following technical scheme:
a flood peak data acquisition instrument capable of adjusting a suspension state comprises a waterproof device, a data acquisition device and a suspension control device, wherein the data acquisition device and the suspension control device are arranged in the waterproof device; the waterproof device comprises a rubber ball and a waterproof bottle, and the waterproof bottle is arranged in the rubber ball; the data acquisition device comprises an acquisition communication part, a circuit board and a power supply, wherein the acquisition communication part, the circuit board and the power supply are arranged in the waterproof bottle, and the acquisition communication part, the circuit board and the power supply are sequentially and electrically connected; the suspension control device is a balancing weight, the balancing weight is arranged inside the rubber ball and at the bottom of the waterproof bottle, the suspension control device further comprises an air valve, the air valve is arranged on the outer wall of the rubber ball and communicated with the inner cavity of the rubber ball, and the air valve is electrically connected with the circuit board.
Adopt this technical scheme's flood peak data acquisition instrument of adjustable suspension state, through watertight fittings prevent that water-jug and rubber ball play the waterproof effect of double sealing, collect the data that this collection appearance will gather through data acquisition device and control, realize floating this collection appearance or suspend on the surface of water through suspension controlling means.
The balance weight is arranged in the suspension control device, the acquisition instrument keeps a straight upward tumbler posture through the weight of the balance weight, most of the volume of the acquisition instrument can be ensured to be soaked in water, the air valve arranged on the suspension control device is arranged on the outer wall of the rubber ball and communicated with the inner cavity of the rubber ball and electrically connected with the circuit board, therefore, the amount of gas in the rubber ball can be controlled through the air valve, the buoyancy of the rubber ball is controlled, the discharging of the gas can be controlled by a circuit through the electric connection with the circuit board, the automation of controlling the buoyancy of the rubber ball is realized, the buoyancy of the rubber ball can be controlled, and the acquisition instrument can be floated or suspended in water.
As the utility model discloses an air valve improves technical scheme:
the air valve is a one-way air valve, the suspension control device further comprises an inflation head, and the inflation head is arranged on the outer wall of the bottom of the rubber ball and communicated with the inner cavity of the rubber ball.
Establish the pneumatic valve into one-way pneumatic valve, can directly carry out the drainage toward the aquatic through the gas with in the rubber ball, make the gas in the rubber ball reduce, thereby make the buoyancy of rubber ball diminish, when the buoyancy of rubber ball and the gravity of balancing weight are when corresponding, the rubber ball can be followed the state of floating at the surface of water and changed into the suspension in the aquatic, because the pneumatic valve is one-way pneumatic valve, consequently this drainage gaseous process is irreversible process, when needs make the rubber ball float on the surface of water again, need operating personnel to retrieve the collection appearance again, and aerify in toward the rubber ball through the inflation head.
As the utility model discloses an air valve improves technical scheme:
the air valve is a two-way air valve, the suspension control device further comprises a one-way water drain valve, the water drain valve is arranged on the outer wall of the bottom of the rubber ball and communicated with the inner cavity of the rubber ball, a water pump is arranged on the water drain valve, and the water pump is electrically connected with the circuit board.
The air valve is a two-way air valve, when the rubber ball needs to be converted from a floating state to a floating state, the two-way air valve is used for deflating into water, and water in the water is sucked into the rubber ball, so that the buoyancy of the rubber ball is reduced, the sucked water is converted into the weight of the rubber ball to increase the gravity of the rubber ball, the floating speed can be accelerated, the floating speed is changed into the floating speed, when the buoyancy and the gravity are the same, the rubber ball can be converted from the state of floating on the water surface to the state of floating in the water, the suspension control device further comprises a one-way drain valve, the drain valve is arranged on the outer wall of the bottom of the rubber ball and communicated with the inner cavity of the rubber ball, a water pump is arranged on the drain valve and electrically connected with the circuit board, and when the rubber ball needs to be converted from the floating state again, the water in, the weight of the rubber ball itself can be reduced so that the buoyancy is again greater than the gravity, thereby allowing the rubber ball to enter a floating state.
After the structure is adopted, the utility model discloses beneficial effect does:
the peak data acquisition instrument adopting the technical scheme and capable of adjusting the suspension state controls the buoyancy of the rubber ball through the circuit board, so that the rubber ball can be in two states of floating or suspending, and the two different implementation modes of the one-way air valve and the two-way air valve can change the two states of floating or suspending.
Drawings
Fig. 1 is a schematic view of an embodiment of the flood peak data collector capable of adjusting a suspension state according to the present invention;
fig. 2 is a schematic diagram of the second embodiment of the flood peak data collector with adjustable suspension state of the present invention.
Detailed Description
The present invention will be further described with reference to the accompanying drawings.
Example one
As shown in fig. 1, a flood peak data collector capable of adjusting a suspension state comprises a waterproof device 1, a data collecting device 2 and a suspension control device 3, wherein the data collecting device 2 and the suspension control device 3 are arranged in the waterproof device 1; the waterproof device 1 comprises a rubber ball 11 and a waterproof bottle 12, wherein the waterproof bottle 12 is arranged in the rubber ball 11; the data acquisition device 2 comprises an acquisition communication component 21, a circuit board 22 and a power supply 23, wherein the acquisition communication component 21, the circuit board 22 and the power supply 23 are arranged in the waterproof bottle 12, and the acquisition communication component 21, the circuit board 22 and the power supply 23 are electrically connected in sequence; suspension controlling means 3 is balancing weight 31, balancing weight 31 sets up inside rubber ball 11 and waterproof bottle 12 bottom, suspension controlling means 3 still includes pneumatic valve 32, pneumatic valve 32 establishes on 11 outer walls of rubber ball and communicates 11 inner chambers of rubber ball, pneumatic valve 32 is connected with circuit board 22 electricity.
The air valve 32 is a one-way air valve 321, the suspension control device 3 further comprises an inflation head 322, and the inflation head 322 is arranged on the outer wall of the bottom of the rubber ball 11 and communicated with the inner cavity of the rubber ball 11.
Adopt this technical scheme's flood peak data acquisition instrument of adjustable suspension state, waterproof bottle 12 and rubber ball 11 through watertight fittings 1 play the waterproof effect of double seal, collect the data that this collection appearance will gather through data acquisition device 2 and control, realize floating this collection appearance or suspend on the surface of water through suspension controlling means 3.
The weight balancing block 31 is arranged in the suspension control device 3, the acquisition instrument is kept in an upward tumbler posture through the weight of the weight balancing block 31, most of the volume of the acquisition instrument can be guaranteed to be soaked in water, the air valve 32 arranged on the suspension control device 3 is arranged on the outer wall of the rubber ball 11, communicated with the inner cavity of the rubber ball 11 and electrically connected with the circuit board 22, therefore, the amount of gas in the rubber ball 11 can be controlled through the air valve 32, the buoyancy of the rubber ball 11 is controlled, the gas discharge can be controlled through a circuit through the electrical connection with the circuit board 22, the automation of controlling the buoyancy of the rubber ball 11 is realized, the buoyancy of the rubber ball 11 can be controlled, and the acquisition instrument can be floated or suspended in water.
Establish pneumatic valve 32 as one-way pneumatic valve 321, can be through carrying out the drainage to the aquatic directly with the gas in the rubber ball 11, make the gas in the rubber ball 11 reduce, thereby make the buoyancy of rubber ball 11 diminish, when the buoyancy of rubber ball 11 and the gravity of balancing weight 31 are corresponding, rubber ball 11 can be changed into the suspension in the aquatic from the state that floats at the surface of water, because pneumatic valve 32 is one-way pneumatic valve 321, consequently this gaseous process of drainage is irreversible process, when need make rubber ball 11 float on the surface of water again, need operating personnel to retrieve the collection appearance again, and aerify in toward rubber ball 11 through inflation head 322.
The one-way valve 321 can keep the rubber ball 11 from water entering, but the floating-to-floating state is not reversible, the speed of the transition is slow, and if the rubber ball 11 is to be re-floated, the rubber ball 11 needs to be re-inflated manually.
Example two
The difference between the second embodiment and the first embodiment is that: the air valve 32 is a two-way air valve 323, the suspension control device 3 further includes a one-way drain valve 324, the drain valve 324 is arranged on the outer wall of the bottom of the rubber ball 11 and communicated with the inner cavity of the rubber ball 11, and a water pump is arranged on the drain valve 324 and electrically connected with the circuit board 22.
The air valve 32 is a two-way air valve 323, which can make the rubber ball 11 deflate into the water by the two-way air valve 323 on one hand and suck the water into the rubber ball 11 on the other hand when the rubber ball 11 needs to be changed from the floating state to the floating state, thereby reducing the buoyancy of the rubber ball 11 and changing the sucked water into the weight of the rubber ball 11 to increase the gravity of the rubber ball 11, which can accelerate the floating speed to the floating speed, when the buoyancy and the gravity are the same, the rubber ball 11 can be changed from the floating state to the floating state, and because the suspension control device 3 further comprises a one-way drain valve 324, the drain valve 324 is arranged on the outer wall of the bottom of the rubber ball 11 and communicated with the inner cavity of the rubber ball 11, the drain valve 324 is provided with a water pump electrically connected with the circuit board 22, when the rubber ball 11 needs to be changed from the floating state to the floating state again, the water in the rubber ball 11 only needs to be pumped, the weight of the rubber ball 11 itself can be reduced so that the buoyancy is again larger than the gravity, thereby bringing the rubber ball 11 into a floating state.
The bidirectional air valve 323 not only enables the floating state and the suspension state of the rubber ball 11 to be reversible, but also has a high conversion speed of the two states, and does not need to be manually converted into the two states, but the bidirectional air valve 323 can repeatedly drain water into the rubber ball 11, so that the internal state of the rubber ball 11 is in a wet state, and double sealing of the bidirectional air valve 323 can lead to only one layer of sealing.
The above description is only for the preferred embodiment of the present invention, and the above preferred embodiment is not intended to limit the scope of the present invention; all changes which come within the meaning and range of equivalency of the claims are to be embraced within their scope.
Claims (3)
1. A flood peak data acquisition instrument capable of adjusting a suspension state comprises a waterproof device, a data acquisition device and a suspension control device, wherein the data acquisition device and the suspension control device are arranged in the waterproof device; the waterproof device comprises a rubber ball and a waterproof bottle, and the waterproof bottle is arranged in the rubber ball; the data acquisition device comprises an acquisition communication part, a circuit board and a power supply, wherein the acquisition communication part, the circuit board and the power supply are arranged in the waterproof bottle, and the acquisition communication part, the circuit board and the power supply are sequentially and electrically connected; suspension controlling means is the balancing weight, the balancing weight sets up inside and waterproof bottle bottom at the rubber ball, its characterized in that: the suspension control device further comprises an air valve, the air valve is arranged on the outer wall of the rubber ball and communicated with the inner cavity of the rubber ball, and the air valve is electrically connected with the circuit board.
2. The flood peak data collector capable of adjusting the suspension state according to claim 1, wherein: the air valve is a one-way air valve, the suspension control device further comprises an inflation head, and the inflation head is arranged on the outer wall of the bottom of the rubber ball and communicated with the inner cavity of the rubber ball.
3. The flood peak data collector capable of adjusting the suspension state according to claim 1, wherein: the air valve is a two-way air valve, the suspension control device further comprises a one-way water drain valve, the water drain valve is arranged on the outer wall of the bottom of the rubber ball and communicated with the inner cavity of the rubber ball, a water pump is arranged on the water drain valve, and the water pump is electrically connected with the circuit board.
Priority Applications (1)
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CN201921144486.0U CN210191763U (en) | 2019-07-22 | 2019-07-22 | Flood peak data acquisition instrument capable of adjusting suspension state |
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CN201921144486.0U CN210191763U (en) | 2019-07-22 | 2019-07-22 | Flood peak data acquisition instrument capable of adjusting suspension state |
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CN210191763U true CN210191763U (en) | 2020-03-27 |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN117760903A (en) * | 2024-02-21 | 2024-03-26 | 中国地质调查局成都地质调查中心(西南地质科技创新中心) | Mountain torrent mud-rock flow volume weight monitoring ball |
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2019
- 2019-07-22 CN CN201921144486.0U patent/CN210191763U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN117760903A (en) * | 2024-02-21 | 2024-03-26 | 中国地质调查局成都地质调查中心(西南地质科技创新中心) | Mountain torrent mud-rock flow volume weight monitoring ball |
CN117760903B (en) * | 2024-02-21 | 2024-06-07 | 中国地质调查局成都地质调查中心(西南地质科技创新中心) | Mountain torrent mud-rock flow volume weight monitoring ball |
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