CN210775545U - Measuring device for water conservancy construction management - Google Patents

Abstract

The utility model discloses a measuring device for water conservancy construction management, which belongs to the technical field of water conservancy engineering measuring devices and comprises a ship body, wherein a first sealed cabin, a measuring cabin, a second sealed cabin and a third sealed cabin are respectively arranged in the ship body, the inner wall of the bottom of the third sealed cabin is provided with a second motor, the output end of the second motor is connected with a second rotating shaft, one end of the second rotating shaft, which is far away from the second motor, is connected with a first gear, the first gear is meshed with a second gear, the top of the second gear is connected with a gear sleeve, a gear rod is in threaded connection with the gear sleeve, the gear rod is in sliding connection with the second gear, an L-shaped supporting rod is fixedly connected to the bottom of the gear rod, and a sealed box is fixedly connected to one end of the L-shaped supporting rod, which is far away from the gear rod; the utility model discloses can measure the velocity of flow of different degree of depth rivers, and remove in a flexible way, improve measurement of efficiency.

Description

Measuring device for water conservancy construction management

Technical Field

The utility model relates to a hydraulic engineering measuring device technical field especially relates to a measuring device for water conservancy construction management.

Background

Hydraulic engineering projects constructed for eliminating water damage and developing and utilizing water resources are classified into flood control projects, farmland hydraulic projects, hydroelectric power generation projects, channel and harbor projects, water supply and drainage projects, environmental hydraulic projects, coastal reclamation projects and the like according to service objects thereof, and hydraulic engineering projects which can serve various targets such as flood control, water supply, irrigation, power generation and the like at the same time are called comprehensive utilization hydraulic engineering.

In to hydraulic engineering construction management process, often can meet the operation scene on water such as river, at this moment need measure the rivers velocity of flow of river in advance, provide the guarantee for follow-up construction, nevertheless because the rivers velocity of flow of the different degree of depth is different in the river, but the measuring device on the market at present can't measure the rivers velocity of flow of the different degree of depth, and inconvenient removal.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problem that the water flow velocity of different depths can not be measured in the prior art, and providing a measuring device for water conservancy construction management.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a measuring device for water conservancy construction management comprises a ship body, wherein a first sealed cabin, a measuring cabin, a second sealed cabin and a third sealed cabin are respectively arranged in the ship body, a second motor is arranged on the inner wall of the bottom of the third sealed cabin, the output end of the second motor is connected with a second rotating shaft, one end of the second rotating shaft, which is far away from the second motor, is connected with a first gear, the first gear is connected with a second gear in a meshed manner, the top of the second gear is connected with a gear sleeve, a gear rod is connected in the gear sleeve in a threaded manner and is slidably connected in the second gear, an L-shaped supporting rod is fixedly connected to the bottom end of the gear rod, one end of the L-shaped supporting rod, which is far away from the gear rod, is fixedly connected with a sealed box, a sliding hole is formed in the bottom of the ship body, the L-shaped supporting rod and the sealed box are both slidably connected, the one end that L type bracing piece was kept away from in the third pivot is rotated and is connected the inner wall at the seal box, be equipped with rotor blade and third gear in the third pivot respectively, third gear engagement is connected with the fourth gear, the top of fourth gear is connected with the fourth pivot, the one end that the fourth gear was kept away from in the fourth pivot is connected with the revolution table.

Preferably, a rotating block is arranged on the fourth rotating shaft, a second limiting block corresponding to the rotating block is arranged on the inner wall of the seal box, and the rotating block is rotatably connected in the second limiting block.

Preferably, the top fixedly connected with slide cylinder of seal box, revolution meter fixed connection is at the top inner wall of slide cylinder, the lateral wall of slide cylinder and the lateral wall sliding connection of measuring the cabin, the lateral wall of slide cylinder is equipped with the graduation apparatus.

Preferably, a partition plate is arranged between the measuring cabin and the third sealed cabin, and the gear rod is in sliding connection with the partition plate.

Preferably, the inner wall of the bottom of the first sealed cabin is provided with a first motor, the output end of the first motor is connected with a first rotating shaft, and one end of the first rotating shaft, which is far away from the first motor, is connected with a propeller.

Preferably, one end of the gear rod, which is far away from the L-shaped support rod, is fixedly connected with a first limiting block.

Compared with the prior art, the utility model provides a measuring device for water conservancy construction management possesses following beneficial effect:

1. when the measuring device for water conservancy construction management is used, a first motor is started, the first motor drives a propeller to rotate through a first rotating shaft, so that a ship body moves to a target water area, after the ship body reaches the target water area, the rotating speed of the first motor is adjusted, the ship body keeps a static state in the target water area, a second motor is started, the second motor drives a first gear to rotate through a second rotating shaft, the first gear drives a second gear to rotate, the second gear drives a gear rod to move downwards through a gear sleeve, the gear rod drives a third rotating shaft and a sealing box to move downwards through an L-shaped supporting rod, the sealing box drives a sliding cylinder to move downwards, a scale is observed, when the ship body moves to a target depth, the second motor is closed, water flow drives a rotating blade to rotate, the rotating blade drives a third gear to rotate through a third rotating shaft, the third gear drives a fourth rotating shaft to rotate through a fourth gear, and when the water flow is, the fourth pivot rotational speed is higher, and when rivers were slower, the fourth pivot rotational speed was lower, and the fourth pivot is connected with the revolution table, can show the fourth pivot rotational speed, calculates the rivers velocity of flow through observing the revolution table rotational speed, when measuring the completion, starts the reversal of second motor, measures the under-deck with L type bracing piece and seal box income.

2. This measuring device for water conservancy construction management is equipped with the division board between measurement cabin and the third sealed cabin, both can prevent that rivers from getting into the third sealed cabin, also can restrict the gear sleeve and reciprocate.

The part that does not relate to in the device all is the same with prior art or can adopt prior art to realize, the utility model discloses can measure the velocity of flow of the different degree of depth rivers, and remove in a flexible way, improved measurement of efficiency.

Drawings

Fig. 1 is a schematic structural view of a measuring device for water conservancy construction management provided by the present invention;

fig. 2 is a front view of a measuring device for water conservancy construction management provided by the utility model;

fig. 3 is the utility model provides a side view of measuring device slide cartridge for water conservancy construction management.

In the figure: 1. a hull; 101. a slide hole; 2. a first sealed cabin; 3. a measurement cabin; 4. a second sealed cabin; 5. a first motor; 501. a first rotating shaft; 502. a propeller; 6. a third sealed cabin; 601. a second motor; 602. a second rotating shaft; 603. a first gear; 7. a second gear; 701. a gear sleeve; 8. a gear lever; 801. a first stopper; 9. an L-shaped support bar; 10. a third rotating shaft; 1001. a rotor blade; 11. a third gear; 12. a sealing box; 1201. a second limiting block; 13. a fourth rotating shaft; 1301. rotating the block; 1302. a fourth gear; 14. a sliding cylinder; 1401. a dial gauge; 15. a revolution meter; 16. and (4) a partition board.

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.

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

Referring to fig. 1-3, a measuring device for water conservancy construction management comprises a ship body 1, a first sealed cabin 2, a measuring cabin 3, a second sealed cabin 4 and a third sealed cabin 6 are respectively arranged in the ship body 1, a second motor 601 is arranged on the inner wall of the bottom of the third sealed cabin 6, the output end of the second motor 601 is connected with a second rotating shaft 602, one end of the second rotating shaft 602, which is far away from the second motor 601, is connected with a first gear 603, the first gear 603 is connected with a second gear 7 in a meshing manner, the top of the second gear 7 is connected with a gear sleeve 701, a gear rod 8 is connected in the gear sleeve 701 in a threaded manner, the gear rod 8 is connected in the second gear 7 in a sliding manner, an L-shaped support rod 9 is fixedly connected at the bottom end of the gear rod 8, a sealed box 12 is fixedly connected at one end of the L-shaped support rod 9, the bottom of the ship body 1 is provided with a sliding, the L-shaped supporting rod 9 is rotatably connected with a third rotating shaft 10, one end, far away from the L-shaped supporting rod 9, of the third rotating shaft 10 is rotatably connected to the inner wall of the sealing box 12, the third rotating shaft 10 is respectively provided with a rotating blade 1001 and a third gear 11, the third gear 11 is meshed with a fourth gear 1302, the top of the fourth gear 1302 is connected with a fourth rotating shaft 13, and one end, far away from the fourth gear 1302, of the fourth rotating shaft 13 is connected with a revolution meter 15.

A rotating block 1301 is arranged on the fourth rotating shaft 13, a second limiting block 1201 corresponding to the rotating block 1301 is arranged on the inner wall of the sealing box 12, and the rotating block 1301 is rotatably connected in the second limiting block 1201.

The top of the seal box 12 is fixedly connected with a sliding cylinder 14, the revolution meter 15 is fixedly connected with the top inner wall of the sliding cylinder 14, the side wall of the sliding cylinder 14 is slidably connected with the side wall of the measuring chamber 3, and the side wall of the sliding cylinder 14 is provided with a scale 1401.

A partition plate 16 is arranged between the measuring cabin 3 and the third sealed cabin 6, and the gear rod 8 is connected with the partition plate 16 in a sliding manner.

The inner wall of the bottom of the first sealed cabin 2 is provided with a first motor 5, the output end of the first motor 5 is connected with a first rotating shaft 501, and one end, far away from the first motor 5, of the first rotating shaft 501 is connected with a propeller 502.

One end of the gear lever 8 far away from the L-shaped support lever 9 is fixedly connected with a first limit block 801.

In the utility model, when in use, the first motor 5 is started, the first motor 5 drives the propeller 502 to rotate through the first rotating shaft 501, the ship body 1 goes to the target water area, after the ship body reaches the target water area, the rotating speed of the first motor 5 is adjusted, after the ship body 1 keeps the static state in the target water area, the second motor 601 is started, the second motor 601 drives the first gear 603 to rotate through the second rotating shaft 602, the first gear 603 drives the second gear 7 to rotate, the second gear 7 drives the gear rod 8 to move downwards through the gear sleeve 701, the gear rod 8 drives the third rotating shaft 10 and the seal box 12 to move downwards through the L-shaped support rod 9, the seal box 12 drives the sliding cylinder 14 to move downwards, the scale 1401 is observed, when the ship body moves to the target depth, the second motor 601 is closed, the water flow drives the rotating blade 1001 to rotate, the rotating blade 1001 to drive the third gear 11 to rotate through the third rotating shaft 10, the third gear 11 drives the fourth rotating shaft 13 to rotate through the fourth gear 1302, when rivers are faster, the higher the rotational speed of the fourth rotating shaft 13, when rivers are slower, the rotational speed of the fourth rotating shaft 13 is lower, the fourth rotating shaft 13 is connected with a revolution meter 15, the rotational speed of the fourth rotating shaft 13 can be displayed, the flow velocity of the rivers is calculated by observing the rotational speed of the revolution meter 15, and when the measurement is completed, the second motor 601 is started to rotate reversely, and the L-shaped supporting rod 9 and the seal box 12 are collected into the measurement cabin 3.

A partition plate 16 is arranged between the measuring cabin 3 and the third sealed cabin 6, so that water flow can be prevented from entering the third sealed cabin 6, and the gear sleeve 701 can be limited from moving up and down.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. The measuring device for water conservancy construction management comprises a ship body (1) and is characterized in that a first sealed cabin (2), a measuring cabin (3), a second sealed cabin (4) and a third sealed cabin (6) are respectively arranged in the ship body (1), a second motor (601) is arranged on the inner wall of the bottom of the third sealed cabin (6), the output end of the second motor (601) is connected with a second rotating shaft (602), one end, far away from the second motor (601), of the second rotating shaft (602) is connected with a first gear (603), the first gear (603) is meshed with a second gear (7), the top of the second gear (7) is connected with a gear sleeve (701), the gear sleeve (701) is internally connected with a gear rod (8), the gear rod (8) is slidably connected in the second gear (7), and the bottom of the gear rod (8) is fixedly connected with an L-shaped supporting rod (9), one end fixedly connected with seal box (12) of gear pole (8) is kept away from in L type bracing piece (9), hull (1) bottom is equipped with slide opening (101), equal sliding connection is in slide opening (101) in L type bracing piece (9) and seal box (12), it is connected with third pivot (10) to rotate on L type bracing piece (9), the inner wall of connection at seal box (12) is rotated to the one end that L type bracing piece (9) were kept away from in third pivot (10), be equipped with rotating vane (1001) and third gear (11) on third pivot (10) respectively, third gear (11) meshing is connected with fourth gear (1302), the top of fourth gear (1302) is connected with fourth pivot (13), the one end that fourth gear (1302) were kept away from in fourth pivot (13) is connected with revolution table (15).

2. The measuring device for water conservancy construction management according to claim 1, characterized in that a rotating block (1301) is arranged on the fourth rotating shaft (13), a second limiting block (1201) corresponding to the rotating block (1301) is arranged on the inner wall of the seal box (12), and the rotating block (1301) is rotatably connected in the second limiting block (1201).

3. The measuring device for water conservancy construction management according to claim 1, wherein a sliding cylinder (14) is fixedly connected to the top of the seal box (12), the revolution meter (15) is fixedly connected to the inner wall of the top of the sliding cylinder (14), the side wall of the sliding cylinder (14) is slidably connected with the side wall of the measuring chamber (3), and the side wall of the sliding cylinder (14) is provided with a scale (1401).

4. The measuring device for water conservancy construction management according to claim 1, characterized in that a partition plate (16) is arranged between the measuring cabin (3) and the third sealed cabin (6), and the gear rod (8) is in sliding connection with the partition plate (16).

5. The measuring device for water conservancy construction management according to claim 1, characterized in that a first motor (5) is arranged on the inner wall of the bottom of the first sealed cabin (2), the output end of the first motor (5) is connected with a first rotating shaft (501), and one end, far away from the first motor (5), of the first rotating shaft (501) is connected with a propeller (502).

6. The measuring device for water conservancy construction management according to claim 1, characterized in that one end of the gear rod (8) far away from the L-shaped support rod (9) is fixedly connected with a first limiting block (801).

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