CN217110953U - Water depth metering calibrating device for water transport engineering - Google Patents

Abstract

The utility model relates to a bathymetric survey field specifically is shipping engineering depth of water metrological verification device, including the gauge rod, the sound wave ware, the recorder, telescopic link and receiver, still include elevating gear, the sound wave ware sets up the lower surface at the gauge rod, the recorder sets up the surface at the gauge rod, the inner wall sliding connection of telescopic link and gauge rod, the receiver is connected with the fixed surface of telescopic link, elevating gear sets up the surface at the gauge rod, elevating gear includes the ratch, the fixed surface of ratch and telescopic link is connected, the surface of ratch and the inner wall sliding connection of gauge rod, the surperficial rotation of gauge rod is connected with the pivot, the fixed surface of pivot is connected with the gear, the gear is connected with the surface toothing of ratch. The utility model discloses, through setting up elevating gear, be convenient for carry out lift adjustment to the receiver to reach and detect the optimum distance, promoted the ease for use of equipment to this effectively.

Description

Water depth metering calibrating device for water transport engineering

Technical Field

The utility model relates to a bathymetric survey field especially relates to shipping engineering bathymetric survey device.

Background

The work of determining the height from a water bottom point to the water surface and the plane position of the point is a central link of sea channel measurement and seabed terrain measurement, and aims to provide channel depth for ship navigation and determine the position, depth and property of a navigation obstacle.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the shortcomings of complex operation and nonuse of the assembly of the detection rod length adjustment usually adopted splicing in the prior art, and the proposed water transport engineering water depth metering and calibrating device.

In order to achieve the above purpose, the utility model adopts the following technical scheme: water conservancy project depth of water metrological verification device, including gauge stick, sound wave ware, record ware, telescopic link and receiver, still include elevating gear, the sound wave ware sets up the lower surface at the gauge stick, the record ware sets up the surface at the gauge stick, the inner wall sliding connection of telescopic link and gauge stick, the receiver is connected with the fixed surface of telescopic link, elevating gear sets up the surface at the gauge stick, elevating gear includes the ratch, the fixed surface of ratch and telescopic link is connected, the surface of ratch and the inner wall sliding connection of gauge stick.

Preferably, the surface of the detection rod is rotatably connected with a rotating shaft, the surface of the rotating shaft is fixedly connected with a gear, and the gear is meshed with the surface of the toothed bar.

Preferably, the one end fixedly connected with runner that the gear was kept away from to the pivot, the runner rotates with the surface of gauge stick to be connected, the inner wall fixedly connected with fixed spring of gauge stick.

Preferably, the fixed spring is fixedly connected with a bolt, one end of the bolt, far away from the fixed spring, is inserted into and connected with the surface of the toothed bar, the bolt is connected with the inner wall of the detection rod in a sliding mode, and the surface of the bolt is fixedly connected with a shifting block.

Preferably, the surface of the recorder is provided with a fixing device, the fixing device comprises an installation block, the installation block is fixedly connected with the surface of the recorder, the surface of the recorder is rotatably connected with a first clamping block, and one side of the recorder, which is close to the first clamping block, is rotatably connected with a second clamping block.

Preferably, the first clamping block and the second clamping block are connected with the surface of the detection rod in a sleeved mode, the fixed surface of the first clamping block is connected with a fixed block, the inner wall of the second clamping block is fixedly connected with an extension spring, and the surface of the extension spring is fixedly connected with a sliding rod.

Preferably, the slide bar is connected with the inner wall of the second clamping block in a sliding mode, the surface of the slide bar is fixedly connected with a lifting block, the surface of the lifting block is fixedly connected with an inserting block, and the inserting block is connected with the surface of the fixing block in an inserting mode.

Compared with the prior art, the utility model discloses an advantage lies in with positive effect:

1. the utility model discloses in, through setting up elevating gear, the pulling shifting block, the bolt atress breaks away from the surface of ratch in succession, fixed spring tightens up after the atress deformation in succession, rotate the runner immediately, the pivot atress is rotatory in succession, the gear atress rotates the back simultaneously and upwards promotes the ratch, loosen the shifting block when the receiver reachs suitable position, fixed spring loses the resilience after the constraint, the bolt atress inserts the surface of ratch simultaneously, through setting up elevating gear, be convenient for carry out lifting adjustment to the receiver, so that reach and detect the optimum distance, the ease for use of equipment has been promoted to this effectively.

2. The utility model discloses in, through setting up fixing device, the piece is carried in the pulling, extension behind the extension spring atress deformation, the inserted block atress in succession is kept away from the surface of clamp splice two, rotate clamp splice one immediately and clamp splice two and the surface of gauge rod is overlapped and is established and is connected, when the fixed block offsets with the surface of clamp splice two, loosen and carry the piece, extension spring loses bounces after the constraint, the inserted block atress in succession inserts the inner wall of fixed block, through setting up fixing device, be convenient for carry out convenient fixing to the recorder, subtract the loaded down with trivial details operation of hand formula, the stability of equipment has been promoted to this effectively.

Drawings

Fig. 1 is a schematic view of the three-dimensional structure of the water depth metrological verification device for the water transportation engineering of the present invention;

FIG. 2 is a schematic structural view of a lifting device in the water depth measuring and calibrating device of the water transport engineering of the present invention;

fig. 3 is a schematic structural view of a position a in fig. 2 in the water depth measuring and calibrating device for the water transport engineering of the present invention;

FIG. 4 is a schematic structural view of a fixing device in the water depth measuring and calibrating device for the water transport engineering of the present invention;

fig. 5 is the schematic view of the structure at the position B in fig. 4 of the water depth measuring and calibrating device for water transport engineering of the present invention.

Illustration of the drawings:

1. a probe rod; 2. an acoustic wave device; 3. a recorder; 4. a telescopic rod; 5. a receiver; 6. a lifting device; 61. a rack bar; 62. a rotating shaft; 63. a gear; 64. a rotating wheel; 65. fixing the spring; 66. a bolt; 67. shifting blocks; 7. a fixing device; 71. mounting blocks; 72. a first clamping block; 73. a second clamping block; 74. a fixed block; 75. an extension spring; 76. a slide bar; 77. lifting blocks; 78. and (5) inserting the blocks.

Detailed Description

Referring to fig. 1-5, the present invention provides a technical solution: water transportation engineering depth of water metrological verification device, including gauge stick 1, acoustic wave ware 2, record ware 3, telescopic link 4 and receiver 5, still include elevating gear 6, acoustic wave ware 2 sets up the lower surface at gauge stick 1, and record ware 3 sets up on the surface of gauge stick 1, telescopic link 4 and the inner wall sliding connection of gauge stick 1, and receiver 5 is connected with the fixed surface of telescopic link 4, and elevating gear 6 sets up the surface at gauge stick 1.

The specific arrangement and function of the lifting device 6 and the fixing device 7 will be described in detail below.

In this embodiment: the lifting device 6 comprises a toothed bar 61, the toothed bar 61 is fixedly connected with the surface of the telescopic rod 4, and the surface of the toothed bar 61 is slidably connected with the inner wall of the detection rod 1.

In this embodiment: through setting up ratch 61, be convenient for play the effect of sliding from top to bottom to telescopic link 4.

Specifically, the surface of the detection rod 1 is rotatably connected with a rotating shaft 62, the surface of the rotating shaft 62 is fixedly connected with a gear 63, and the gear 63 is engaged with the surface of the rack 61.

In this embodiment: the rotation of the rotating shaft 62 is convenient for the control gear 63 to rotate and then drive the toothed bar 61 to slide up and down.

Specifically, one end of the rotating shaft 62, which is far away from the gear 63, is fixedly connected with a rotating wheel 64, the rotating wheel 64 is rotatably connected with the surface of the detection rod 1, and the inner wall of the detection rod 1 is fixedly connected with a fixing spring 65.

In this embodiment: the rotating wheel 64 is arranged to control the rotating shaft 62 to rotate conveniently.

Specifically, a bolt 66 is fixedly connected to the surface of the fixed spring 65, one end of the bolt 66, which is far away from the fixed spring 65, is inserted into and connected with the surface of the rack bar 61, the bolt 66 is slidably connected with the inner wall of the detection rod 1, and a shifting block 67 is fixedly connected to the surface of the bolt 66.

In this embodiment: the fixing spring 65 is arranged to facilitate the pushing of the bolt 66 to be inserted and connected with the surface of the rack bar 61.

Specifically, the fixing device 7 is arranged on the surface of the recorder 3, the fixing device 7 comprises an installation block 71, the installation block 71 is fixedly connected with the surface of the recorder 3, a first clamping block 72 is rotatably connected to the surface of the recorder 3, and a second clamping block 73 is rotatably connected to one side, close to the first clamping block 72, of the recorder 3.

In this embodiment: the first clamping block 72 and the second clamping block 73 are sleeved and connected with the surface of the detection rod 1, so that the recorder 3 and the detection rod 1 are preliminarily fixed.

Specifically, the first clamping block 72 and the second clamping block 73 are sleeved and connected with the surface of the detection rod 1, the fixed block 74 is fixedly connected to the surface of the first clamping block 72, the extension spring 75 is fixedly connected to the inner wall of the second clamping block 73, and the slide rod 76 is fixedly connected to the surface of the extension spring 75.

In this embodiment: the extension spring 75 is arranged, so that the sliding rod 76 can be pulled to reset and fix.

Specifically, the sliding rod 76 is slidably connected with the inner wall of the second clamping block 73, the lifting block 77 is fixedly connected to the surface of the sliding rod 76, the insertion block 78 is fixedly connected to the surface of the lifting block 77, and the insertion block 78 is inserted and connected with the surface of the fixing block 74.

In this embodiment: the first clamping block 72 and the second clamping block 73 are further fixed by the aid of the insertion block 78.

The working principle is as follows: through arranging the lifting device 6, pulling the shifting block 67, the bolt 66 is stressed to be separated from the surface of the toothed bar 61 in sequence, the fixed spring 65 is stressed and deformed in sequence and then tightened, then the rotating wheel 64 is rotated, the rotating shaft 62 is stressed and rotated in sequence, the toothed bar 61 is pushed upwards after the gear 63 is stressed and rotated in sequence, the shifting block 67 is loosened when the receiver 5 reaches a proper position, the fixed spring 65 rebounds after losing the constraint, the bolt 66 is stressed and inserted into the surface of the toothed bar 61 simultaneously, through arranging the lifting device 6, the lifting adjustment of the receiver 5 is facilitated so as to achieve the optimal detection distance, the usability of the device is effectively improved, through arranging the fixing device 7, pulling the lifting block 77, expanding the stretching spring 75 after being stressed and deformed, the inserting block 78 is stressed to be separated from the surface of the clamping block two 73 in sequence, and then rotating the clamping block one 72 and the clamping block two 73 to be sleeved and connected with the surface of the detecting bar 1, when the fixed block 74 is abutted against the surface of the clamping block two 73, loosening and lifting block 77, extension spring 75 loses and kick-backs after the constraint, and the inner wall of fixed block 74 is inserted to the atress in succession to inserted block 78, through setting up fixing device 7, is convenient for carry out convenient fixed to recorder 3, subtracts the loaded down with trivial details operation of hand formula, has promoted the stability of equipment to this effectively.

Claims (7)

1. Water transport engineering depth of water metrological verification device, including gauge rod (1), acoustic wave ware (2), register (3), telescopic link (4) and receiver (5), its characterized in that: still include elevating gear (6), sound wave ware (2) set up the lower surface at gauge rod (1), register (3) set up the surface at gauge rod (1), the inner wall sliding connection of telescopic link (4) and gauge rod (1), the fixed surface of receiver (5) and telescopic link (4) is connected, elevating gear (6) set up the surface at gauge rod (1), elevating gear (6) include ratch (61), the fixed surface of ratch (61) and telescopic link (4) is connected, the surface of ratch (61) and the inner wall sliding connection of gauge rod (1).

2. The water depth metrological verification device of water transport engineering according to claim 1, characterized in that: the surface of probe rod (1) rotates and is connected with pivot (62), the fixed surface of pivot (62) is connected with gear (63), gear (63) are connected with the surface meshing of ratch (61).

3. The water depth metrological verification device of water transport engineering according to claim 2, characterized in that: one end fixedly connected with runner (64) of gear (63) is kept away from in pivot (62), runner (64) are connected with the surperficial rotation of gauge rod (1), the inner wall fixedly connected with fixed spring (65) of gauge rod (1).

4. The water depth metrological verification device of water transport engineering according to claim 3, characterized in that: the fixed surface of fixed spring (65) is connected with bolt (66), the one end that fixed spring (65) was kept away from in bolt (66) is inserted with the surface of ratch (61) and is established and be connected, inner wall sliding connection of bolt (66) and gauge rod (1), the fixed surface of bolt (66) is connected with shifting block (67).

5. The water depth metrological verification device of water transport engineering according to claim 1, characterized in that: the surface of record ware (3) is provided with fixing device (7), fixing device (7) are including installation piece (71), the fixed surface of installation piece (71) and record ware (3) is connected, the surface of record ware (3) is rotated and is connected with clamp splice (72), one side that record ware (3) are close to clamp splice (72) is rotated and is connected with clamp splice two (73).

6. The water depth metrological verification device of water transport engineering according to claim 5, characterized in that: the surface cover of clamp splice (72) and clamp splice two (73) and probe rod (1) is established and is connected, the fixed surface of clamp splice (72) is connected with fixed block (74), the inner wall fixedly connected with extension spring (75) of clamp splice two (73), the fixed surface of extension spring (75) is connected with slide bar (76).

7. The water depth metrological verification device of water transport engineering according to claim 6, characterized in that: the inner wall sliding connection of slide bar (76) and clamp splice two (73), the fixed surface of slide bar (76) is connected with carries piece (77), the fixed surface of carrying piece (77) is connected with inserted block (78), inserted block (78) are inserted with the surface of fixed block (74) and are established the connection.

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