CN213067565U - Hydraulic engineering bathymetric survey device - Google Patents

Abstract

The utility model discloses a hydraulic engineering bathymetric survey device relates to the hydraulic measurement technical field. The utility model discloses a bottom plate, first electric telescopic handle, second electric telescopic handle and third electric telescopic handle, first electric telescopic handle's output is fixed with the stand, the one end of stand is seted up flutedly, and the one end of stand is fixed with second U template, the inboard rotation of second U template is connected with the connecting plate, the inside fixed mounting of recess has positive reverse motor, the first U template of connecting plate one end fixedly connected with, first U template and second electric telescopic handle fixed connection, first U template one side is run through and is fixed with square post, be fixed with third electric telescopic handle between bottom plate and the first electric telescopic handle. The utility model discloses a set up first electric telescopic handle, second electric telescopic handle, third electric telescopic handle, square post and positive reverse motor, can realize the folding of whole device to can measure the different distances and the not equidirectional waters depth of water.

Description

Hydraulic engineering bathymetric survey device

Technical Field

The utility model belongs to the technical field of the hydraulic measurement, especially, relate to a hydraulic engineering bathymetric survey device.

Background

Hydraulic engineering is an engineering built for controlling and allocating surface water and underground water in the nature to achieve the purpose of removing harm and benefiting, is also called water engineering, water is a valuable resource essential for human production and life, but the naturally existing state of the water does not completely meet the needs of human beings, and only when the hydraulic engineering is built, water flow can be controlled to prevent flood disasters, and water quantity regulation and distribution are performed to meet the needs of people's life and production on water resources.

The engineering of profit is before building, often need measure the depth of water of its position department, during the measurement, open the hull to the surface of water, utilize measuring instrument to carry out the measurement of depth of water, current depth of water measuring device is all the snap-on the hull, and the hull guardrail height of difference is different, and highly fixed's measurement frame not only space occupancy is high, still do not have the altitude mixture control function, so that can not adapt to the hull of different guardrail heights, inconvenient use, in addition, current measuring device can only the depth of water of a certain position usually, can not measure the depth of water to the waters in different positions, and is large in size, be not convenient for fold, be not portable.

Therefore, the utility model designs a hydraulic engineering bathymetric survey device to solve above-mentioned problem.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a hydraulic engineering depth of water measuring device, through setting up first electric telescopic handle, second electric telescopic handle, third electric telescopic handle, square post and positive reverse motor, can realize the folding of whole device, portable to can measure the different distances and the not equidirectional waters depth of water, solved current depth of water measuring device and can not measure the not waters depth of water in different positions, it is bulky, the not portable problem.

In order to solve the technical problem, the utility model discloses a realize through following technical scheme:

the utility model relates to a hydraulic engineering depth of water measuring device, including bottom plate and second electric telescopic link, bottom plate upper surface is fixed with battery, connecting block and two branch boards, rotates between two branch boards and is connected with the stranded conductor dish, the upper surface of bottom plate is fixed and is installed step motor, the last measuring rope that twines of stranded conductor dish, and the stranded conductor dish passes through step motor drive;

the bottom plate is rotatably connected with a first electric telescopic rod through a connecting block, an upright post is fixed at the output end of the first electric telescopic rod, a groove is formed in one end of the upright post, a second U-shaped plate is fixed at one end of the upright post, a connecting plate is rotatably connected to the inner side of the second U-shaped plate, a forward and reverse rotating motor is fixedly installed inside the groove, and a rotating shaft of the forward and reverse rotating motor penetrates through the second U-shaped plate and is fixedly connected with the connecting plate;

one end of the connecting plate is fixedly connected with a first U-shaped plate, the first U-shaped plate is fixedly connected with a second electric telescopic rod, a square column penetrates through and is fixed to one side of the first U-shaped plate, a pulling plate is fixed to one end of the square column, a tension spring is fixed between the pulling plate and the first U-shaped plate, and a third electric telescopic rod is fixed between the bottom plate and the first electric telescopic rod;

two limiting rings are fixed at the output end of the second electric telescopic rod, one side of the second U-shaped plate is fixed with the same limiting ring, and a balancing weight is fixed at one end of the measuring rope.

Furthermore, the fixed end of the third electric telescopic rod is rotatably connected with the bottom plate through a hinged support, and the output end of the third electric telescopic rod is rotatably connected with the outer cylinder wall of the first electric telescopic rod through a hinged support.

Furthermore, the rotating shaft of the forward and reverse rotating motor penetrates through the support plate and is fixedly connected with the stranded wire disc, and the measuring rope penetrates through the three limiting rings in sequence.

Furthermore, one end of the square column sequentially penetrates through the fixed ends of the first U-shaped plate and the second electric telescopic rod and is embedded into the inner wall of the first U-shaped plate, and suckers are fixed at four corners of the bottom surface of the bottom plate.

Further, the connecting plate rotates for the stand level, the battery provides operating voltage for first electric telescopic handle, second electric telescopic handle, third electric telescopic handle, step motor and positive reverse motor respectively.

The utility model discloses following beneficial effect has:

1. the utility model discloses a set up third electric telescopic handle, first U template and square post, can unpack first U template and second electric telescopic handle apart through square post to folding through third electric telescopic handle drive first electric telescopic handle receive and releases, realize the folding of whole device, save space, portable.

2. The utility model discloses a set up sucking disc, positive and negative motor, first electric telescopic handle and second electric telescopic handle, can easily fix the device on the hull, can adapt to the not hull guardrail of co-altitude, can measure the waters depth of water of different distances and equidirectional, convenient operation, the practicality is strong.

Of course, it is not necessary for any particular product to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a water depth measuring device for hydraulic engineering;

FIG. 2 is a schematic view of the structure of FIG. 1 from another angle;

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

FIG. 4 is a schematic structural view of the second electric telescopic rod connected with the first U-shaped plate;

FIG. 5 is a schematic view of the structure of FIG. 4, disassembled;

FIG. 6 is a schematic structural view of the column;

FIG. 7 is an enlarged view of part A of the present invention;

in the drawings, the components represented by the respective reference numerals are listed below:

1-bottom plate, 2-sucker, 3-storage battery, 4-stepping motor, 5-support plate, 6-wire twisting disc, 7-measuring rope, 8-connecting block, 9-first electric telescopic rod, 10-upright post, 11-second electric telescopic rod, 12-third electric telescopic rod, 13-limiting ring, 14-first U-shaped plate, 15-pulling plate, 16-tension spring, 17-square column, 18-positive and negative rotation motor, 19-second U-shaped plate, 20-connecting plate, 21-balancing weight and 22-groove.

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 of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1-7, the utility model relates to a hydraulic engineering water depth measuring device, which comprises a bottom plate 1 and a second electric telescopic rod 11, wherein a storage battery 3, a connecting block 8 and two support plates 5 are fixed on the upper surface of the bottom plate 1 through screws, a stranded wire disc 6 is rotatably connected between the two support plates 5, a stepping motor 4 is fixedly arranged on the upper surface of the bottom plate 1 through a backing plate, a measuring rope 7 is wound on the stranded wire disc 6, and the stranded wire disc 6 is driven by the stepping motor 4;

the bottom plate 1 is rotatably connected with a first electric telescopic rod 9 through a connecting block 8, an output end of the first electric telescopic rod 9 is fixedly welded with an upright post 10, one end of the upright post 10 is provided with a groove 22, one end of the upright post 10 is fixedly welded with a second U-shaped plate 19, the inner side of the second U-shaped plate 19 is rotatably connected with a connecting plate 20, a forward and reverse rotating motor 18 is fixedly installed inside the groove 22 through a screw, and a rotating shaft of the forward and reverse rotating motor 18 penetrates through the second U-shaped plate 19 and is fixedly connected with the connecting plate 20;

one end of the connecting plate 20 is fixedly connected with a first U-shaped plate 14 in a welded mode, the first U-shaped plate 14 is fixedly connected with a second electric telescopic rod 11, a square column 17 penetrates through and is fixed to one side of the first U-shaped plate 14, a pull plate 15 is fixedly connected to one end of the square column 17 in a welded mode, a tension spring 16 is fixed between the pull plate 15 and the first U-shaped plate 14, and a third electric telescopic rod 12 is fixed between the bottom plate 1 and the first electric telescopic rod 9;

two limiting rings 13 are welded and fixed at the output end of the second electric telescopic rod 11, one same limiting ring 13 is welded and fixed at one side of the second U-shaped plate 19, and a balancing weight 21 is fixed at one end of the measuring rope 7.

As shown in fig. 3, the fixed end of the third electric telescopic rod 12 is rotatably connected with the bottom plate 1 through a hinged support, the output end of the third electric telescopic rod 12 is rotatably connected with the outer cylinder wall of the first electric telescopic rod 9 through a hinged support, and the first electric telescopic rod 9 can be folded and stored through the third electric telescopic rod 12.

As shown in fig. 4 and 6, a rotating shaft of the forward and reverse rotation motor 18 penetrates through the support plate 5 and is fixedly connected with the stranded wire disc 6, the measuring rope 7 sequentially penetrates through the three limiting rings 13, and the limiting rings 13 can enable the measuring rope 17 to extend and retract along a certain track.

As shown in fig. 1 and 5, one end of a square column 17 sequentially penetrates through the fixed ends of the first U-shaped plate 14 and the second electric telescopic rod 11 and is embedded into the inner wall of the first U-shaped plate 14, suction cups 2 are fixed at four corners of the bottom surface of the bottom plate 1, and the device is convenient to fix and disassemble through the suction cups 2.

As shown in fig. 2 and 6, the connection plate 20 horizontally rotates relative to the upright post 10, and the storage battery 3 respectively supplies operating voltages to the first electric telescopic rod 9, the second electric telescopic rod 11, the third electric telescopic rod 12, the stepping motor 4 and the forward and reverse rotation motor 18.

One specific application of this embodiment is: when the device is used, the pulling plate 15 is pulled firstly, the square column 17 is drawn out from the first U-shaped plate 14, the angle of the fixed end of the second electric telescopic rod 11 in the first U-shaped plate 14 is adjusted, the second electric telescopic rod 11 is perpendicular to the upright post 10, at the moment, the pulling plate 15 is loosened, the square column 17 can slide into the first U-shaped plate 14 under the action of the tension spring 16, the fixed end of the second electric telescopic rod 11 is clamped in the first U-shaped plate 14, then the third electric telescopic rod 12 is started, the first electric telescopic rod 9 is pushed up through the third electric telescopic rod 12, the first electric telescopic rod 9 is perpendicular to the bottom plate 1, at the moment, the first electric telescopic rod 9 can be started according to the height of a ship body, so that the second electric telescopic rod 11 is higher than the ship body fence, at the moment, the second electric telescopic rod 11 and the forward and reverse rotation motor 18 are started as required, and the extension degrees of the second, the water depth of measurable quantity different positions, positive reverse motor 18 passes through connecting plate 20 and drives second electric telescopic handle 11 rotatory, and the water depth of measurable quantity equidirectional, step motor 4 drive the rotation of stranded conductor dish 6 to the realization is to the release and the rolling of measuring rope 7.

In the description herein, references to the description of "one embodiment," "an example," "a specific example," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the present invention disclosed above are intended only to help illustrate the present invention. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and its practical applications, to thereby enable others skilled in the art to best understand the invention for and utilize the invention. The present invention is limited only by the claims and their full scope and equivalents.

Claims (6)

1. The utility model provides a hydraulic engineering bathymetric survey device which characterized in that: the wire twisting disc comprises a bottom plate (1) and a second electric telescopic rod (11), wherein a storage battery (3), a connecting block (8) and two supporting plates (5) are fixed on the upper surface of the bottom plate (1), a wire twisting disc (6) is rotatably connected between the two supporting plates (5), a stepping motor (4) is fixedly installed on the upper surface of the bottom plate (1), a measuring rope (7) is wound on the wire twisting disc (6), and the wire twisting disc (6) is driven by the stepping motor (4);

the bottom plate (1) is rotatably connected with a first electric telescopic rod (9) through a connecting block (8), an upright post (10) is fixed at the output end of the first electric telescopic rod (9), a groove (22) is formed in one end of the upright post (10), a second U-shaped plate (19) is fixed at one end of the upright post (10), a connecting plate (20) is rotatably connected to the inner side of the second U-shaped plate (19), a forward and reverse rotating motor (18) is fixedly installed inside the groove (22), and a rotating shaft of the forward and reverse rotating motor (18) penetrates through the second U-shaped plate (19) and is fixedly connected with the connecting plate (20);

one end of the connecting plate (20) is fixedly connected with a first U-shaped plate (14), the first U-shaped plate (14) is fixedly connected with a second electric telescopic rod (11), a square column (17) penetrates through and is fixed to one side of the first U-shaped plate (14), one end of the square column (17) is fixed with a pulling plate (15), a tension spring (16) is fixed between the pulling plate (15) and the first U-shaped plate (14), and a third electric telescopic rod (12) is fixed between the bottom plate (1) and the first electric telescopic rod (9);

two limiting rings (13) are fixed at the output end of the second electric telescopic rod (11), one side of the second U-shaped plate (19) is fixed with the same limiting ring (13), and one end of the measuring rope (7) is fixed with a balancing weight (21).

2. The hydraulic engineering water depth measuring device according to claim 1, wherein a fixed end of the third electric telescopic rod (12) is rotatably connected with the bottom plate (1) through a hinged support, and an output end of the third electric telescopic rod (12) is rotatably connected with an outer cylinder wall of the first electric telescopic rod (9) through a hinged support.

3. The hydraulic engineering water depth measuring device according to claim 1, wherein a rotating shaft of the forward and reverse rotating motor (18) penetrates through the support plate (5) and is fixedly connected with the wire twisting disc (6), and the measuring rope (7) penetrates through the three limiting rings (13) in sequence.

4. The hydraulic engineering bathymetric survey device according to claim 1, characterized in that one end of the square column (17) sequentially penetrates through the fixed ends of the first U-shaped plate (14) and the second electric telescopic rod (11) and is embedded into the inner wall of the first U-shaped plate (14), and suction cups (2) are fixed at four corners of the bottom surface of the bottom plate (1).

5. The hydraulic engineering bathymetric measuring device according to claim 1, characterized in that the connection plate (20) is horizontally rotated with respect to the vertical column (10).

6. The hydraulic engineering water depth measuring device according to claim 1, wherein the storage battery (3) provides working voltage for the first electric telescopic rod (9), the second electric telescopic rod (11), the third electric telescopic rod (12), the stepping motor (4) and the forward and reverse rotation motor (18) respectively.

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