CN214276915U - Hydrology monitoring scale - Google Patents

Abstract

The utility model discloses a hydrology monitoring scale, including scale support, solar energy apron, infrared receiving base, infrared buoyancy mark and water quality collection piece, scale support rigid coupling is on infrared receiving base, solar energy apron rigid coupling is at scale support top, one side of scale support is located to infrared buoyancy mark, inside the scale support is located to water quality collection piece. The utility model belongs to the technical field of hydrology monitoring, specifically provide a high-efficient natural resources, infrared distance measurement reading scale of utilizing can gather aquatic impurity, low cost, practicality are strong, long service life, the high solar energy infrared distance measurement formula hydrology monitoring scale of rate.

Description

Hydrology monitoring scale

Technical Field

The utility model belongs to the technical field of hydrology monitoring, specifically indicate a hydrology monitoring scale.

Background

Hydrology refers to various phenomena of water change, movement and the like in nature, a hydrological monitoring department often sets a hydrological monitoring scale on a dam or on the water side so as to read a numerical value at any time, and a common scale is painted by materials such as cement and mortar, and then is printed on the surface by paint. But hydrology monitoring scale on the existing market has some defects in the in-process of using, and the scale that the paint was brushed out is soaked by the water for a long time and is easily faded, needs periodic maintenance, and is very inconvenient, is difficult for observing data, and because can't look straight, there is the error in the data of reading, can't accurately know the water level.

SUMMERY OF THE UTILITY MODEL

For solving the above-mentioned current difficult problem, the utility model provides a high-efficient natural resources, infrared distance measurement reading scale can gather aquatic impurity, low cost, and the practicality is strong, long service life, hydrology monitoring scale that the rate of utilization is high.

The utility model adopts the technical scheme as follows: a hydrological monitoring scale comprises a scale support, a solar cover plate, an infrared receiving base, an infrared buoyancy mark and a water quality collecting piece, wherein the scale support is a rectangular hollow cavity, the bottom of the scale support is vertically and fixedly arranged in the middle on the infrared receiving base, the solar cover plate is arranged above the scale support, the infrared buoyancy mark can be slidably arranged on one side of the scale support, the water quality collecting piece is arranged inside the scale support, the scale support comprises a scale support body, a water quality collecting hollowed groove, a buoyancy mark sliding groove, a water quality collecting sliding groove I, a water quality collecting sliding groove II and a water quality collecting hole, the scale support body is arranged on the infrared receiving base, the opening of the buoyancy mark sliding groove is outwards arranged on one side of the scale support body, the water quality collecting hollowed groove is arranged in the scale support body, the water quality collecting hole penetrates through the surface of the scale support body and is communicated with the water quality collecting hollowed groove, the first water quality collecting sliding groove and the second water quality collecting sliding groove are arranged on the inner walls of two sides of the water quality collecting hollow groove in parallel, a cover plate connecting clamping groove and a solar cell are fixedly connected at the center of the lower wall of the solar cover plate, the cover plate connecting clamping groove is a rectangular hollow cavity with an opening at the lower end, a slide rail sleeving groove and a slide rail sleeving groove are symmetrically arranged on the inner wall of the cover plate connecting clamping groove, a buoyancy mark sleeving groove is arranged on the side wall of the cover plate connecting clamping groove, an infrared receiver is fixedly connected on the upper surface of the infrared receiving base and is arranged on one side of the buoyancy mark sliding groove, the infrared buoyancy mark comprises a buoyancy mark supporting frame, a display, an infrared transmitter, a first floating part and a second floating part, the buoyancy mark supporting frame is slidably clamped in the buoyancy mark sliding groove, the buoyancy mark supporting frame is in a Z-shaped design, and the display is fixedly connected on the upper surface of the buoyancy mark supporting frame, the water quality collection device comprises a floating piece I, a floating piece II, a water quality collection sliding rail I, a water quality collection sliding rail II, a water quality collection net I and a water quality collection sliding rail II, wherein the floating piece I and the floating piece II are fixedly connected to two sides of the lower surface of a buoyancy mark support frame respectively, an infrared emitter is fixedly connected to the lower surface of the buoyancy mark support frame, a buoyancy mark sliding shaft is arranged on the buoyancy support frame, the buoyancy mark sliding shaft is fixedly connected to one side of the lower surface of the buoyancy mark support frame, the water quality collection piece comprises the water quality collection net, the water quality collection sliding rail I and the water quality collection sliding rail II, the water quality collection net is rectangular, and the water quality collection sliding rail I and the water quality collection sliding rail II are fixedly connected to two sides of the water quality collection net.

Furthermore, the solar cell is respectively and electrically connected with the display, the infrared buoyancy indicator and the infrared receiver.

Furthermore, the first water quality collection sliding rail and the second water quality collection sliding rail are respectively slidably arranged in the first water quality collection sliding groove and the second water quality collection sliding groove, and the length of the first water quality collection sliding rail and the length of the second water quality collection sliding rail are larger than the length of the first water quality collection sliding groove and the length of the second water quality collection sliding groove which are slidably arranged.

Further, the shape of the cross section of the cover plate connecting clamping groove is the same as that of the cross section of the scale support body, the area of the cross section of the cover plate connecting clamping groove is the same as that of the cross section of the scale support body, the detachable buckling connection of the cover plate connecting clamping groove is arranged at the upper end of the scale support body, the water quality collecting sliding groove I and the water quality collecting sliding groove II are respectively in butt joint with the sliding rail sleeving groove and the sliding rail sleeving groove, and the buoyancy mark sleeving groove is in tight butt joint with the buoyancy mark sliding groove.

Furthermore, the buoyancy mark sliding shaft can be slidably clamped in the buoyancy mark sliding groove and the buoyancy mark sleeving groove, and can freely slide in the buoyancy mark sliding groove and the buoyancy mark sleeving groove.

Furthermore, infrared receiver locates infrared emitter under, guarantees that the infrared ray signal that infrared emitter launches can be accurate beat on infrared receiver.

Furthermore, the water quality collection net is a water-permeable fine filter net, can adsorb partial algae and fungi in water, can be taken out for detection, and is used as an important reference for the water quality of the water area.

Furthermore, the first floating part and the second floating part are light floating parts with density smaller than that of water, so that the first floating part and the second floating part can drive the infrared buoyancy mark to float on the water surface, and the accuracy of a detection result is guaranteed.

After the structure is adopted, the utility model discloses beneficial effect as follows: the utility model relates to a hydrology monitoring scale has overcome the scale that paint brushed out and has been soaked the shortcoming that easily fades by the water for a long time, can high-efficiently utilize natural resources, turn into the electric energy with light energy, through the accurate water level scale that reads of infrared range finding, the user only needs to observe the data on the display screen can accurate read out the water level, convenient safety and data are accurate, can gather aquatic impurity simultaneously and do corresponding detection and provide the reference for water quality testing data, have low cost, therefore, the clothes hanger is strong in practicability, long service life, characteristics that the rate of utilization is high.

Drawings

Fig. 1 is a schematic structural view of a hydrological monitoring scale according to the present invention;

fig. 2 is a schematic view of a scale support structure of a hydrological monitoring scale according to the present invention;

fig. 3 is a schematic structural view of a solar cover plate of a hydrological monitoring scale according to the present invention;

fig. 4 is a schematic structural view of an infrared buoyancy indicator of the hydrological monitoring scale according to the present invention;

fig. 5 is a three-dimensional structure diagram of the infrared buoyancy indicator of the hydrological monitoring scale of the present invention;

fig. 6 is a schematic structural view of the water quality collecting member of the hydrological monitoring scale of the present invention.

The solar water quality monitoring device comprises a scale support 1, a scale support 2, a solar cover plate 3, an infrared receiving base 4, an infrared buoyancy mark 5, a water quality collecting piece 6, a scale support body 7, a water quality collecting hollowed-out groove 8, a buoyancy mark sliding groove 9, a first water quality collecting sliding groove 10, a second water quality collecting sliding groove 11, a water quality collecting hole 12, a cover plate connecting clamping groove 13, a solar cell 14, a sliding rail sleeving groove 15, a sliding rail sleeving groove 16, a buoyancy mark sleeving groove 17, an infrared receiver 18, a buoyancy mark support frame 19, a display 20, an infrared transmitter 21, a buoyancy mark sliding shaft 22, a first floating piece 23, a second floating piece 24, a water quality collecting net 25, a first water quality collecting sliding rail 26 and a second water quality collecting sliding rail.

Detailed Description

The technical solution of the present invention will be described in further detail with reference to specific embodiments, and all the parts of the present invention not described in detail in the technical features or the connection relation are the prior art.

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in figures 1-6, the utility model relates to a hydrological monitoring scale, which comprises a scale support 1, a solar cover plate 2, an infrared receiving base 3, an infrared buoyancy mark 4 and a water quality collecting piece 5, wherein the scale support 1 is a rectangular hollow cavity, the bottom of the scale support 1 is vertically and fixedly arranged on the infrared receiving base 3, the solar cover plate 2 is arranged above the scale support 1, the infrared buoyancy mark 4 is slidably arranged at one side of the scale support 1, the water quality collecting piece 5 is arranged inside the scale support 1, the scale support 1 comprises a scale support body 6, a water quality collecting hollow groove 7, a buoyancy mark sliding groove 8, a water quality collecting sliding groove I9, a water quality collecting sliding groove II 10 and a water quality collecting hole 11, the scale support body 6 is arranged on the infrared receiving base 3, the buoyancy mark sliding groove 8 is arranged at one side of the scale support body 6 with an opening outwards, the water quality collection hollowed-out groove 7 is arranged in the scale support body 6, the water quality collection hole 11 is arranged on the surface of the scale support body 6 in a penetrating mode and is communicated with the water quality collection hollowed-out groove 7, the first water quality collection sliding groove 9 and the second water quality collection sliding groove 10 are arranged on the inner walls of two sides of the water quality collection hollowed-out groove 7 in parallel, a cover plate connection clamping groove 12 and a solar cell 13 are fixedly connected to the center of the lower wall of the solar cover plate 2, the cover plate connection clamping groove 12 is a rectangular hollow cavity with an opening at the lower end, a slide rail sleeving groove 14 and a slide rail sleeving groove 15 are symmetrically arranged on the inner wall of the cover plate connection clamping groove 12, a buoyancy mark sleeving groove 16 is arranged on the side wall of the cover plate connection clamping groove 12, an infrared receiver 17 is fixedly connected to the upper surface of the infrared receiving base 3, the infrared receiver 17 is arranged on one side of the buoyancy mark sliding groove 8, and the infrared buoyancy mark 4 comprises a buoyancy mark support frame 18, A display 19, an infrared emitter 20, a buoyancy indicator sliding shaft 21, a first floating piece 22 and a second floating piece 23, the buoyancy sign support frame 18 is slidably clamped in the buoyancy sign sliding groove 8, the buoyancy sign support frame 18 is in a Z-shaped design, the display 19 is fixedly connected on the upper surface of the buoyancy sign support frame 18, the first floating piece 22 and the second floating piece 23 are respectively and fixedly connected on the two sides of the lower surface of the buoyancy sign support frame 18, the infrared emitter 20 is fixedly connected with the lower surface of the buoyancy mark support frame 18, the buoyancy mark sliding shaft 21 is fixedly connected with one side of the lower surface of the buoyancy mark support frame 18, the water quality collecting part 5 comprises a water quality collecting net 24, a first water quality collecting slide rail 25 and a second water quality collecting slide rail 26, the water quality collection net 24 is rectangular, and the first water quality collection sliding rail 25 and the second water quality collection sliding rail 26 are fixedly connected to two sides of the water quality collection net 24 in parallel.

The solar cell 13 is electrically connected with the display 19, the infrared buoyancy indicator 4 and the infrared receiver 17 respectively; the first water quality collection sliding rail 25 and the second water quality collection sliding rail 26 are respectively arranged in the first water quality collection sliding groove 9 and the second water quality collection sliding groove 10 in a sliding manner, and the lengths of the first water quality collection sliding rail 25 and the second water quality collection sliding rail 26 are larger than those of the first water quality collection sliding groove 9 and the second water quality collection sliding groove 10; the cross section of the cover plate connecting clamping groove 12 is the same as that of the scale support body 6 in shape, the cross section of the cover plate connecting clamping groove 12 is the same as that of the scale support body 6 in area, the cover plate connecting clamping groove 12 is detachably buckled at the upper end of the scale support body 6, the first water quality collecting sliding groove 9 and the second water quality collecting sliding groove 10 are respectively butted with the sliding rail sleeving groove 14 and the sliding rail sleeving groove 15, and the buoyancy mark sleeving groove 16 is butted with the buoyancy mark sliding groove 8; the buoyancy mark sliding shaft 21 can be slidably clamped in the buoyancy mark sliding groove 8 and the buoyancy mark sleeving groove 16; the infrared receiver 17 is arranged right below the infrared transmitter 20; the water quality collection net 24 is a permeable fine filter net; the first and second floating members 22 and 23 are lightweight floating members having a density less than that of water.

When the hydrological monitoring scale is used specifically, the hydrological monitoring scale is well installed and placed at a preset point position in the open air, and the solar cell 13, the infrared buoyancy mark 4 and the infrared receiver 17 are electrically connected; when water contacts the infrared buoyancy mark 4, because the densities of the first floating part 22 and the second floating part 23 on the infrared buoyancy mark 4 are smaller than that of the water, the water generates buoyancy on the first floating part 22 and the second floating part 23 to enable the infrared buoyancy mark 4 to float to the water surface, at the moment, the infrared emitter 20 positioned at the water surface transmits an infrared signal, the infrared receiver 17 positioned at the water bottom receives the infrared signal, the measured height value from the water surface to the water bottom is displayed on the display 19, and reading and recording by workers are facilitated; the water quality collecting net 24 placed in water can collect algae, fungi, suspended matters and other impurities in water, and the water quality collecting piece 5 can be taken down periodically for corresponding detection, so that reference is provided for water quality detection data.

The present invention and the embodiments thereof have been described above, but the description is not limited thereto, and the embodiment shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should understand that they should not be limited to the embodiments described above, and that they can design the similar structure and embodiments without departing from the spirit of the invention.

Claims (8)

1. A hydrologic monitoring scale which characterized in that: the water quality acquisition device comprises a scale support, a solar cover plate, an infrared receiving base, an infrared buoyancy mark and a water quality acquisition part, wherein the scale support is a rectangular hollow cavity, the bottom of the scale support is vertically and fixedly arranged on the infrared receiving base in the middle, the solar cover plate is arranged above the scale support, the infrared buoyancy mark is slidably arranged on one side of the scale support, the water quality acquisition part is arranged inside the scale support, the scale support comprises a scale support body, a water quality acquisition hollowed-out groove, a buoyancy mark sliding groove, a water quality acquisition sliding groove I, a water quality acquisition sliding groove II and a water quality acquisition hole, the scale support body is arranged on the infrared receiving base, the opening of the buoyancy mark sliding groove is outwards arranged on one side of the scale support body, the water quality acquisition hollowed-out groove is arranged in the scale support body, the water quality acquisition hole is arranged on the surface of the scale support body and is communicated with the water quality acquisition hollowed-out groove, the first water quality collecting sliding groove and the second water quality collecting sliding groove are arranged on the inner walls of two sides of the water quality collecting hollow groove in parallel, a cover plate connecting clamping groove and a solar cell are fixedly connected at the center of the lower wall of the solar cover plate, the cover plate connecting clamping groove is a rectangular hollow cavity with an opening at the lower end, a slide rail sleeving groove and a slide rail sleeving groove are symmetrically arranged on the inner wall of the cover plate connecting clamping groove, a buoyancy mark sleeving groove is arranged on the side wall of the cover plate connecting clamping groove, an infrared receiver is fixedly connected on the upper surface of the infrared receiving base and is arranged on one side of the buoyancy mark sliding groove, the infrared buoyancy mark comprises a buoyancy mark supporting frame, a display, an infrared transmitter, a first floating part and a second floating part, the buoyancy mark supporting frame is slidably clamped in the buoyancy mark sliding groove, the buoyancy mark supporting frame is in a Z-shaped design, and the display is fixedly connected on the upper surface of the buoyancy mark supporting frame, the water quality collection device comprises a floating piece I, a floating piece II, a water quality collection sliding rail I, a water quality collection sliding rail II, a water quality collection net and a water quality collection sliding rail II, wherein the floating piece I and the floating piece II are fixedly connected to two sides of the lower surface of a buoyancy mark support frame respectively, the infrared transmitter is fixedly connected to the lower surface of the buoyancy mark support frame, a buoyancy mark sliding shaft is arranged on the buoyancy mark support frame, the buoyancy mark sliding shaft is fixedly connected to one side of the lower surface of the buoyancy mark support frame, the water quality collection piece comprises the water quality collection net, the water quality collection sliding rail I and the water quality collection sliding rail II, the water quality collection net is rectangular, and the water quality collection sliding rail I and the water quality collection sliding rail II are fixedly connected to two sides of the water quality collection net in parallel.

2. A hydrological monitoring scale according to claim 1, wherein: the solar cell is electrically connected with the display, the infrared buoyancy indicator and the infrared receiver respectively.

3. A hydrological monitoring scale according to claim 1, wherein: the water quality collection sliding rail I and the water quality collection sliding rail II are respectively arranged in the water quality collection sliding groove I and the water quality collection sliding groove II in a slidable mode, and the length of the water quality collection sliding rail I and the length of the water quality collection sliding rail II are larger than the length of the water quality collection sliding groove I and the length of the water quality collection sliding groove II.

4. A hydrological monitoring scale according to claim 1, wherein: the shape of the cross section of the cover plate connecting clamping groove is the same as that of the cross section of the scale support body, the area of the cross section of the cover plate connecting clamping groove is the same as that of the cross section of the scale support body, the detachable buckling connection of the cover plate connecting clamping groove is arranged at the upper end of the scale support body, the water quality collecting sliding groove I and the water quality collecting sliding groove II are respectively in butt joint with the sliding rail sleeve connecting groove and the sliding rail sleeve connecting groove, and the buoyancy mark sleeve connecting groove is in butt joint with the buoyancy mark sliding groove.

5. A hydrological monitoring scale according to claim 1, wherein: the buoyancy mark sliding shaft is slidably clamped in the buoyancy mark sliding groove and the buoyancy mark sleeving groove.

6. A hydrological monitoring scale according to claim 1, wherein: the infrared receiver is arranged right below the infrared transmitter.

7. A hydrological monitoring scale according to claim 1, wherein: the water quality collection net is a permeable fine filter net.

8. A hydrological monitoring scale according to claim 1, wherein: the first floating piece and the second floating piece are light floating pieces with density smaller than that of water.

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