CN210862744U - Water quality monitoring device support for hydraulic engineering - Google Patents

Abstract

The utility model discloses a water quality monitoring device support for hydraulic engineering, including footstock, base, connecting pipe, diversion plate, anchoring mechanism, mount pad and elevating system, the interval sets up about footstock and the base, and the connecting pipe is used for connecting footstock and base, mount pad and connecting pipe sliding connection, the fixed monitoring devices body in below of mount pad, and anchoring mechanism is including changeing cover and anchor pole, and elevating system includes thread bush and threaded rod, the beneficial effects of the utility model are that, this device can make things convenient for firm fixed to the device through anchoring mechanism's setting to make the device carry out water quality monitoring to the fixed position in waters, can adjust the height of monitoring devices body through elevating system, thereby detect the quality of water to the fixed depth position in waters.

Description

Water quality monitoring device support for hydraulic engineering

Technical Field

The utility model relates to an engineering detection device technical field in the water, concretely relates to water quality monitoring device support for hydraulic engineering.

Background

The water quality monitor can measure the data of pH value, conductivity, dissolved oxygen, salinity, solute, seawater proportion, temperature, turbidity, depth, oxidation-reduction potential and the like of water, and when the water quality monitor is used for detecting the water quality of surface water, the water quality monitor is usually installed by arranging a floating island.

However, after the floating island is provided with the monitoring instrument, the floating island is inconvenient to fix, the position of the floating island can be changed along with the floating of the water surface, the water quality at the fixed position cannot be monitored for a long time, particularly in rivers with high water flow speed, the position of the floating island is more difficult to fix, in addition, the water quality monitoring instrument generally needs to monitor the water quality at the fixed depth for a long time in the actual use process, the existing monitoring device is arranged on the floating island, and when the height of the water body in the water area is changed, the monitored depth can also be changed.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a water quality monitoring device support for hydraulic engineering, the utility model discloses a realize through following technical scheme.

A water quality monitoring device bracket for hydraulic engineering comprises a top seat, a base, a connecting pipe, a water distribution plate, an anchoring mechanism, a mounting seat and a lifting mechanism;

the top seat and the base are regular triangles and are arranged at intervals up and down, the included angle position of the top seat and the base is provided with paired mounting holes, the center of the upper surface of the top seat is rotatably connected with a driving gear through a rotating column, and the upper surface of the driving gear is eccentrically and fixedly connected with a crank;

the connecting pipes are fixedly connected in the paired mounting holes, the bottoms of the connecting pipes are flush with the lower surface of the base, the tops of the connecting pipes are positioned on the upper surface of the top seat, and the connecting pipes are of cylindrical cavity structures with openings at the bottoms;

the water distribution plate comprises two water distribution plates, the two water distribution plates are fixedly connected into a cone with an included angle of 60 degrees, and the water distribution plates are fixedly connected with the top seat and the base;

the anchoring mechanism is arranged in each connecting pipe, the mounting seat is connected with the connecting pipes in a sliding mode, and the lifting mechanism is arranged between the top seat and the mounting seat.

Furthermore, the base is provided with a positioning bin in an arching manner, and positioning drill rods are uniformly and fixedly connected to the circumference of the lower surface of the base.

Further, anchoring mechanism is including changeing cover and anchor pole, change the cover and rotate to connect in the connecting pipe, change the internal screw hole that is equipped with of cover, the top rigid coupling of changeing the cover has the axostylus axostyle, the axostylus axostyle passes through the bearing rotation with the roof of connecting pipe and is connected, and the top of axostylus axostyle still rigid coupling has driven gear, driven gear and drive gear meshing, the top rigid coupling of anchor pole has the connector, connector threaded connection is in the threaded hole, and the even rigid coupling in circumference of anchor pole has the guide way, the inner chamber bottom rigid coupling of connecting pipe has the guide block with.

Further, the mount pad is regular triangle, and the equal rigid coupling in three contained angle department of mount pad has the sliding sleeve, sliding sleeve and connecting pipe registrate sliding connection, there is the fixed plate below the mount pad through the bolt rigid coupling, the lower skin weld of fixed plate has the monitoring devices body.

Further, elevating system includes thread bush and threaded rod, the top of thread bush passes through the bearing frame with the lower surface of footstock and rotates to be connected, and the even rigid coupling of outer wall circumference of thread bush has the bull stick, threaded rod threaded connection is in the thread bush, the bottom of threaded rod and the upper surface rigid coupling of mount pad.

The beneficial effects of the utility model are that, this device can carry out convenient firm fixed to the device through anchoring mechanism's setting to make the device carry out water quality monitoring to the fixed position in waters, can adjust the height of monitoring devices body through elevating system, thereby detect the quality of water to the fixed depth position in waters.

Drawings

In order to more clearly illustrate the technical solution of the present invention, the drawings used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some examples 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: the utility model relates to a structure schematic diagram of a water quality monitoring device bracket for hydraulic engineering;

FIG. 2: the structure of the top seat of the utility model is shown schematically;

FIG. 3: the structure of the base of the utility model is shown schematically;

FIG. 4: the structure of the anchoring mechanism of the utility model is schematically shown;

FIG. 5: the utility model discloses a structure schematic diagram of the anchoring rod;

FIG. 6: the structure of the mounting base of the utility model is shown schematically;

FIG. 7: elevating system's structural schematic.

The reference numbers are as follows:

1-top seat, 101-mounting hole, 102-rotary column, 103-driving gear, 104-crank, 2-base, 201-positioning bin, 202-positioning drill rod, 3-connecting pipe, 4-water diversion plate, 5-anchoring mechanism, 501-rotary sleeve, 502-anchoring rod, 5021-connecting head, 5022-guide groove, 5023-guide block, 503-threaded hole, 504-shaft rod, 505-driven gear, 6-mounting seat, 601-sliding sleeve, 602-bolt, 603-fixing plate, 604-monitoring device body, 7-lifting mechanism, 701-threaded sleeve, 702-threaded rod, 703-bearing seat and 704-rotary rod.

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.

As shown in fig. 1 to 7, the present invention has the following five embodiments.

Example 1

A water quality monitoring device bracket for hydraulic engineering comprises a top seat 1, a base 2, a connecting pipe 3, a water distribution plate 4, an anchoring mechanism 5, a mounting seat 6 and a lifting mechanism 7;

the top seat 1 and the base 2 are regular triangles, the top seat 1 and the base 2 are arranged at intervals up and down, the included angle position of the top seat 1 and the base 2 is provided with a pair of mounting holes 101, the center of the upper surface of the top seat 1 is rotatably connected with a driving gear 103 through a rotary column 102, and the upper surface of the driving gear 103 is eccentrically and fixedly connected with a crank 104;

the connecting pipes 3 are fixedly connected in the paired mounting holes 101, the bottoms of the connecting pipes 3 are flush with the lower surface of the base 2, the tops of the connecting pipes 3 are positioned on the upper surface of the top seat 1, and the connecting pipes 3 are of cylindrical cavity structures with openings at the bottoms;

the water distribution plate 4 comprises two water distribution plates 4, the two water distribution plates 4 are fixedly connected into a cone with an included angle of 60 degrees, and the water distribution plates 4 are fixedly connected with the top seat 1 and the base 2;

the anchoring mechanism 5 is provided in each connecting pipe 3, the mounting seat 6 is slidably connected to the connecting pipe 3, and the elevating mechanism 7 is provided between the footstock 1 and the mounting seat 6.

Example 2

The difference from embodiment 1 is that the following is also included:

the base 2 is provided with a positioning bin 201 in an arching manner, and positioning pins 202 are uniformly and fixedly connected to the circumference of the lower surface of the base 2.

Example 3

The difference from embodiment 2 is that the following contents are also included:

anchoring mechanism 5 is including changeing cover 501 and anchor pole 502, change cover 501 and rotate to be connected in connecting pipe 3, it is equipped with screw hole 503 in the cover 501 to change, the top rigid coupling of cover 501 has axostylus axostyle 504, axostylus axostyle 504 passes through the bearing rotation with the roof of connecting pipe 3 and is connected, the top of axostylus axostyle 504 still rigid coupling has driven gear 505, driven gear 505 and drive gear 103 meshing, the top rigid coupling of anchor pole 502 has connector 5021, connector 5021 threaded connection is in screw hole 503, the even rigid coupling in circumference of anchor pole 502 has guide way 5022, the inner chamber bottom rigid coupling of connecting pipe 3 has guide block 5023 with guide way 5022 sliding.

Example 4

The difference from embodiment 3 is that the following is also included:

the mount pad 6 is regular triangle, and the equal rigid coupling in three contained angle department of mount pad 6 has sliding sleeve 601, and sliding sleeve 601 and connecting pipe 3 registrate sliding connection, and there is fixed plate 603 the below of mount pad 6 through the bolt 602 rigid coupling, and the lower skin weld of fixed plate 603 has monitoring devices body 604.

Example 5

The difference from embodiment 4 is that the following is also included:

the lifting mechanism 7 comprises a threaded sleeve 701 and a threaded rod 702, the top of the threaded sleeve 701 is rotatably connected with the lower surface of the top seat 1 through a bearing seat 703, a rotating rod 704 is uniformly and fixedly connected to the circumference of the outer wall of the threaded sleeve 701, the threaded rod 702 is in threaded connection with the threaded sleeve 701, and the bottom of the threaded rod 702 is fixedly connected with the upper surface of the mounting seat 6.

Principle of operation

When in use, the monitoring device body 604 and the fixing plate 603 are first welded, and the fixing plate 603 and the mounting base 6 are fixedly connected into a whole structure through the bolts 602.

Carry the relevant position in waters with the device through the ship, then put down the device, during location borer 202 inserted the silt of waters bottom under the effect of device gravity, carry out the preliminary location of device, the positioning bin 201 that the arch camber set up can some cladding mud and soil, the stability of preliminary increase device.

The handing-over position of board 4 that will divide water is directional the upper reaches of river, then drive gear 103 through crank 104 and rotate, drive gear 103 drives each driven gear 505 and rotates, thereby axostylus axostyle 504 and commentaries on classics cover 501 rotate in step, under the effect of guide way 5022 and guide block 5023, the integrative structure of anchor rod 502 and connector 5021 is injectd the motion for vertical direction, when changeing cover 501 and rotating, anchor rod 502 downstream, insert in the soil of waters bottom, fix the position of device, divide the power that board 4 that divides water can flow rivers in the river, the impact force of avoiding the device to receive is too big and the device that leads to emptys.

When the rotating rod 704 drives the threaded sleeve 701 to rotate, the threaded rod 702 can be adjusted to descend or ascend, so that the heights of the mounting seat 6 and the monitoring device body 604 are adjusted, and the monitoring device monitors the fixed water quality stretching into the water tank.

The preferred embodiments of the present invention disclosed above are intended only to help illustrate the present invention. The preferred embodiments are not exhaustive and do not 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 (5)

1. The utility model provides a water quality monitoring device support for hydraulic engineering which characterized in that: comprises a top seat (1), a base (2), a connecting pipe (3), a water distribution plate (4), an anchoring mechanism (5), a mounting seat (6) and a lifting mechanism (7);

the top seat (1) and the base (2) are regular triangles, the top seat (1) and the base (2) are arranged at intervals up and down, the included angle positions of the top seat (1) and the base (2) are provided with paired mounting holes (101), the center of the upper surface of the top seat (1) is rotatably connected with a driving gear (103) through a rotary column (102), and the upper surface of the driving gear (103) is eccentrically and fixedly connected with a crank (104);

the connecting pipes (3) are fixedly connected in the paired mounting holes (101), the bottoms of the connecting pipes (3) are flush with the lower surface of the base (2), the tops of the connecting pipes (3) are positioned on the upper surface of the top seat (1), and the connecting pipes (3) are of cylindrical cavity structures with the bottoms open;

the water distribution plate (4) comprises two water distribution plates, the two water distribution plates (4) are fixedly connected into a cone with an included angle of 60 degrees, and the water distribution plates (4) are fixedly connected with the top seat (1) and the base (2);

the anchoring mechanism (5) is arranged in each connecting pipe (3), the mounting seat (6) is connected with the connecting pipes (3) in a sliding mode, and the lifting mechanism (7) is arranged between the top seat (1) and the mounting seat (6).

2. The water quality monitoring device bracket for the hydraulic engineering according to claim 1, characterized in that: the base (2) is provided with a positioning bin (201) in an arching manner, and positioning drill rods (202) are uniformly and fixedly connected to the circumference of the lower surface of the base (2).

3. The water quality monitoring device bracket for the hydraulic engineering according to claim 1, characterized in that: anchoring mechanism (5) are including changeing cover (501) and anchor pole (502), change cover (501) and rotate to be connected in connecting pipe (3), change and be equipped with screw hole (503) in cover (501), the top rigid coupling of changeing cover (501) has axostylus axostyle (504), axostylus axostyle (504) passes through the bearing rotation with the roof of connecting pipe (3) and is connected, and the top of axostylus axostyle (504) still rigid coupling has driven gear (505), driven gear (505) and drive gear (103) meshing, the top rigid coupling of anchor pole (502) has connector (5021), connector (5021) threaded connection is in screw hole (503), and the even rigid coupling in circumference of anchor pole (502) still has guide way (5022), the inner chamber bottom rigid coupling of connecting pipe (3) has guide block (5023) with guide way (5022) sliding connection.

4. The water quality monitoring device bracket for the hydraulic engineering according to claim 1, characterized in that: mount pad (6) are regular triangle, and the equal rigid coupling in three contained angle department of mount pad (6) has sliding sleeve (601), sliding sleeve (601) and connecting pipe (3) registrate sliding connection, the below of mount pad (6) has fixed plate (603) through bolt (602) rigid coupling, the lower skin weld of fixed plate (603) has monitoring devices body (604).

5. The water quality monitoring device bracket for the hydraulic engineering according to claim 1, characterized in that: elevating system (7) are including thread bush (701) and threaded rod (702), the top of thread bush (701) passes through bearing frame (703) with the lower surface of footstock (1) and rotates to be connected, and the even rigid coupling of outer wall circumference of thread bush (701) has bull stick (704), threaded rod (702) threaded connection is in thread bush (701), the bottom of threaded rod (702) and the upper surface rigid coupling of mount pad (6).

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