CN210658248U - Potential energy self-running water device - Google Patents

Abstract

The utility model belongs to the field of salt manufacturing and specifically relates to a potential energy is from walking water installation, including the frame, the flashboard, the float, the frame sets up on the isolation bank between fields of upstream pond and low reaches pond, and the left and right sides and the bottom of frame constitute U type trough by the steel sheet, and the float is arranged in the low reaches pond, and one side of frame is provided with closes floodgate barb and closes floodgate barb gangbar, and the opposite side is provided with the linkage rod of separating floodgate barb and separating floodgate barb, and the middle part of frame is provided with the axis, is provided with the lever on the axis, and one end of lever is provided with the counter weight plummet; the buoy is provided with a buoy support, the buoy support is respectively provided with a gate closing barb linkage rod lifting cross shaft, a gate opening barb linkage rod descending cross shaft and a lever lifting cross shaft. The utility model discloses replace traditional manual control switching floodgate, reached the effect of the automatic switching of gate, reduced the cost of labor, improved work efficiency, and water level control goes the accuracy more.

Description

Potential energy self-running water device

Technical Field

The utility model relates to a salt manufacturing field, especially a potential energy is from walking water installation.

Background

At present, the seawater salt production process mainly comprises tide receiving, gradual evaporation and crystallization, brine with different salinity is regulated through a plurality of water gates in the process of a host political law, the traditional manual opening and closing method for controlling the water gates by a salt pond is still adopted, a runner worker opens and closes the water gates by frequently observing an upstream water level and a downstream water level respectively, but the manual observation is inaccurate in flow and brine water level control, and the water discharge standard is not uniformly controlled at present, so that the labor intensity of the runner worker is high, the labor cost is high, and the efficiency is very low.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a simple structure, potential energy that can accurate control brine liquid level is from running water installation.

The utility model adopts the following technical scheme:

a potential energy self-propelled water device comprises a frame, a gate plate and a float, wherein the frame is arranged on an isolation soil bank between an upstream water pool and a downstream water pool, the left side, the right side and the bottom of the frame form a U-shaped water trough by steel plates, the float is arranged in the downstream water pool, one side of the frame is provided with a gate closing barb and a gate closing barb linkage rod, the other side of the frame is provided with a gate opening barb and a gate opening barb linkage rod, the middle of the frame is provided with a middle shaft, a lever is arranged on the middle shaft, one end of the lever is provided with a counterweight plumb; the buoy is provided with a buoy support, the buoy support is respectively provided with a gate closing barb linkage rod lifting cross shaft, a gate opening barb linkage rod descending cross shaft and a lever lifting cross shaft.

Compared with the prior art, the beneficial effects of the utility model are that:

the automatic opening and closing water valve has the advantages of simple structure, convenience in manufacturing, capability of accurately controlling the upper limit and the lower limit of the downstream water level, solving the problem of accurate control of brine flow and brine liquid level, and achieving the water running effect of automatic opening and closing without frequently observing the opening and closing of the water valve at a runner.

Further, the utility model discloses a preferred scheme is:

the gate closing barb linkage rod and the gate closing can be fixed through bolts; the opening barb linkage rod and the opening hook are fixed through bolts.

The lifting cross shaft of the closing barb linkage rod is arranged above the falling cross shaft of the opening barb linkage rod, and the lever lifting cross shaft is arranged below the falling cross shaft of the opening barb linkage rod.

The frame is respectively provided with a flashboard guide rail and a floating support guide rail, the flashboard is arranged in the flashboard guide rail, and the floating support is arranged in the floating support guide rail.

And a sealing strip is arranged between the flashboard guide rail and the flashboard.

Drawings

Fig. 1 is the structure schematic diagram of the utility model:

FIG. 2 is a side view of FIG. 1;

fig. 3 is a schematic structural view when the gate is closed:

FIG. 4 is a side view of FIG. 3;

FIG. 5 is a schematic view of the shutter arrangement;

in the figure: a frame 1; a shutter 2; a shutter guide rail 3; a gate closing barb 4; a gate closing barb linkage rod 5; a lever 6; a middle shaft 7; a floating support guide rail 8; a buoyant strut 9; a float 10; a linkage rod 11 for opening the gate barb; an opening barb 12; the cross shaft 13 is lifted by the linkage rod of the gate closing barb; the horizontal shaft 14 is descended by the linkage rod of the brake-opening barb; the lever lifts the cross shaft 15; a counterweight plumb 16; an L-shaped connecting piece 17; a roller 18; a connecting shaft 19.

Detailed Description

The invention is further described with reference to the following figures and specific embodiments.

Referring to the drawings:

a potential energy self-water-running device comprises a frame 1, a flashboard 2 and a buoy 10, wherein the frame 1 is arranged on an isolation soil bank between an upstream pool and a downstream pool, the left side, the right side and the bottom of the frame 1 form a U-shaped water running groove by steel plates, one side of the frame 1 close to the upstream pool is provided with a flashboard guide rail 3, the flashboard 2 is arranged on the flashboard guide rail 3, as shown in figure 5, the flashboard 2 is formed by the steel plates and an L-shaped connecting piece, the L-shaped connecting piece is fixed on the inner side of the flashboard 2 through bolts, and the flashboard 2 can slide up and down along the flashboard; one side that frame 1 is close to the downstream pond is provided with cursory pillar guided way 8, cursory pillar 9 arrange cursory pillar guided way 8 in and can slide from top to bottom along cursory pillar guided way 8, cursory pillar 9's below fixed mounting has cursory 10, cursory 10 arranges the downstream pond in.

As shown in fig. 1 and 3, a gate closing barb linkage rod lifting cross shaft 13, a gate opening barb linkage rod descending cross shaft 14 and a lever lifting cross shaft 15 are respectively arranged on a floating support 9, the gate closing barb linkage rod lifting cross shaft 13 is arranged above the gate opening barb linkage rod descending cross shaft 14, the lever lifting cross shaft 15 is arranged below the gate opening barb linkage rod descending cross shaft 14, the gate closing barb linkage rod lifting cross shaft 13, the gate opening barb linkage rod descending cross shaft 14 and the lever lifting cross shaft 15 are all cylindrical rod-shaped structures with threaded joints at one ends, threaded holes are formed in the floating support 9 at equal intervals, and the gate closing barb linkage rod lifting cross shaft 13, the gate opening barb linkage rod descending cross shaft 14 and the lever lifting cross shaft 15 are respectively connected with the floating support 9 through threaded structures.

The upper end of one side, close to an upstream pool, of the frame 1 is provided with a closed gate barb 4 and a closed gate barb linkage rod 5, the closed gate barb 4 and the closed gate barb linkage rod 5 are fixedly connected through a bolt assembly, an included angle between the closed gate barb 4 and the closed gate barb linkage rod 5 can be adjusted through loosening the bolt assembly, in the embodiment, the included angle between the closed gate barb 4 and the closed gate barb linkage rod 5 is 90 degrees, an integral structure formed by fixedly connecting the closed gate barb 4 and the closed gate barb linkage rod 5 is hinged to the frame 1, and the right end of the closed gate barb linkage rod 5 is arranged above a lifting cross shaft 13 of the closed gate barb linkage rod; the frame 1 is provided with separating brake barb 12 and separating brake barb gangbar 11 near the one side upper end in downstream pond, and separating brake barb 12 and separating brake barb gangbar 11 pass through bolt fixed connection, and the contained angle between separating brake barb 12 and the separating brake barb gangbar 11 can be adjusted through not hard up bolt assembly, and in this embodiment, the contained angle between separating brake barb 12 and the separating brake barb gangbar 11 is 90, and the overall structure after separating brake barb 12 and separating brake barb gangbar 11 fixed connection is articulated with frame 1, and separating brake barb gangbar 11 arranges the below that separates brake barb gangbar and descend cross axle 14 in.

A middle shaft 7 is arranged in the middle of the frame 1, a lever 6 is hinged to the middle shaft 7, a rolling shaft 18 is arranged at one end, close to an upstream water pool, of the lever 6, a counterweight plumb 16 is arranged at one end, close to a downstream water pool, of the lever, a connecting shaft 19 is arranged on the inner side of one end, close to the counterweight plumb, of the lever, and the end, close to the downstream water pool, of the lever 6 is arranged above a lever lifting cross shaft 15.

When the buoy strut 9 rises along with the buoy 10, the gate closing barb linkage rod lifting cross shaft 13 pushes the gate closing barb linkage rod 5 to rise, and the lever lifting cross shaft 15 can push the lever 6 to rise; when the buoy strut 9 descends along with the buoy 10, the gate-opening barb linkage rod descending cross shaft 14 presses down the gate-opening barb linkage rod 11 to descend. According to the requirements of the water levels of the upstream pool and the downstream pool, the water level can be adjusted

The positions of the lifting cross shaft 13 of the closing barb linkage rod, the falling cross shaft 14 of the opening barb linkage rod and the lever lifting cross shaft 15 are set.

In order to prevent water leakage when the gate plate 2 is closed, a sealing strip is arranged between the gate plate guide rail 3 and the gate plate 2.

In the embodiment, as shown in fig. 1 and 2, one end close to the downstream water tank is a right end, one end close to the upstream water tank is a left end, when the gate board 2 is opened, as shown in fig. 1 and 2, the upstream water tank is filled with water to the downstream water tank, the buoy 10 gradually floats upwards along with the rising of the water surface, the buoy support 9 also gradually moves upwards along with the buoy 10, the opening barb 12 is restored to a vertical state due to self-weight, the opening barb linkage rod 11 is also restored to a horizontal state, the lever lifting cross shaft 15 on the buoy support 9 gradually pushes the right end of the lever 6 to rise, when the upstream water level and the downstream water level are kept flat, the connecting shaft 19 on the inner side of the right end of the lever 6 is just clamped on the opening barb 12, the opening barb 12 limits the right end of the lever 6, meanwhile, the closing barb linkage rod on the buoy support 9 lifts the cross shaft 13 to push the right end of the closing barb linkage rod 5 to rise, the closing barb, the gate closing barb 4 loosens the gate plate L-shaped connecting piece 17, the gate plate 2 is no longer limited, the gate plate 2 falls down along the gate plate guide rail 3 by the dead weight, and the water trough is closed.

As shown in fig. 3 and 4, as the water evaporation liquid level of the downstream pool falls, the buoy 10 and the buoy support 9 gradually fall along with the downstream liquid level, due to the self weight of the closing barb 4, the closing barb 4 returns to the vertical state, the closing barb linkage rod 5 returns to the horizontal state, the horizontal shaft 14 of the falling linkage rod of the opening barb on the buoy support 9 gradually presses the left end of the closing barb linkage rod 11 to fall, the opening barb 12 rotates anticlockwise along with the left end of the falling transverse shaft 14 of the opening barb linkage rod, the opening barb 12 loosens the right end of the lever 6 without limiting the right end of the lever 6, the right end of the lever 6 falls by the self weight of the counterweight plumb 16, the left end of the lever 6 rises, the roller 18 at the left end of the lever 6 rolls and rubs with the L-shaped connecting piece 17, the flashboard 2 is lifted, so that the flashboard 2 rises until the L-shaped connecting piece 17 can be clamped by the closing barb 4, at the moment, the water tank is opened, and water begins to be drained to the downstream water tank.

The utility model discloses at the salt manufacturing in-process, can automatic control salt pond water running, the liquid level in low reaches pond reaches the upper limit, and automatic closing is floodgate, and when the liquid level in low reaches pond reached the lower limit, can open the floodgate automatically and turn on the water, replaced traditional running mouthful power frequency numerous observation liquid level and switching valve, reduced labour cost, improved work efficiency simultaneously.

The above is only the concrete embodiments of the present invention, but the protection of the present invention is not limited to this, and all the equivalent changes or replacements proposed to the technical features of the present technical solution, which can be considered by those skilled in the art, are included in the protection scope of the present invention.

Claims (5)

1. The utility model provides a potential energy is from walking water installation, includes the frame, the flashboard, and the float, the frame setting on the isolation soil low bank between fields in upstream pond and low reaches pond, the left and right sides and the bottom of frame constitute U type trough by the steel sheet, and the float is arranged in low reaches pond, its characterized in that: one side of the frame is provided with a closing gate barb and a closing gate barb linkage rod, the other side of the frame is provided with a opening gate barb and an opening gate barb linkage rod, the middle part of the frame is provided with a middle shaft, the middle shaft is provided with a lever, one end of the lever is provided with a counterweight plumb bob, and the other end of the lever is provided with a rolling shaft; the buoy is provided with a buoy support, the buoy support is respectively provided with a gate closing barb linkage rod lifting cross shaft, a gate opening barb linkage rod descending cross shaft and a lever lifting cross shaft.

2. The potential energy self-propelled water device of claim 1, wherein: the closed gate barb linkage rod and the closed gate barb are fixed through a bolt; the linkage rod for the brake opening barb and the brake opening barb are fixed through bolts.

3. The potential energy self-propelled water device of claim 1, wherein: the lifting cross shaft of the closing barb linkage rod is arranged above the falling cross shaft of the opening barb linkage rod, and the lever lifting cross shaft is arranged below the falling cross shaft of the opening barb linkage rod.

4. The potential energy self-propelled water device of claim 1, wherein: the frame is respectively provided with a flashboard guide rail and a floating support guide rail, the flashboard is arranged in the flashboard guide rail, and the floating support is arranged in the floating support guide rail.

5. The potential energy self-propelled water device of claim 4, wherein: and a sealing strip is arranged between the flashboard guide rail and the flashboard.

Images