CN211285525U - Automatic drainage device of tailing backwater machinery - Google Patents

Abstract

The utility model discloses an automatic sluicing device of tailing return water machinery, including reservoir area and sluicing tower, the sluicing tower is located the inside in reservoir area, the internally mounted of sluicing tower has the siphon, the siphon includes the horizontal segment, the left side intercommunication of horizontal segment has the decline section, the decline section is located the inside of sluicing tower, the right side intercommunication of horizontal segment has the reservoir district section, the reservoir district section extends to the inside of reservoir area, the decline section is kept away from the one side of horizontal segment and is installed the outlet, the left side of outlet is installed pipeline main valve, and the water in the siphon pipe drives off pipeline main valve, and dam face water flows in to the pipeline along with it, flows to the cistern from the sluicing tunnel, and water flows through the through-hole that sets up in the valve main part, utilizes a sluicing pipeline of siphon principle preparation, and reservoir area water level can be controlled, has made things convenient for staff's operation, has reduced cost of maintenance and has aimed at solving prior art and has operated the, inconvenient water drainage and low safety and stability coefficient.

Description

Automatic drainage device of tailing backwater machinery

Technical Field

The utility model relates to a mining machinery technical field specifically is an automatic device that sluices of tailing return water machinery.

Background

The tailing dam is a place which is formed by damming and intercepting valley mouths or surrounding land and is used for discharging tailings or other industrial waste residues after ore sorting is carried out on the metal or nonmetal mines by stacking, and the tailing dam can be divided into a dry stacking mode and a wet stacking mode according to the stacking mode of the tailings, wherein the wet stacking mode is the most used mode in the past; the tailing dam is one of products of separation operation in mineral separation, wherein the part with the lowest content of useful target components is called tailings, the tailings are different from waste rocks, and the waste rocks are general terms of mined surrounding rocks and included rocks which do not contain minerals. The tailings are products obtained after crushing and sorting, the granularity is generally fine, the tailings from a sorting plant contain a large amount of water and become tailing pulp, the tailing pulp is not subjected to concentration, filtration, filter pressing, water loss and other links, namely wet-type discharge is obtained, and the corresponding tailing stockpiling mode is wet-type stockpiling.

Because the area of the tailing dam surface is increased, the backwater well is close to the center of the water surface, a boat needs to be drawn to enter the overflow well every time water is drained, staff always climb into a water drainage tower adjusting valve with the height of 3 meters, the valve is positioned on a platform with the height of 15 meters, mosquito bites and insect bites in the tower, the peripheral wall is smooth, the water drainage tower is very dangerous to enter and exit, the operation space is narrow, the water drainage tower is extremely difficult to operate because the water drainage tower is straight up and down, and therefore, aiming at the difficult danger degree, the opening and closing mode and the application method of the water drainage pipeline need to.

SUMMERY OF THE UTILITY MODEL

The utility model provides an automatic device that sluices of tailing return water machinery aims at solving prior art operation difficulty, sluices inconvenient and the problem that the safety and stability coefficient is low.

The utility model provides a technical scheme: the utility model provides an automatic sluicing device of tailing return water machinery, includes water leakage tower and reservoir area, the water leakage tower is located the inside in reservoir area, the internally mounted of water leakage tower has the siphon, the siphon includes the horizontal segment, the left side intercommunication of horizontal segment has the decline section, the decline section is located the inside of water leakage tower, the right side intercommunication of horizontal segment has the reservoir district section, the reservoir district section extends to the reservoir area inside, the decline section is kept away from one side of horizontal segment and is installed the outlet, the main valve of pipeline is installed in the left side of outlet.

In order to block the water outlet, the automatic water discharge device of the tailings backwater machine is preferably as follows: the pipeline main valve comprises a valve main body, and a valve cover is installed on the left side of the valve main body.

In order to move the valve cover, the automatic water discharge device of the tailings backwater machine is preferably as follows: the valve is characterized in that a hinge is fixedly connected between the valve main body and the valve cover, and the valve main body and the valve cover are movably connected through the hinge.

For convenience of magnet installation, the automatic water discharge device for the tailing water returning machine is preferably as follows: the valve comprises a valve body and is characterized in that an installation shell is installed on the left side of the inner wall of the valve body, and a magnet is installed inside the installation shell.

For the water passing through the main valve of the pipeline, the automatic water discharge device of the tailings backwater machine is preferably as follows: a through hole is formed in one side of the valve body and communicated with the water outlet.

In order to empty the air in the pipeline, the automatic tailing backwater draining device is preferably used as a tailing backwater mechanical automatic draining device in the embodiment: the upper end face of the horizontal section is provided with a water filling opening, and the upper end face of the descending section is provided with a valve.

In order to ensure the sealing performance of the main valve of the pipeline, the automatic tailing backwater draining device is preferably used as the automatic tailing backwater draining device of the embodiment: and a sealing strip is arranged on one side of the valve main body close to the valve cover.

Compared with the prior art, the beneficial effects of the utility model are that: automatic drainage device of tailing backwater machinery

(1) When the water level in the drainage tower reaches a certain height, the water in the drainage tower flows to the main pipeline valve through the reservoir section from the water inlet, and the main pipeline valve is closed, so that the water is accumulated at the water discharge port, and meanwhile, the water is poured into the pipeline in the tower through the water pouring port;

(2) water flows through the through-hole that sets up in the valve main part, when the impulsive force of water is greater than the suction of magnet, water is with the valve lid towards open, the valve lid passes through hinge swing joint with the valve main part, the valve lid can not break away from sealed valve main part, when the impulsive force of water is less than the suction of magnet, under the effect of magnet, the valve lid docks with the valve main part, thereby the through-hole is plugged up in the shutoff, pipeline main valve need not artifical the input, need not consume the electric energy, be fit for popularizing and applying in the environment of energy-conserving aspect and no power.

Drawings

FIG. 1 is a general structure diagram of an automatic tailing backwater mechanical water discharge device of the present application;

FIG. 2 is a schematic view of the closing of a main valve of a pipeline of the automatic tailing backwater mechanical water discharge device;

FIG. 3 is a schematic view of the pipeline main valve opening of the automatic tailing water returning mechanical water discharging device of the present application;

FIG. 4 is a side view of a main valve of a pipeline of the automatic tailing water returning mechanical water discharging device;

in the figure: 1. a water drainage tower; 2. a reservoir area; 3. a siphon tube; 4. a horizontal segment; 5. a descending section; 6. a bank section; 7. a water filling port; 8. a valve; 9. a water outlet; 10. a pipeline main valve; 11. a valve body; 12. a valve cover; 13. mounting a shell; 14. a magnet; 15. a hinge; 16. and a through hole.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. In addition, in the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

Referring to fig. 1-4, the present invention provides a technical solution: the utility model provides an automatic sluicing device of tailing return water machinery, includes water drainage tower 1 and reservoir area 2, and water drainage tower 1 is located reservoir area 2's inside, its characterized in that: the internally mounted of water drainage tower 1 has siphon 3, and siphon 3 includes horizontal segment 4, and the left side intercommunication of horizontal segment 4 has descending section 5, and descending section 5 is located the inside of water drainage tower 1, and the right side intercommunication of horizontal segment 4 has storehouse district section 6, and storehouse district section 6 extends to storehouse district 2 inside, and descending section 5 is kept away from one side of horizontal segment 4 and is installed outlet 9, and the main valve of pipeline 10 is installed in the left side of outlet 9.

In this embodiment, the water suction port at the lower end of the reservoir section 6 is located in the deep water region of the reservoir section 2, the water discharge port 9 is located in the water discharge tower 1, when the water level in the water discharge tower 1 reaches the height of the lower end of the reservoir section 6, the water in the water discharge tower 1 flows from the water inlet to the main pipe valve 10 through the reservoir section 6, because at this time, the main pipe valve 10 is closed, the water is accumulated at the water discharge port 9, and water is poured into the tower inner pipe through the water filling port 7, when the pressure of the water in the siphon pipe 3 is greater than the resistance of the main pipe valve 10 to the water in the siphon 3, the water in the siphon 3 opens the main pipe valve 10, and flows into the pipe along with the dam surface water, flows from the water discharge tunnel to the reservoir, the water flows out through the through hole 16 arranged on the valve body 11, when the water impact force is greater than the suction force of the magnet 14, the valve cover 12 is opened, the valve cover 12, valve cover 12 can not break away from sealed valve main part 11, and when the impulsive force of water was less than magnet 14's suction, under magnet 14's effect, valve cover 12 and valve main part 11 butt joint to plug up through-hole 16, pipeline main valve 10 need not artifical the input, improves tailing storehouse operational safety coefficient, improves the essential safety of staff's operation, has made things convenient for staff's operation, has reduced cost of maintenance.

Specifically, the main pipeline valve 10 includes a valve body 11, and a valve cover 12 is installed on the left side of the valve body 11.

In this embodiment, the valve cover 12 is abutted against the valve body 11 by the magnet 14, thereby sealing the through hole 16.

Specifically, a hinge 15 is fixedly connected between the valve main body 11 and the valve cover 12, and the valve main body 11 and the valve cover 12 are movably connected through the hinge 15.

In this embodiment, the valve cover 12 is movably connected to the valve body 11 by the hinge 15, so that the valve cover 12 does not separate from the valve body 11.

Specifically, a mounting case 13 is mounted on the left side of the inner wall of the valve body 11, and a magnet 14 is mounted inside the mounting case 13.

In this embodiment, the mounting housing 13 facilitates mounting of the magnet 14.

Specifically, a through hole 16 is formed in one side of the valve body 11, and the through hole 16 is communicated with the water outlet 9.

In this embodiment, the water in the siphon 3 flushes the main pipe valve 10, and the water flows into the pipe along with the dam surface water, and flows from the drainage passage to the reservoir, and the water flows out through the through hole 16 provided in the valve body 11.

Specifically, the upper end face of the horizontal section 4 is provided with a water filling opening 7, and the upper end face of the descending section 5 is provided with a valve 8.

In the present embodiment, water is poured into the tower inner pipe through the water pouring port 7, and when the pressure of the water in the siphon tube 3 is higher than the resistance of the main pipe valve 10 to the water in the siphon tube 3, the water in the siphon tube 3 flushes the main pipe valve 10.

Specifically, a sealing strip is installed on one side of the valve body 11 close to the valve cover 12.

In this embodiment, the sealing strip ensures the sealing performance of the main pipeline valve 10 when closed, so that the equipment can work normally.

The utility model discloses a theory of operation and use flow: when the automatic tailing backwater mechanical water drainage device is used, a water suction port at the lower end of a reservoir section 6 is positioned in a deep water area of a reservoir section 2, a water drainage port 9 is positioned in a water drainage tower 1, when the water level in the water drainage tower 1 reaches the lower end height of the reservoir section 6, water in the water drainage tower 1 flows to a main pipeline valve 10 from a water inlet through the reservoir section 6, because the main pipeline valve 10 is closed at the moment, the water is accumulated at the water drainage port 9 and is poured into a pipeline in the tower through a water filling port 7, when the pressure of the water in a siphon pipe 3 is greater than the resistance of the main pipeline valve 10 to the water in the siphon 3, the water in the siphon 3 opens the main pipeline valve 10, the water flows into the pipeline along with dam surface water and flows to a reservoir from a water drainage roadway, the water flows out through a through hole 16 arranged on a valve body 11, when the impulsive force of the water is greater than the suction force of a magnet 14, the water flushes the valve cover 12 open, and the valve, valve cover 12 can not break away from sealed valve main part 11, and when the impulsive force of water was less than magnet 14's suction, under magnet 14's effect, valve cover 12 and valve main part 11 butt joint to plug up through-hole 16, pipeline main valve 10 need not artifical the input, improves tailing storehouse operational safety coefficient, improves the essential safety of staff's operation, has made things convenient for staff's operation, has reduced cost of maintenance.

The above description is only exemplary of the present invention and should not be construed as limiting the present invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (7)

1. The utility model provides an automatic sluicing device of tailing return water machinery, includes water drainage tower and reservoir area, the water drainage tower is located the inside in reservoir area, its characterized in that: the internally mounted of water leakage tower has the siphon, the siphon includes the horizontal segment, the left side intercommunication of horizontal segment has the descending section, the descending section is located the inside of water leakage tower, the right side intercommunication of horizontal segment has the storehouse district section, the storehouse district section extends to inside the storehouse district, the descending section is kept away from one side of horizontal segment and is installed the outlet, the main valve of pipeline is installed in the left side of outlet.

2. The automatic mechanical tailing discharging device for tailing backwater of claim 1 is characterized in that: the pipeline main valve comprises a valve main body, and a valve cover is installed on the left side of the valve main body.

3. The automatic mechanical tailing discharging device for tailing backwater of claim 2 is characterized in that: the valve is characterized in that a hinge is fixedly connected between the valve main body and the valve cover, and the valve main body and the valve cover are movably connected through the hinge.

4. The automatic mechanical tailing discharging device for tailing backwater of claim 3 is characterized in that: the valve comprises a valve body and is characterized in that an installation shell is installed on the left side of the inner wall of the valve body, and a magnet is installed inside the installation shell.

5. The automatic mechanical tailing discharging device for tailing backwater of claim 2 is characterized in that: a through hole is formed in one side of the valve body and communicated with the water outlet.

6. The automatic mechanical tailing discharging device for tailing backwater of claim 1 is characterized in that: the upper end face of the horizontal section is provided with a water filling opening, and the upper end face of the descending section is provided with a valve.

7. The automatic mechanical tailing discharging device for tailing backwater of claim 2 is characterized in that: and a sealing strip is arranged on one side of the valve main body close to the valve cover.

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