CN106122122B - A kind of large aperture flow-controllable siphoning installation - Google Patents

Abstract

The invention discloses a kind of large aperture flow-controllable siphoning installation, including siphon piping, control device and water injection pipe；Siphon piping is inverted U shape, and including water inlet pipe and outlet pipe, outlet pipe is than water inlet pipe range, to ensure that the nozzle of outlet pipe is lower than the nozzle position of water inlet pipe；Control device includes the sealing compound valve and control stick that are connected with each other, for sealing siphon piping nozzle and the sealing compound valve of water inlet pipe and water outlet pipe current being controlled to be located at two ports of siphon piping；Control stick is respectively arranged a set of in the rising pipe side of siphon piping and water inlet pipe side, using the keying of lever construction control sealing compound valve, and adjusts the water flow of water inlet pipe and water outlet pipe；Water injection pipe includes ball valve and irrigation pipe, which is connected with irrigation pipe, and the transverse end of the other end and siphon piping is seamlessly connected, and connecting portion is close to the water inlet segment of siphon piping.The structure large aperture flow-controllable siphoning installation has the advantages that exempt from power, big flow, easy to operate, production cost and labor strength low.

Description

A kind of large aperture flow-controllable siphoning installation

Technical field

The present invention relates to siphoning installations, and in particular to applied to the reflux of tailing dam purified water exempt from power big flow with it is controllable A kind of siphoning installation of large aperture flow-controllable of flow.

Background technology

According to the requirement of relevant laws and regulations, the ore dressing sewage of bargh must not be arranged outside, and therefore, most mines are all taken After ore dressing sewage purification, ore dressing plant is back to by the well that flows back and is used as mill water；Under normal conditions, bargh all uses The purified water of tailing dam is extracted into artesian well by water pump, then is back to ore dressing plant by artesian well.Due to the ore dressing of bargh Water consumption is bigger, it is necessary to big flow water pump is selected, and more water pumps are continual draws water, to meet the need of ore dressing station-service water Will, it is so necessarily required to consume substantial amounts of electricity, increases Enterprise Integrated cost；In addition, the long time running of water pump causes machinery Faults frequent influences the job schedule drawn water.For this purpose, some barghs also attempt to have used siphon piping, however Ci Zhonghong Suction pipe road still has many shortcomings, and most barghs use is installed to pump outlet with auxiliary water by siphon piping The draining of pump, but this method can only play the role of protecting water pump, can not realize and exempt from dynamic drainage；Some barghs adopt again With power siphoning installation is exempted from, still, the unlatching of such siphoning installation is generally used by water pump, it is necessary to have the situation of electric power It is lower to use, and require the caliber of siphon pipe cannot be too big, to meet the requirement of big flow draining, it has to install multigroup Siphon piping, therefore, the unlatching work of all siphons become a time-consuming and laborious job, which is extremely difficult to drop The requirement of low draining cost and labor strength.

The content of the invention

It is low to exempt from power, big flow, easy to operate, production cost and labor strength the object of the present invention is to provide one kind A kind of large aperture flow-controllable siphoning installation, realize in the case of unregulated power, still being capable of draining.

Purpose to realize the present invention, a kind of large aperture flow-controllable siphoning installation of the present invention include siphon piping, control Device and water injection pipe；The siphon piping shape is inverted U shape, it includes water inlet pipe and outlet pipe, and outlet pipe compares water inlet pipe range, with Ensure that the nozzle of outlet pipe is lower than the nozzle position of water inlet pipe, the liquid level for making outlet pipe is lower than water inlet pipe；The control device bag The sealing compound valve and control stick of interconnection are included, which is located at two ports of siphon piping for sealing siphon piping The nozzle of water inlet pipe and outlet pipe, and control the size of water inlet pipe and outlet pipe current；The control stick goes out siphon piping Water pipe side and water inlet pipe side are respectively arranged a set of, using the open and close of lever construction control sealing compound valve, and adjust water inlet pipe With the water flow of outlet pipe；The water injection pipe includes ball valve and irrigation pipe, which is connected with irrigation pipe, the other end and The transverse end of siphon piping is seamlessly connected, and connecting portion is close to the water inlet segment of siphon piping.

The siphon piping is made of the inverted U-shaped seamless steel pipe of a diameter of 325mm.

The sealing compound valve includes upper clamping plate, belt plug and the next clamping plate, and the identical pin of diameter is left among three Hole is simultaneously bolted on together；The upper clamping plate is less than the round plate of siphon piping internal diameter, the next clamping plate for diameter It is more than the round plate of siphon piping outer diameter for diameter, belt plug is truncated cone-shaped belt, and circle of position diameter is more than upper clamping plate thereon Diameter, the next circular diameter are less than the diameter of the next clamping plate, to reach the best leakproofness of sealing compound valve, accelerate the formation of siphon Speed.

The control stick includes compression bar, rotating beam, fulcrum support, guide draw bar and spacing ring；The compression bar includes compression bar Body and holding rod, compression bar body are the open rectangle made using steel plate, and holding rod is common steel tube, are sealed with compression bar body The centre position of end outer rim is connected；Spacing ring is fixedly connected using steel circular ring structure with siphon piping, and internal diameter, which is more than to be oriented to, to be drawn Shank diameter, wherein water inlet pipe side arrange two pairs of spacing rings, and rising pipe side arranges three pairs of spacing rings；The guide draw bar passes through limit Position ring, guide draw bar lower end are fixedly connected with sealing compound valve, and upper end and the open end of compression bar body are articulated and connected, and compression bar body exists Can be rotated around guide draw bar during tension and compression, by the horizontal telemechanical of spacing ring restricted guidance pull rod, make guide draw bar with Compression bar body moves up and down, so as to control the closing and unlatching of lower end sealing compound valve；The fulcrum support is that apex angle is fillet Triangular steel plate leaves round hole therebetween, and the following of triangle is fixedly connected with siphon piping, is control stick lever knot The fulcrum of structure, in order to improve the seal of sealing compound valve, the height of fulcrum support is higher than the upper end level of guide draw bar, works as sealing When the belt plug of glue valve just touches the nozzle of siphon piping, compression bar is from the horizontal by 8 ° of angles；The rotating beam is Diameter is less than compression bar body steel plate width and less than the reinforcing bar of Circularhole diameter in fulcrum support, and rotating beam passes through the circular hole of fulcrum support With being fixedly linked at left and right sides of compression bar body, when the open and close of control stick control sealing compound valve, rotating beam and compression bar Body does circular motion around fulcrum support, and drives the up and down motion of guide draw bar.

The outlet pipe of above-mentioned inverted U-shaped siphon piping ensure that nozzle of the nozzle than water inlet pipe of outlet pipe than water inlet pipe range Highly low, the liquid level of outlet pipe is lower than water inlet pipe, and Water seeks its own level in siphon piping under gravity forms siphon；It adopts Be less than siphon piping internal diameter with upper clamping plate diameter, the next clamping plate diameter is more than siphon piping outer diameter, truncated cone-shaped belt it is upper Circular diameter is more than the diameter of upper clamping plate, the next circular diameter more than the structure of the diameter of the next clamping plate, can reach sealing compound valve Best leakproofness accelerates the formation speed of siphon.

It, should the present invention also provides the method for establishing siphon to match with a kind of large aperture flow-controllable siphoning installation The operating procedure of method is as follows：

(1) by the water inlet pipe insertion tailing dam purified water of siphon piping, the transverse pipe of siphon piping rides over artesian well well On frame, outlet pipe is directed at the well head of artesian well, and water inlet pipe and the water outlet of sealing compound valve sealing siphon piping are controlled by control stick The nozzle of pipe opens the ball valve of water injection pipe, the water filling into siphon piping by irrigation pipe at this time.

(2) after water fills siphon piping, close the ball valve of water injection pipe, control control stick almost open simultaneously water inlet pipe and The sealing compound valve of outlet pipe；If simultaneously operating is not achieved, can slightly open the sealing compound valve of outlet pipe in advance, then open into The sealing compound valve of water pipe, but interlude is more short better, so as to using the water in siphon pipe along outlet pipe when flowing downward, Negative pressure is formed in siphon piping, makes the purified water of water inlet pipe side that the gravity of itself be overcome to be flowed up along siphon piping, is established Siphon.

Compared with prior art, the present invention achieves following advantageous effect：

Firstth, siphon suction of the invention can reduce the synthesis cost of bargh, in condition to exempt to draw water under power It is poor, in the case of unregulated power, work of drawing water can be completed.

Secondth, siphon of the invention, which is established, uses artificial recharge, easy to operate, pours water without using water pump, avoids water pump Use, and the increase for causing cost or the mechanical breakdown because of water pump stop over the normal foundation of siphon, influence normally to take out Water conservancy project is made.

3rd, the present invention according to the water requirement in ore dressing plant, can reduce the water flow of siphon piping, can also pass through increase The quantity of siphon piping increases water supply.

4th, the configuration of the present invention is simple, conveniently moving, and be used cooperatively with the derrick of artesian well, as tailing dam is net Change the variation of water water level, it is easy to find the set-point of siphon piping, adjust the position of siphoning installation at any time, ensure siphoning installation Normal pumping.

The present invention, according to the requirement of ore dressing plant water requirement, sealing compound valve can be controlled by control stick after siphon is established With the distance of siphon piping nozzle, the flow of current is controlled, when ore dressing plant water requirement is larger, multigroup siphon dress can be added It puts, increases pump-out in the unit interval, meet the requirement of water requirement.

A kind of large aperture flow-controllable siphoning installation of said structure is directed in existing tailing dam purified water technique of backflow and deposits It is of high cost, labor intensity is big, it is big to electric power dependence the problems such as, it is proposed that a kind of simple in structure, production material is universal, It is easy to operate, it can be achieved that exempt from the draining of power big flow technically without special requirement, greatly reduce enterprise production cost and The labor intensity of worker can realize that the unlatching of siphoning installation is quick and easy according to the requirement of station-service water is selected to control flow, The normally-open of siphon is nor affected in the case of unregulated power, can be applied to remote shortage electric power area.

Description of the drawings

Attached drawing 1 is a kind of main structure diagram of large aperture flow-controllable siphoning installation of the present invention.

Attached drawing 2 is the A of siphon piping outlet pipe in Fig. 1 to structure diagram.

Attached drawing 3 is the B of control device in Fig. 1 to structure diagram.

Reference numeral：Siphon piping 1, control device 2, water injection pipe 3, water inlet pipe 11, outlet pipe 12, sealing compound valve 21, behaviour Vertical pole 22, ball valve 31, irrigation pipe 32, upper clamping plate 211, belt plug 212, the next clamping plate 213, compression bar 221, rotating beam 222, Fulcrum support 223, guide draw bar 224, spacing ring 225, holding rod 2211, compression bar body 2212.

Specific embodiment

A kind of large aperture flow-controllable siphoning installation of the present invention is made with reference to the accompanying drawings and detailed description further It is described in detail.

As shown in Fig. 1 ~ 3, a kind of large aperture flow-controllable siphoning installation of the present invention includes siphon piping 1,2 and of control device Water injection pipe 3；1 shape of siphon piping is inverted U shape, it includes water inlet pipe 11 and outlet pipe 12, and outlet pipe 12 is than water inlet pipe 11 Long, to ensure that the nozzle of outlet pipe is lower than the nozzle position of water inlet pipe, the liquid level for making outlet pipe is lower than water inlet pipe；The control dress Putting 2 includes the sealing compound valve 21 being connected with each other and control stick 22, and two ports which is located at siphon piping 1 are used for The nozzle of siphon piping water inlet pipe 11 and outlet pipe 12 is sealed, and controls the size of 12 current of water inlet pipe 11 and outlet pipe；It is described Control stick 22 respectively arranged in the rising pipe side of siphon piping 1 and water inlet pipe side it is a set of, using lever construction control sealing compound valve 21 Open and close, and adjust the water flow of water inlet pipe 11 and outlet pipe 12；The water injection pipe 3 includes ball valve 31 and irrigation pipe 32,31 one end of ball valve is connected with irrigation pipe 32, and the transverse end of the other end and siphon piping 1 is seamlessly connected, and connecting portion is close The water inlet segment of siphon piping 1.

As shown in Figure 1, siphon piping 1 using a diameter of 325mm like inverted U-shaped seamless steel pipe, outlet pipe 22 than into Water pipe 21 is grown, and to ensure that the nozzle of outlet pipe 22 is lower than the nozzle height of water inlet pipe 21, the liquid level of outlet pipe 22 is made to compare water inlet pipe 21 is low, and the whole water in siphon piping trickles downwards along outlet pipe under gravity, siphon piping formed negative pressure, i.e., into The pressure of water pipe nozzle is more than the pressure in siphon piping, the purified water of water inlet pipe side is made to overcome gravity, along siphon piping It flows up, forms siphon.

As shown in Figure 1 and Figure 2, sealing compound valve 21 includes upper clamping plate 211, belt plug 212 and the next clamping plate 213；Upper folder Plate 211 is less than the round plate of siphon piping internal diameter for diameter, and upper clamping plate 211, belt plug 212 and 213 centre of the next clamping plate are The pin hole of a diameter of 22mm is left, by the bolt of a diameter of 20mm by upper clamping plate 211, belt plug 212 and the next clamping plate 213 It is fixed together, forms sealing compound valve 21, for sealing the nozzle of siphon inlet pipe 11 and outlet pipe 12, and control water inlet pipe 11 With the size of 12 current of outlet pipe；The next clamping plate 213 is more than the round plate of siphon piping outer diameter for diameter；Belt plug 212 is circle Platform shape belt, in order to ensure the leakproofness of sealing compound valve 21, it is desirable that 212 upper diameter of a circle of belt plug is less times greater than upper clamping plate 211 diameter, the next diameter of a circle of belt plug 212 is more than siphon piping caliber, and less than the diameter of the next clamping plate 213, this sets When meter can ensure that control stick 22 pushes closing sealing compound valve 21, the belt plug 212 of sealing compound valve 21 has enough deformation spaces, The closely knit nozzle for sealing siphon piping 1 accelerates the formation speed of siphon.

As shown in Figure 2 and Figure 3, control stick 22 includes compression bar 221, rotating beam 222, fulcrum support 223,224 and of guide draw bar Spacing ring 225, control stick 22 respectively arranged in the water inlet pipe side of siphon piping 1, rising pipe side it is a set of, utilize lever principle control The open and close of sealing compound valve 21, and adjust the water flow of water inlet pipe 11 and outlet pipe 12.The compression bar 221 includes holding rod 2211 and compression bar body 2212, compression bar body 2212 is the open rectangle made using 12mm steel plates, and holding rod 2211 is common Steel pipe, and the diameter of steel pipe is equal to the width of compression bar body 2212, the centre position phase with 2212 sealing end outer rim of compression bar body Even；The spacing ring 225 is more than the steel annulus of guide draw bar diameter for internal diameter, it is fixedly connected with siphon piping 1, wherein intaking Two pairs of spacing rings 225 are arranged in pipe side, and rising pipe side arranges three pairs of spacing rings 225；The guide draw bar 224 passes through and is arranged in siphon The spacing ring of 1 both sides of pipeline, guide draw bar lower end are fixedly connected with sealing compound valve 21, guide draw bar upper end and compression bar body 221 Open end articulated connection, compression bar body 221 can rotate around guide draw bar 224 during tension and compression, be limited by spacing ring 225 The horizontal telemechanical of guide draw bar 224 processed makes guide draw bar 224 move up and down with the pressure drawing of compression bar body 221, control sealing The closing and unlatching of glue valve 21；The fulcrum support 223 uses apex angle to leave pin hole therebetween for the triangular steel plate of fillet, The following and siphon piping 1 of its triangle is fixedly connected, and is the fulcrum of control stick lever principle, in order to improve sealing compound valve 21 Seal, the height of fulcrum support 223 are higher than the upper end level of guide draw bar 224, when sealing compound valve 21 belt plug 212 just When touching the nozzle of siphon piping 1, compression bar 221 is from the horizontal by 8 ° of angles；The rotating beam 222 is less than compression bar for diameter 2212 steel plate width of body and the reinforcing bar for being less than the diameter of circular hole in fulcrum support 223, rotating beam 222 pass through fulcrum support 223 Circular hole is simultaneously fixedly connected with 2212 left and right sides of compression bar body, when control stick 221 controls the open and close of sealing compound valve 21, Rotating beam 221 does circular motion with compression bar body 2212 around fulcrum support 223, and drives the up and down motion of guide draw bar 224.

As shown in Figure 1, described 31 one end of ball valve is connected with irrigation pipe 32, one end and the seamless company of transverse end of siphon piping 1 It connects, and connecting portion when pouring water toward siphon piping 1, opens ball valve 31, from irrigation pipe 32 close to the water inlet segment of siphon piping 1 It pours water toward siphon piping 1, after siphon piping 1 fills water, closes ball valve 31.

Operating method of the above-mentioned large aperture flow-controllable siphoning installation when establishing siphon carries out according to the following steps：

（1）The water inlet pipe 11 of siphon piping 1 is inserted into tailing dam purified water, the transverse pipe of siphon piping 1 rides over gravity flow On well derrick, outlet pipe 12 is directed at the well head of artesian well, by control stick 22 control sealing compound valve 21 seal siphon piping 1 into The nozzle of water pipe 11 and outlet pipe 12 opens the ball valve 31 of water injection pipe 3, passes through the water filling into siphon piping 1 of irrigation pipe 32.

（2）After water fills siphon piping 1, close water injection pipe 3 ball valve 31, control control stick 22 almost open simultaneously into Water pipe side and the sealing compound valve 21 of rising pipe side, it is undermanned be not achieved and meanwhile operation when, can slightly open water outlet in advance The sealing compound valve 21 of pipe side, then water inlet pipe side seal chewing-gum valve 22 is opened, although note that interlude is more short better, to utilize rainbow Water in suction pipe in siphon piping 1 forms negative pressure along outlet pipe 12 when flowing downward, and overcomes the purified water of water inlet pipe side The gravity of itself is flowed up to be flowed up along siphon piping, establishes siphon.

The present invention, according to the requirement of ore dressing plant water requirement, sealing compound can be controlled by control stick 22 after siphon is established The spacing of valve 21 and siphon piping nozzle controls the flow of current；When ore dressing plant water requirement is larger, multigroup rainbow can be added Device is inhaled, pump-out in the unit interval is increased, meets the requirement of water requirement.

Claims (2)

1. a kind of large aperture flow-controllable siphoning installation, including siphon piping, control device and water injection pipe；The siphon piping shape Shape is inverted U shape, it includes water inlet pipe and outlet pipe, and outlet pipe is than water inlet pipe range, to ensure the nozzle of outlet pipe than water inlet pipe Nozzle position is low, and the liquid level for making outlet pipe is lower than water inlet pipe；The water injection pipe include ball valve and irrigation pipe, the ball valve one end with Irrigation pipe connects, and the transverse end of the other end and siphon piping is seamlessly connected, and connecting portion is close to the water inlet segment of siphon piping； The control device includes the sealing compound valve and control stick that are connected with each other, and two ports which is located at siphon piping are used In sealing siphon piping water inlet pipe and the nozzle of outlet pipe, and control the size of water inlet pipe and outlet pipe current；It is characterized in that：Institute Stating sealing compound valve includes upper clamping plate, belt plug and the next clamping plate, leaves the identical pin hole of diameter among three and passes through spiral shell Bolt is fixed together；The upper clamping plate is less than the round plate of siphon piping internal diameter for diameter, and the next clamping plate is more than for diameter The round plate of siphon piping outer diameter, belt plug are truncated cone-shaped belt, and circle of position diameter is more than the diameter of upper clamping plate thereon, the next Circular diameter is less than the diameter of the next clamping plate, to reach the best leakproofness of sealing compound valve, accelerates the formation speed of siphon；The behaviour Vertical pole respectively arranged in the rising pipe side of siphon piping and water inlet pipe side it is a set of, using lever construction control sealing compound valve unlatching with It closes, and adjusts the water flow of water inlet pipe and outlet pipe, the control stick includes compression bar, rotating beam, fulcrum support, guiding and draws Bar and spacing ring；The compression bar includes compression bar body and holding rod, and compression bar body is the open rectangle made using steel plate, holding rod For common steel tube, it is connected with the centre position of compression bar body sealing end outer rim；Spacing ring uses steel circular ring structure and siphon piping It is fixedly connected, internal diameter is more than guide draw bar diameter, and two pairs of spacing rings are arranged in wherein water inlet pipe side, and rising pipe side arranges three pairs of limits Position ring；The guide draw bar passes through spacing ring, and guide draw bar lower end is fixedly connected with sealing compound valve, upper end and compression bar body Open end is articulated and connected, and compression bar body can rotate during tension and compression around guide draw bar, pass through spacing ring restricted guidance pull rod Horizontal telemechanical, guide draw bar is made to move up and down with compression bar body, so as to control the closing and unlatching of lower end sealing compound valve； The fulcrum support is the triangular steel plate that apex angle is fillet, leaves round hole, the following and siphon pipe of triangle therebetween Road is fixedly connected, and is the fulcrum of control stick lever construction, and in order to improve the seal of sealing compound valve, the height of fulcrum support is higher than The upper end level of guide draw bar, when the belt plug of sealing compound valve just touches the nozzle of siphon piping, compression bar and level side To into 8 ° of angles；The rotating beam is less than compression bar body steel plate width and less than the steel of Circularhole diameter in fulcrum support for diameter Muscle, the circular hole of rotating beam through fulcrum support is fixedly linked with the compression bar body left and right sides, when control stick control sealing compound valve During open and close, rotating beam does circular motion with compression bar body around fulcrum support, and drives the up and down motion of guide draw bar.

2. flow-controllable siphoning installation in large aperture as described in claim 1, it is characterized in that：The siphon piping is using a diameter of The inverted U-shaped seamless steel pipe of 325mm makes.