CN206757419U - A kind of fluid level controller for dangerous waste processing electrolytic cell - Google Patents

Abstract

The utility model discloses a kind of fluid level controller for dangerous waste processing electrolytic cell, including inner tube, outer tube, internal drainage mouth is offered in the side wall of inner tube, outer discharge outlet is offered in side wall on outer tube, the region communicated between internal drainage mouth and outer discharge outlet is delivery port, it is provided between inner tube and outer tube for driving axis of the outer tube along inner tube to move with the regulating part of adjusting water outlet mouth position, the closure plate for closing outer discharge outlet is rotatably connected on the outer wall of outer tube above outer discharge outlet, closure plate is provided with ball float on the end face away from outer tube.When make it that closure plate rotates when electrolyte is excessive, electrolysis liquid energy is discharged from delivery port；Electrolyte is relatively more and when closure plate does not rotate, penetrated in the gap that electrolysis liquid energy is formed between closure plate and outer discharge outlet, the lower end of final liquid level and outer discharge outlet maintains an equal level；And when the liquid level of electrolyte shakes, closure plate can play a part of stop.

Description

A kind of fluid level controller for dangerous waste processing electrolytic cell

Technical field

It the utility model is related to dangerous waste processing system, more particularly to a kind of Liquid level for dangerous waste processing electrolytic cell Device.

Background technology

Dangerous waste refers to the dangerous waste liquid containing heavy metal, in dangerous waste processing system, it is necessary to by electrolytic cell in dangerous waste Heavy metal separated out.Electrolytic cell is made up of cell body, anode and negative electrode simultaneously, majority barrier film by anode chamber and cathode chamber every Open.

At present, Authorization Notice No. CN205381993U, authorized announcement date disclose for the Chinese patent on July 13rd, 2016 A kind of dangerous waste containing heavy metal handles electrolytic cell fluid level controller, including inner tube and sleeve pipe；The top of said inner tube is provided with length Spend the inner stripe hole that direction is vertical direction；Described sleeve pipe is provided with outer bar hole, and outer bar hole length direction is vertical direction； Inner stripe hole is communicated by outer bar hole with the cavity of electrolytic cell.

This dangerous waste containing heavy metal handles electrolytic cell fluid level controller by adjusting sleeve pipe and the relative altitude of inner tube, right The phase port formed between inner stripe hole and outer bar hole is adjusted, so as to be controlled to the liquid level in electrolytic cell, But ripple occurs for equivalent to one overfall of the phase port formed between inner stripe hole and outer bar hole, liquid level in a cell When dynamic, the easy slave phase port outflow of electrolyte, in use in the presence of certain deficiency.

Utility model content

The purpose of this utility model is to provide a kind of fluid level controller for dangerous waste processing electrolytic cell, can reduce electrolysis The situation that liquid flows out by liquid fluctuating.

Above-mentioned technical purpose of the present utility model technical scheme is that：One kind is used for dangerous waste and handled The fluid level controller of electrolytic cell, including inner tube, the outer tube being tightly sleeved in said inner tube, the lower end of said inner tube are used to connect Communicated on the bottom wall of electrolytic cell and with the external world, the upper end of the outer tube is in closed, is offered in the side wall of said inner tube interior Discharge outlet, offers the outer discharge outlet corresponding with the internal drainage mouth in the side wall on the outer tube, the internal drainage mouth with The region communicated between the outer discharge outlet is delivery port, is provided between said inner tube and the outer tube described outer for driving Axis of the pipe along said inner tube is moved to adjust the regulating part of the delivery port position, the institute above the outer discharge outlet The closure plate being rotatably connected on the outer wall of outer tube for closing the outer discharge outlet is stated, the closure plate is away from the outer tube Ball float is provided with end face, the maximum buoyancy that the ball float is subject in the electrolytic solution can overcome gravity and the institute of the closure plate The closure plate is driven to depart from the outer discharge outlet after stating the gravity of ball float.

By using such scheme, outer tube is driven to be moved along the axis of inner tube by regulating part, so that interior The relative position of pipe and outer tube is changed so that the bottom of outer discharge outlet is located at the middle part of internal drainage mouth, so that it is determined that going out The height and position at the mouth of a river.When ball float is not in contact with to electrolyte, closure plate lower state in the outer discharge outlet of closing in gravity, When electrolyte is excessive, ball float can be overcome the gravity of closure plate and ball float by the buoyancy of electrolyte, so that closure plate Depart from outer discharge outlet after rotation, electrolyte is discharged from delivery port；Now the liquid level of electrolyte is gradually reduced, when the liquid level of electrolyte When declining to a certain extent, buoyancy that ball float is subject to can not overcome the gravity of closure plate and ball float, final envelope again after being gradually reduced Close on piece conflict outer tube and externally closed in discharge outlet.But because closure plate can be rotated, so closure plate and outer tube it Between certain gap be present, electrolyte can be permeated from gap, so as to continue from delivery port discharge, when the liquid level of electrolyte When dropping to highly consistent with outer discharge outlet bottom, the liquid level of electrolyte is in poised state, and electrolyte is no longer from water outlet Mouthful discharge, now closure plate has certain barrier effect, can reduce because liquid level shakes and caused by electrolyte from water outlet The amount of mouth discharge.

It is of the present utility model to be further arranged to：When the closure plate closes the outer discharge outlet, the closure plate Lower end is located at the lower section of the outer discharge outlet.

By using such scheme, when closure plate closes outer discharge outlet, the lower end of closure plate is located at the lower section of outer discharge outlet, When the liquid level of electrolyte is in poised state, the wall contacts fabric of closure plate and outer tube is larger, reduces the liquid when electrolyte When face shakes and electrolyte because of infiltration and from delivery port discharge amount.

It is of the present utility model to be further arranged to：End face lower end of the closure plate away from the outer tube is additionally provided with counterweight Block, the ball float overcome the weight of the closure plate, the ball float and the balancing weight in the maximum floatage energy that electrolyte is subject to The closure plate is driven after power away from the outer discharge outlet.

By using such scheme, balancing weight is additionally provided with end face lower end of the closure plate away from outer tube so that closure plate, Balancing weight and the position of centre of gravity of ball float entirety find to change, the trend rotated from side of the closure plate with the close outer tube of direction, So that closure plate can be contradicted preferably on the outer wall of outer tube.

It is of the present utility model to be further arranged to：The closure plate is bonded with rubber blanket on the end face of the outer tube.

By using such scheme, when closure plate is contradicted when external discharge outlet is closed on the outer wall of outer tube, it is electrolysed Permeated in the gap that liquid may proceed to be formed between closure plate and outer tube, so as to be discharged from delivery port, the liquid level of final electrolyte With the bottom of outer tube it is in the same plane when and be in poised state, but when liquid level shakes, it is also possible to exist Some electrolyte are discharged after being permeated between closure plate and the outer wall of outer tube from delivery port, and rubber blanket can reduce closure plate The gap formed between the outer wall of outer tube, so as to further reduce the amount that electrolyte is discharged because rocking from outer discharge outlet.

It is of the present utility model to be further arranged to：Length direction is offered on the outer wall of said inner tube parallel to said inner tube Axis direction guide groove, be provided with the guide pad being embedded in the guide groove on the inwall of the outer tube.

By using such scheme, when driving outer tube to be moved along the axis of inner tube by regulating part, in outer tube On guide pad insertion guide groove on inner pipe in so that outer tube can enter line slip along specific direction, outer so as to avoid Pipe and inner tube because relatively rotate and caused by outer discharge outlet and internal drainage mouth situation about being not communicated with.

It is of the present utility model to be further arranged to：The upper end of said inner tube is also in closed, and the regulating part includes opening up Screwed hole in said inner tube upper surface, be opened in the through hole of the outer tube upper surface, be threaded in the screwed hole and Screw rod through the through hole, it is fixed on the screw rod the week side of boss and contradicts the abutting block in the through hole lower surface.

By using such scheme, because screw rod be rotatably connected on outer tube and lower end threaded connection on inner pipe, outer tube sleeve It is located on screw rod and contradicts on block is abutted, when screw rod close to the direction of inner tube towards when being rotated, outer tube is because of Action of Gravity Field And decline；When the direction that screw rod is directed away from inner tube is rotated, the conflict block on screw rod is contradicted on outer tube so as to drive Outer tube rises.

It is of the present utility model to be further arranged to：The top of the screw rod is additionally provided with the rotary head in polygon prism shape.

By using such scheme, the rotary head in screw rod the top can facilitate to be rotated to screw rod, so as to going out The initial position at the mouth of a river is adjusted.

It is of the present utility model to be further arranged to：It is provided with the outer wall of said inner tube bottom for being threaded in electricity Solve the screw thread on the bottom wall of groove.

By using such scheme, the mode that the lower end of inner tube can be connected through a screw thread is arranged on the bottom wall of electrolytic cell, It is more convenient when mounted.

In summary, the utility model has the advantages that：When make it that closure plate rotates when electrolyte is excessive, electricity Liquid energy is solved to discharge from delivery port；Electrolyte is relatively more and when closure plate does not rotate, electrolysis liquid energy is from closure plate and outer discharge outlet Between penetrate in the gap that is formed, the lower end of final liquid level and outer discharge outlet maintains an equal level；And when the liquid level of electrolyte shakes When, closure plate can play a part of stop.

Brief description of the drawings

Fig. 1 is structural representation of the present utility model；

Fig. 2 is structure sectional view of the present utility model.

In figure：1st, inner tube；11st, internal drainage mouth；12nd, guide groove；13rd, screw thread；2nd, outer tube；21st, outer discharge outlet；22nd, it is oriented to Block；3rd, delivery port；4th, regulating part；41st, screwed hole；42nd, through hole；43rd, screw rod；431st, rotary head；44th, block is abutted；5th, closure plate； 51st, rubber blanket；6th, ball float；7th, balancing weight；8th, bearing pin.

Embodiment

The utility model is described in further detail below in conjunction with accompanying drawing.

A kind of fluid level controller for dangerous waste processing electrolytic cell, as depicted in figs. 1 and 2, include inner tube 1, inner tube 1 Bottom is opening-like, and the top face of inner tube 1 is in closed, and the outer wall positioned at the bottom of inner tube 1 is provided with screw thread 13, the spiral shell Line 13 is used to be threaded on the bottom wall of electrolytic cell to be fixed, while when inner tube 1 is installed on the bottom wall of electrolytic cell, it is interior The bottom of pipe 1 and the outside of electrolytic cell communicate.

As depicted in figs. 1 and 2, an outer tube 2 is closely socketed with inner tube 1, the bottom of outer tube 2 is opening-like , the top of outer tube 2 matches in closed, the internal diameter of outer tube 2 and the external diameter of inner tube 1.Opened up on the outer wall of inner tube 1 There is the guide groove 12 of axis direction of the length direction along inner tube 1, be wholely set on the inwall of outer tube 2 and be embedded in guide groove 12 and the guide pad 22 of line slip can be entered.An outer discharge outlet 21 is offered in the side wall of outer tube 2, on the outer wall of inner tube 1 An internal drainage mouth 11 corresponding with outer discharge outlet 21 is offered, the region that outer discharge outlet 21 and internal drainage mouth 11 coincide claims For delivery port 3.

As depicted in figs. 1 and 2, while between outer tube 2 and inner tube 1 it is provided with for driving outer tube 2 along guide groove 12 Direction enter line slip with the regulating part 4 of the position of adjusting water outlet mouth 3.Regulating part 4 includes the screwed hole for being opened in the upper surface of inner tube 1 （41）, be opened in the through hole 42 of the upper surface of outer tube 2, be threaded in screwed hole（41）Screw rod 43 that is interior and passing through through hole 42, consolidate Surely the week side of boss of screw rod 43 that is connected to and the abutting block 44 in the lower surface of through hole 42 is contradicted.Also integrally set in the upper end of screw rod 43 simultaneously It is equipped with the rotary head 431 in polygon prism shape.

As depicted in figs. 1 and 2, a closure plate 5, bearing pin 8 are rotatably connected to by bearing pin 8 on the outer wall of outer tube 2 In the top of outer discharge outlet 21 and in being horizontally disposed with, share two bearing pins 8 and pass through closure plate 5, closure plate 5 is turned so as to realize The outer wall of dynamic connection, closure plate 5 and outer tube 2 matches.When closure plate 5 is in free state, closure plate 5 is close to the end of outer tube 2 Face is contradicted on the outer wall of outer tube 2 and external discharge outlet 21 is closed, and now the bottom of closure plate 5 is less than outer discharge outlet 21 Bottom.A rubber blanket 51 is bonded with by glue on the end face of outer tube 2 in closure plate 5, in closure plate 5 away from outer Balancing weight 7 has been wholely set on the end face of pipe 2, ball float 6 has also been wholely set on end face of the closure plate 5 away from outer tube 2.Counterweight The setting of block 7 causes the center of gravity of closure plate 5, ball float 6 and the combination of balancing weight 7 in the side away from outer tube 2, and closure plate 5 Pivot center is on outer tube 2, and now closure plate 5 has the trend moved by gravity towards close outer tube 2.Ball float simultaneously The 6 maximum floatage energies being subject in the electrolytic solution overcome the gravity of closure plate 5, ball float 6, balancing weight 7 and rubber blanket 51 so that ball float 6 can drive closure plate 5 to rotate so that closure plate 5 is away from outer discharge outlet 21 in electrolyte.

Implementation process：After the screw thread 13 of the lower end of inner tube 1 is threaded in is installed on the bottom wall of electrolytic cell, first Position of the outer tube 2 with respect to inner tube 1 is adjusted by screw rod 43 so that the bottom of the outer discharge outlet 21 on outer tube 2 is in inner tube 1 The middle part of internal drainage mouth 11, now the bottom of delivery port 3 is just the bottom of outer discharge outlet 21.Now inject in a cell During electrolyte, when the height of electrolyte is slightly above the bottom of delivery port 3 and ball float 6 does not float, higher than delivery port 3 most The anolyte portion of lower end is discharged after being permeated by the gap formed between closure plate 5 and outer tube 2 by delivery port 3.Work as electricity When the height of solution liquid is reached to a certain degree higher than the bottom of delivery port 3, the buoyancy that the ball float 6 on closure plate 5 is subject to can Overcome the gravity of closure plate 5, balancing weight 7, rubber blanket 51 and ball float 6, depart from outer discharge outlet 21 from make it that closure plate 5 rotate Outer wall, electrolyte can discharge quickly from delivery port 3；With the discharge of electrolyte, the volume that ball float 6 arranges electrolyte exists Reaching can be gradually reduced afterwards to a certain degree, when the buoyancy that ball float 6 is subject to can not overcome closure plate 5, balancing weight 7, the and of rubber blanket 51 During the gravity of ball float 6, closure plate 5 is contradicted on the outer wall of outer tube 2, now higher than the bottom of delivery port 3 anolyte portion after Discharged after being permeated from delivery port 3 in the continuous gap between closure plate 5 and outer tube 2.The liquid level of final electrolyte and outer draining The bottom of mouth 21 is kept at grade, so as to keep balancing.On this basis, when the liquid level of electrolyte shakes When, because closure plate 5 is covered in outer discharge outlet 21, and the gap between closure plate 5 and outer discharge outlet 21 is smaller so that rocks Electrolyte not easily passs through outer discharge outlet 21 and discharged, and gap of most electrolyte of a little between closure plate 5 and outer tube 2 is carried out Discharged after infiltration by delivery port 3.

This specific embodiment is only that it is not to limitation of the present utility model, ability to explanation of the present utility model Field technique personnel can make the modification of no creative contribution to the present embodiment as needed after this specification is read, but As long as all protected in right of the present utility model by Patent Law.

Claims (8)

1. a kind of fluid level controller for dangerous waste processing electrolytic cell, including inner tube（1）, be tightly sleeved in said inner tube（1）On Outer tube（2）, said inner tube（1）Lower end be used for be connected on the bottom wall of electrolytic cell and communicated with the external world, the outer tube（2）'s Upper end is in closed, said inner tube（1）Side wall on offer internal drainage mouth（11）, the outer tube（2）On side wall on open up Have and the internal drainage mouth（11）Corresponding outer discharge outlet（21）, the internal drainage mouth（11）With the outer discharge outlet（21）It Between the region that communicates be delivery port（3）, it is characterised in that：Said inner tube（1）With the outer tube（2）Between be provided with for driving The outer tube（2）Along said inner tube（1）Axis movement to adjust the delivery port（3）The regulating part of position（4）, positioned at institute State outer discharge outlet（21）The outer tube of top（2）Outer wall on be rotatably connected to for closing the outer discharge outlet（21）Envelope Close piece（5）, the closure plate（5）Away from the outer tube（2）End face on be provided with ball float（6）, the ball float（6）In electrolyte In the maximum buoyancy that is subject to can overcome the closure plate（5）Gravity and the ball float（6）Gravity after drive the closing Piece（5）Depart from the outer discharge outlet（21）.

A kind of 2. fluid level controller for dangerous waste processing electrolytic cell according to claim 1, it is characterised in that：When described Closure plate（5）Close the outer discharge outlet（21）When, the closure plate（5）Lower end be located at the outer discharge outlet（21）Under Side.

A kind of 3. fluid level controller for dangerous waste processing electrolytic cell according to claim 2, it is characterised in that：The envelope Close piece（5）Away from the outer tube（2）End face lower end be additionally provided with balancing weight（7）, the ball float（6）It is subject to most in electrolyte Big floatage energy overcomes the closure plate（5）, the ball float（6）And the balancing weight（7）Gravity after drive the closure plate （5）Away from the outer discharge outlet（21）.

A kind of 4. fluid level controller for dangerous waste processing electrolytic cell according to claim 3, it is characterised in that：The envelope Close piece（5）Close to the outer tube（2）End face on be bonded with rubber blanket（51）.

A kind of 5. fluid level controller for dangerous waste processing electrolytic cell according to claim 4, it is characterised in that：In described Pipe（1）Outer wall on offer length direction parallel to said inner tube（1）Axis direction guide groove（12）, the outer tube （2）Inwall on be provided with and be embedded in the guide groove（12）Interior guide pad（22）.

A kind of 6. fluid level controller for dangerous waste processing electrolytic cell according to claim 5, it is characterised in that：In described Pipe（1）Upper end be also in closed, the regulating part（4）Including being opened in said inner tube（1）The screwed hole of upper surface（41）, open It is located at the outer tube（2）The through hole of upper surface（42）, be threaded in the screwed hole（41）It is interior and pass through the through hole（42） Screw rod（43）, be fixed on the screw rod（43）The week side of boss and contradict in the through hole（42）The abutting block of lower surface（44）.

A kind of 7. fluid level controller for dangerous waste processing electrolytic cell according to claim 6, it is characterised in that：The spiral shell Bar（43）The top be additionally provided with rotary head in polygon prism shape（431）.

A kind of 8. fluid level controller for dangerous waste processing electrolytic cell according to claim 1, it is characterised in that：In described Pipe（1）The screw thread for being threaded on the bottom wall of electrolytic cell is provided with the outer wall of bottom（13）.