CN204824271U - Sodium ion exchanger with resin regeneration liquid cyclic utilization function - Google Patents

Abstract

The utility model discloses a sodium ion exchanger with resin regeneration liquid cyclic utilization function, an ion exchange section of thick bamboo (6) top center is provided with drainage device (5), an ion exchange section of thick bamboo (6) top is provided with inlet tube (4), an ion exchange section of thick bamboo (6) upper portion outside is provided with resin grain belt cleaning device, the resin grain belt cleaning device be connected with the reduction sagger, the reduction sagger passes through an ion exchange section of thick bamboo (6) bottom scum pipes of establishing (12) and an ion exchange section of thick bamboo (6) intercommunication, be provided with switch (17) on scum pipe (12), the reduction sagger middle part wet return of establishing (15) is connected with naoh sedimentation tank (3), naoh sedimentation tank (3) intercommunication salt section of thick bamboo (8), a salt section of thick bamboo (8) intercommunication reduction sagger, this equipment directly carries out resin particles's change, regenerate to resin particles rather than handling the part at soft water, waste liquid after the regeneration also can cyclic utilization simultaneously.

Description

A kind of Na-ion exchanger with resin regeneration liquid recycling function

Technical field

The utility model relates to the sodium ionomer resin interchanger field in water softening plant, espespecially a kind of Na-ion exchanger with resin regeneration liquid recycling function.

Background technology

Sodium ionomer resin interchanger uses more equipment in soft brush treatment; prior art is all use salt solution and sodium hydroxide solution to regenerate this resin in resin absorption after a large amount of sodium, magnesium plasma; in whole regenerative process, resin is all rest in Na-ion exchanger; that is in the time regenerated, resin particle or resin rodlet cannot carry out soft brush treatment purification; and the whole recovery time is also different according to the different cycles of resin, this can reduce the service efficiency of equipment undoubtedly.

Summary of the invention

For solving the problem, the utility model provides a kind of Na-ion exchanger with resin regeneration liquid recycling function, this equipment directly carries out the replacing of resin particle, instead of regenerates resin particle in soft brush treatment part, and the waste liquid simultaneously after regeneration also can recycle.

For achieving the above object, the utility model adopts following technology to realize, a kind of Na-ion exchanger with resin regeneration liquid recycling function, comprise resin particle washing unit, ion-exchange cylinder, salt cylinder, sodium hydroxide pellets pond, reduction sagger, water-freeing arrangement, wherein ion-exchange cylinder top center is provided with water-freeing arrangement, ion-exchange cylinder top is provided with water inlet pipe, ion-exchange cylinder upper outside is provided with resin particle washing unit, resin particle washing unit is connected with reduction sagger, reduction sagger is communicated with ion-exchange cylinder by scum pipe set bottom ion-exchange cylinder, scum pipe is provided with switch, in the middle part of reduction sagger, set return water pipe is connected with sodium hydroxide pellets pond, sodium hydroxide pellets pond is communicated with salt cylinder, salt cylinder is communicated with reduction sagger.

As further improvement of the utility model, described resin particle washing unit is by primary cyclone, lift pump, secondary cyclone, middle tank, rinse water water inlet pipe, enter a pipe composition, pump mouth set by primary cyclone top is connected with water-in set by sodium hydroxide pellets pond by lift pump, set by primary cyclone top, opening for feed is connected with reduction sagger corresponding part by pipeline, a middle tank is provided with bottom primary cyclone, during primary cyclone is set, tank is provided with rinse water water inlet pipe, during primary cyclone is set, tank is connected with opening for feed set by secondary cyclone top by pipeline, pump mouth set by secondary cyclone top is connected with water-in set by sodium hydroxide pellets pond by lift pump, a middle tank is provided with bottom secondary cyclone, during secondary cyclone is set, tank is connected with ion-exchange cylinder top by the grain pipe that enters of belt switch.

As further improvement of the utility model, described ion-exchange cylinder is by resins exchange grain, sloping baffle, center return water pipe, filter mantle, cylindrical shell, scum pipe forms, cylindrical shell top is hollow cylindrical bottom is hollow conic, cylinder top is provided with the center return water pipe extending cylindrical shell closedtop lid, center return water pipe to be positioned in the middle part of cylindrical shell and to extend to cylindrical shell bottom, cylinder body bottom is provided with scum pipe, return water pipe bottom, center is provided with filter mantle, cylinder inner surface and the center return water pipe outside surface sloping baffle having downward-sloping setting arranged in a crossed manner being mutually positioned at cylindrical shell, resins exchange grain is provided with in cylindrical shell.

As further improvement of the utility model, described resins exchange grain is made up of switching layer, counterweight core, and counterweight core is spheroidal, and counterweight core outer surface is coated is provided with switching layer, and switching layer is resins exchange layer.

As further improvement of the utility model, described counterweight core is ceramic core or metal-cored.

As further improvement of the utility model, described salt cylinder is in-built is placed with salt grain, and salt cylinder top is by pipeline communication sodium hydroxide pellets pond, and salt cylinder top is provided with clear water pipe, is provided with the brine outlet being communicated with reduction sagger in the middle part of salt cylinder.

As further improvement of the utility model, described sodium hydroxide pellets pond is that top is provided with capping and is provided with clear water pipe, sodium hydroxide pellets pond basal surface is provided with the baffle plate that polylith height raises successively or reduces successively, described sodium hydroxide pellets pond is hollow, rectangular structure, and sodium hydroxide pellets top is provided with the water-in being communicated with reduction sagger.

As further improvement of the utility model, described reduction sagger is by driving wheel, return water pipe, row's grain pipe, screen cloth, reduction sagger water-in forms, wherein reduction sagger is that top is provided with capping, capping is provided with the hollow, rectangular structure of scum pipe installing port, reduction sagger diagonal lines is provided with one piece of screen cloth tilted, higher one end, screen cloth top is provided with the scum pipe being communicated with ion-exchange cylinder, the reduction sagger lower end at place, screen cloth higher one end is provided with reduction sagger water-in, the row's of being equipped with grain pipe set by the reduction sagger lower sidewall at upper surface place, screen cloth shorter one end, return water pipe is provided with in the reduction sagger sidewall at upper surface place, screen cloth shorter one end, row's grain pipe is communicated with resin particle washing unit, return water pipe is communicated with sodium hydroxide pellets pond, the reduction sagger inwall of return water pipe oblique upper is provided with the driving wheel being equipped with motor.

As further improvement of the utility model, described water-freeing arrangement is made up of rising pipe, water monitor, rising pipe is communicated with correspondence position set by ion-exchange cylinder top after installing switch, set by switch set by rising pipe and rising pipe, water outlet region is main drainpipe, main drainpipe is provided with a point branching pipe, and point branching pipe connects Water quality detector after installing switch.

As further improvement of the utility model, described Water quality detector is by Venturi tube, drawing liquid manifold, switch, drop inspection section, transfusion bottle, water quality inspection section forms, Venturi tube feed-water end is installed on point branching pipe, in the middle part of Venturi tube, set tubule is provided with drawing liquid manifold, drawing liquid manifold is by conduit tandem tap successively, drop inspection section and transfusion bottle, sodium hydroxide solution is placed with in transfusion bottle, transfusion bottle is installed on main drainpipe, Venturi tube water side is provided with water quality inspection section, water quality inspection section is that transparent material is made, water quality inspection section top is provided with liquid discharge pipe, the place that liquid discharge pipe is positioned on water quality inspection section inwall is provided with weir plate.

The utility model has following beneficial effect compared with in prior art:

1, this equipment directly carries out the replacing of resin particle, instead of regenerates resin particle in soft brush treatment part, and the waste liquid simultaneously after regeneration also can recycle.

Accompanying drawing explanation

Fig. 1 is a kind of Na-ion exchanger structural representation with resin regeneration liquid recycling function;

Fig. 2 is ion-exchange barrel structure schematic diagram set by a kind of Na-ion exchanger with resin regeneration liquid recycling function;

Fig. 3 is resins exchange kernel structure schematic diagram set by a kind of Na-ion exchanger with resin regeneration liquid recycling function;

Fig. 4 is water-freeing arrangement structural representation set by a kind of Na-ion exchanger with resin regeneration liquid recycling function;

Fig. 5 is backwater pipe structure schematic diagram set by a kind of Na-ion exchanger with resin regeneration liquid recycling function;

Fig. 6 is Water quality detector structural representation set by a kind of Na-ion exchanger with resin regeneration liquid recycling function;

1-primary cyclone in figure; 2-lift pump; 3-sodium hydroxide settling bowl; 4-water inlet pipe; 5-water-freeing arrangement; 6-ion-exchange cylinder; 7-brine outlet; 8-salt cylinder; 9-settling bowl water outlet; 10-baffle plate; 11-reduction sagger water-in; 12-scum pipe; 13-screen cloth; 14-arranges grain pipe; 15-return water pipe; 16-driving wheel; 17-switch; Tank in 18-; 19-rinse water water inlet pipe; 20-secondary cyclone; 21-rising pipe; 22-Water quality detector; 23-cylindrical shell; 24-resins exchange grain; 25-sloping baffle; 26-center return water pipe; 27-filter mantle; 28-enters grain pipe; 29-switching layer; 30-counterweight core; 31-divides branching pipe; 32-main drainpipe; 33-Venturi tube; 34-transfusion apparatus; 35-water quality inspection section; 36-transfusion bottle; 37-drop inspection section; 38-weir plate; 39-liquid discharge pipe; 40-water quality inspection section; 41-drawing liquid manifold.

Embodiment

Embodiment 1

A kind of Na-ion exchanger with resin regeneration liquid recycling function as shown in Figures 1 to 6, comprise resin particle washing unit, ion-exchange cylinder 6, salt cylinder 8, sodium hydroxide pellets pond 3, reduction sagger, water-freeing arrangement 5, wherein ion-exchange cylinder 6 top center is provided with water-freeing arrangement 5, ion-exchange cylinder 6 top is provided with water inlet pipe 4, ion-exchange cylinder 6 upper outside is provided with resin particle washing unit, resin particle washing unit is connected with reduction sagger, reduction sagger is communicated with ion-exchange cylinder 6 by scum pipe 12 set bottom ion-exchange cylinder 6, scum pipe 12 is provided with switch 17, in the middle part of reduction sagger, set return water pipe 15 is connected with sodium hydroxide pellets pond 3, sodium hydroxide pellets pond 3 is communicated with salt cylinder 8, salt cylinder 8 is communicated with reduction sagger, described resin particle washing unit is by primary cyclone 1, lift pump 2, secondary cyclone 20, middle tank 18, rinse water water inlet pipe 19, enter a pipe 28 to form, pump mouth set by primary cyclone 1 top is connected with water-in set by sodium hydroxide pellets pond 3 by lift pump 2, set by primary cyclone 1 top, opening for feed is connected with reduction sagger corresponding part by pipeline, a middle tank 18 is provided with bottom primary cyclone 1, during primary cyclone 1 is set, tank 18 is provided with rinse water water inlet pipe 19, during primary cyclone 1 is set, tank 18 is connected with opening for feed set by secondary cyclone 20 top by pipeline, pump mouth set by secondary cyclone 20 top is connected with water-in set by sodium hydroxide pellets pond 3 by lift pump 2, a middle tank 18 is provided with bottom secondary cyclone 20, during secondary cyclone 20 is set, tank 18 is connected with ion-exchange cylinder 6 top by the pipe 28 that enters of belt switch 17, described ion-exchange cylinder 6 is by resins exchange grain 24, sloping baffle 25, center return water pipe 26, filter mantle 27, cylindrical shell 23, scum pipe 12 forms, cylindrical shell 23 top is hollow cylindrical bottom is hollow conic, cylindrical shell 23 top is provided with the center return water pipe 26 extending cylindrical shell 23 closedtop lid, center return water pipe 26 to be positioned in the middle part of cylindrical shell 23 and to extend to cylindrical shell 23 bottom, scum pipe 12 is provided with bottom cylindrical shell 23, center return water pipe 26 bottom is provided with filter mantle 27, cylindrical shell 23 internal surface and the center return water pipe 26 outside surface sloping baffle 25 having downward-sloping setting arranged in a crossed manner being mutually positioned at cylindrical shell 23, resins exchange grain 24 is provided with in cylindrical shell 23, described resins exchange grain 24 is by switching layer 29, counterweight core 30 forms, counterweight core 30 is spheroidal, counterweight core 30 outside surface is coated is provided with switching layer 29, switching layer 29 is resins exchange layer, described counterweight core 30 is ceramic core or metal-cored, described salt cylinder 8 is in-built is placed with salt grain, salt cylinder 8 top is by pipeline communication sodium hydroxide pellets pond 3, salt cylinder 8 top is provided with clear water pipe, the brine outlet being communicated with reduction sagger is provided with in the middle part of salt cylinder 8, described sodium hydroxide pellets pond 3 is provided with capping for top and is provided with clear water pipe, sodium hydroxide pellets pond 3 basal surface is provided with the baffle plate 10 that polylith height raises successively or reduces successively, described sodium hydroxide pellets pond 3 is hollow, rectangular structure, sodium hydroxide pellets 3 top is provided with the water-in being communicated with reduction sagger, described reduction sagger is by driving wheel 16, return water pipe 15, row's grain pipe 14, screen cloth 13, reduction sagger water-in 11 forms, wherein reduction sagger is that top is provided with capping, capping is provided with the hollow, rectangular structure of scum pipe installing port, reduction sagger diagonal lines is provided with one piece of screen cloth 13 tilted, higher one end, screen cloth 13 top is provided with the scum pipe 12 being communicated with ion-exchange cylinder 6, the reduction sagger lower end at place, screen cloth 13 higher one end is provided with reduction sagger water-in 11, the row's of being equipped with grain pipe 24 set by the reduction sagger lower sidewall at upper surface place, screen cloth 13 shorter one end, return water pipe 15 is provided with in the reduction sagger sidewall at upper surface place, screen cloth 13 shorter one end, row's grain pipe 24 is communicated with resin particle washing unit, return water pipe 15 is communicated with sodium hydroxide pellets pond 3, the reduction sagger inwall of return water pipe 15 oblique upper is provided with the driving wheel 16 being equipped with motor, described water-freeing arrangement 5 is by rising pipe 21, water monitor 22 forms, rising pipe 21 is communicated with correspondence position set by ion-exchange cylinder 6 top after installing switch 17, set by rising pipe 21, switch 17 is main drainpipe 32 with water outlet region set by rising pipe 21, main drainpipe 32 is provided with point branching pipe 31, Water quality detector 22 is connected after dividing branching pipe 31 that switch 17 is installed, described Water quality detector 22 is by Venturi tube 33, drawing liquid manifold 41, switch 17, drop inspection section 37, transfusion bottle 36, water quality inspection section 35 forms, Venturi tube 33 feed-water end is installed on point branching pipe 31, in the middle part of Venturi tube 33, set tubule is provided with drawing liquid manifold 41, drawing liquid manifold 41 is by conduit tandem tap 17 successively, drop inspection section 37 and transfusion bottle 36, sodium hydroxide solution is placed with in transfusion bottle 36, transfusion bottle 36 is installed on main drainpipe 32, Venturi tube 33 water side is provided with water quality inspection section 35, water quality inspection section 35 is made for transparent material, water quality inspection section 35 top is provided with liquid discharge pipe 39, the place that liquid discharge pipe 39 is positioned on water quality inspection section 35 inwall is provided with weir plate 38.

Claims (10)

1. one kind has the Na-ion exchanger of resin regeneration liquid recycling function, comprise resin particle washing unit, ion-exchange cylinder (6), salt cylinder (8), sodium hydroxide pellets pond (3), reduction sagger, water-freeing arrangement (5), it is characterized in that: ion-exchange cylinder (6) top center is provided with water-freeing arrangement (5), ion-exchange cylinder (6) top is provided with water inlet pipe (4), ion-exchange cylinder (6) upper outside is provided with resin particle washing unit, resin particle washing unit is connected with reduction sagger, reduction sagger is communicated with ion-exchange cylinder (6) by the set scum pipe (12) in ion-exchange cylinder (6) bottom, scum pipe (12) is provided with switch (17), in the middle part of reduction sagger, set return water pipe (15) is connected with sodium hydroxide pellets pond (3), sodium hydroxide pellets pond (3) is communicated with salt cylinder (8), salt cylinder (8) is communicated with reduction sagger.

2. a kind of Na-ion exchanger with resin regeneration liquid recycling function according to claim 1, it is characterized in that: described resin particle washing unit is by primary cyclone (1), lift pump (2), secondary cyclone (20), middle tank (18), rinse water water inlet pipe (19), enter grain pipe (28) composition, pump mouth set by primary cyclone (1) top is connected by the set water-in in lift pump (2) and sodium hydroxide pellets pond (3), set by primary cyclone (1) top, opening for feed is connected with reduction sagger corresponding part by pipeline, primary cyclone (1) bottom is provided with a middle tank (18), during primary cyclone (1) is set, tank (18) is provided with rinse water water inlet pipe (19), during primary cyclone (1) is set, tank (18) is connected with opening for feed set by secondary cyclone (20) top by pipeline, pump mouth set by secondary cyclone (20) top is connected by the set water-in in lift pump (2) and sodium hydroxide pellets pond (3), secondary cyclone (20) bottom is provided with a middle tank (18), during secondary cyclone (20) is set, tank (18) is connected with ion-exchange cylinder (6) top by the grain pipe (28) that enters of belt switch (17).

3. a kind of Na-ion exchanger with resin regeneration liquid recycling function according to claim 1 or 2, it is characterized in that: described ion-exchange cylinder (6) is by resins exchange grain (24), sloping baffle (25), center return water pipe (26), filter mantle (27), cylindrical shell (23), scum pipe (12) forms, cylindrical shell (23) top is hollow cylindrical bottom is hollow conic, cylindrical shell (23) top is provided with the center return water pipe (26) extending cylindrical shell (23) closedtop lid, center return water pipe (26) is positioned at cylindrical shell (23) middle part and extends to cylindrical shell (23) bottom, cylindrical shell (23) bottom is provided with scum pipe (12), center return water pipe (26) bottom is provided with filter mantle (27), cylindrical shell (23) internal surface and center return water pipe (26) the outside surface sloping baffle (25) having downward-sloping setting arranged in a crossed manner being mutually positioned at cylindrical shell (23), resins exchange grain (24) is provided with in cylindrical shell (23).

4. a kind of Na-ion exchanger with resin regeneration liquid recycling function according to claim 3, it is characterized in that: described resins exchange grain (24) is made up of switching layer (29), counterweight core (30), counterweight core (30) is spheroidal, counterweight core (30) outside surface is coated is provided with switching layer (29), and switching layer (29) is resins exchange layer.

5. a kind of Na-ion exchanger with resin regeneration liquid recycling function according to claim 4, is characterized in that: described counterweight core (30) is ceramic core or metal-cored.

6. a kind of Na-ion exchanger with resin regeneration liquid recycling function according to claim 1 or 5, it is characterized in that: described salt cylinder (8) is in-built is placed with salt grain, salt cylinder (8) top is by pipeline communication sodium hydroxide pellets pond (3), salt cylinder (8) top is provided with clear water pipe, and salt cylinder (8) middle part is provided with the brine outlet being communicated with reduction sagger.

7. a kind of Na-ion exchanger with resin regeneration liquid recycling function according to claim 6, it is characterized in that: described sodium hydroxide pellets pond (3) is provided with capping for top and is provided with clear water pipe, sodium hydroxide pellets pond (3) basal surface is provided with the baffle plate (10) that polylith height raises successively or reduces successively, described sodium hydroxide pellets pond (3) is hollow, rectangular structure, and sodium hydroxide pellets (3) top is provided with the water-in being communicated with reduction sagger.

8. a kind of Na-ion exchanger with resin regeneration liquid recycling function according to claim 1, it is characterized in that: described reduction sagger is by driving wheel (16), return water pipe (15), row's grain pipe (14), screen cloth (13), reduction sagger water-in (11) forms, wherein reduction sagger is that top is provided with capping, capping is provided with the hollow, rectangular structure of scum pipe installing port, reduction sagger diagonal lines is provided with one piece of screen cloth (13) tilted, higher one end, screen cloth (13) top is provided with the scum pipe (12) being communicated with ion-exchange cylinder (6), the reduction sagger lower end at place, screen cloth (13) higher one end is provided with reduction sagger water-in (11), row's of being equipped with grain pipe (24) set by the reduction sagger lower sidewall at upper surface place, screen cloth (13) shorter one end, return water pipe (15) is provided with in the reduction sagger sidewall at upper surface place, screen cloth (13) shorter one end, row's grain pipe (24) is communicated with resin particle washing unit, return water pipe (15) is communicated with sodium hydroxide pellets pond (3), the reduction sagger inwall of return water pipe (15) oblique upper is provided with the driving wheel (16) being equipped with motor.

9. a kind of Na-ion exchanger with resin regeneration liquid recycling function according to claim 1, it is characterized in that: described water-freeing arrangement (5) is by rising pipe (21), water monitor (22) forms, rising pipe (21) is installed switch (17) and is communicated with correspondence position set by ion-exchange cylinder (6) top afterwards, the set switch (17) of rising pipe (21) is main drainpipe (32) with the set water outlet region of rising pipe (21), main drainpipe (32) is provided with a point branching pipe (31), divide branching pipe (31) that switch (17) is installed and connect Water quality detector (22) afterwards.

10. a kind of Na-ion exchanger with resin regeneration liquid recycling function according to claim 9, it is characterized in that: described Water quality detector (22) is by Venturi tube (33), drawing liquid manifold (41), switch (17), drop inspection section (37), transfusion bottle (36), water quality inspection section (35) forms, Venturi tube (33) feed-water end is installed on a point branching pipe (31), the set tubule in Venturi tube (33) middle part is provided with drawing liquid manifold (41), drawing liquid manifold (41) is by conduit successively tandem tap (17), drop inspection section (37) and transfusion bottle (36), transfusion bottle is placed with sodium hydroxide solution in (36), transfusion bottle (36) is installed on main drainpipe (32), Venturi tube (33) water side is provided with water quality inspection section (35), water quality inspection section (35) is made for transparent material, water quality inspection section (35) top is provided with liquid discharge pipe (39), liquid discharge pipe (39) place be positioned on water quality inspection section (35) inwall is provided with weir plate (38).