CN215963597U - Resin desorption regeneration barrel - Google Patents

Abstract

The application discloses resin desorption recycling bin, it includes the agitator, be provided with pan feeding pipe and blast pipe on the agitator, be provided with drain pipe and discharging pipe on the diapire of agitator, be provided with the drain valve that is used for opening and close the drain pipe inner chamber on the drain pipe, all be provided with the drain valve that is used for opening and close the discharging pipe inner chamber on the discharging pipe, the inner wall upper end of agitator is provided with first perforation water distributor, be provided with the perforation water distributor of second on the interior diapire of agitator, be provided with the first inlet pipe of being connected with first perforation water distributor and the second inlet pipe of being connected with the perforation water distributor of second on the inner wall of agitator, the one end of first inlet pipe and second inlet pipe stretches out to the agitator outside. The method has the effect of improving the desorption regeneration rate of the exchange resin.

Description

Resin desorption regeneration barrel

Technical Field

The application relates to the field of resin regenerating units, in particular to a resin desorption regeneration barrel.

Background

The ion exchanger is mainly used for the pretreatment of boiler, thermal power station, chemical industry, light industry, textile, medicine, biology, electron, atomic energy and pure water treatment. Passing through an exchange resin disposed in the ion exchanger to adsorb anions or cations in the wastewater.

In the related art, after the exchange resin runs to be invalid, the exchange resin is transferred to a resin regeneration barrel, and then a regeneration liquid is added into the regeneration barrel so as to desorb and regenerate the exchange resin. Directly topple into the regeneration bucket with the regeneration liquid, the regeneration liquid is difficult to get into the clearance between the exchange resin, leads to the exchange resin desorption regeneration not enough, awaits improving.

SUMMERY OF THE UTILITY MODEL

In order to improve exchange resin's desorption regeneration rate, this application provides a resin desorption regeneration bucket.

The application provides a resin desorption recycling bin adopts following technical scheme:

the utility model provides a resin desorption recycling bin, includes the agitator, be provided with pan feeding pipe and blast pipe on the agitator, be provided with drain pipe and discharging pipe on the diapire of agitator, be provided with the drain valve that is used for opening and close the drain pipe inner chamber on the drain pipe, all be provided with the drain valve that is used for opening and close the discharging pipe inner chamber on the discharging pipe, the inner wall upper end of agitator is provided with first perforation water distributor, be provided with the perforation water distributor of second on the interior diapire of agitator, be provided with the first inlet pipe of being connected with first perforation water distributor and the second inlet pipe of being connected with the perforation water distributor of second on the inner wall of agitator, the one end of first inlet pipe and second inlet pipe stretches out to the agitator outside.

Through adopting above-mentioned technical scheme, when carrying out desorption regeneration to the resin, closing out liquid valve and discharge valve earlier, drop into the agitator with the resin through the pan feeding pipe again, then pour into the regeneration liquid into through first inlet pipe, during the regeneration liquid got into first perforation water distributor through first inlet pipe to through the hole outflow on the first perforation water distributor, thereby spray the watering to the resin in the agitator.

When the regenerated liquid is injected through the second feeding pipe, the injection rate of the regenerated liquid is improved by the second perforated water distribution pipe; when injecting air through the second inlet pipe, because the second perforates the water distributor setting on the diapire of agitator for the spun air produces the bubble in the regeneration liquid in the hole of second perforates the water distributor, thereby makes the resin seethe in order to play the effect of stirring in the regeneration liquid, and then makes resin and regeneration liquid fully contact, has improved the desorption regeneration rate of resin.

Optionally, a third perforated water distribution pipe is arranged on the inner bottom wall of the stirring barrel, and a connecting pipe for connecting the third perforated water distribution pipe and the second perforated water distribution pipe is arranged on the third perforated water distribution pipe.

Through adopting above-mentioned technical scheme, when injecting into air through the second inlet pipe, compare in only passing through the second perforation water distributor exhaust air, the third perforation water distributor has enlarged the region that generates the bubble, has further improved the desorption regeneration rate of the effect with the improvement resin of stirring.

Optionally, a stirring motor is arranged on the stirring barrel, a stirring rod is arranged in the stirring barrel, the stirring rod is connected to an output shaft of the stirring motor, and a stirring piece is arranged on the stirring rod.

Through adopting above-mentioned technical scheme, after the reclaimed liquid pours into the agitator, start agitator motor and rotate with the drive puddler to drive stirring piece rotation and with stirring regeneration resin, improved the desorption regeneration rate of resin.

Optionally, the stirring piece is provided with the multiunit and arranges along the length direction of stirring rod, and is adjacent the stirring piece is the setting of staggering.

Through adopting above-mentioned technical scheme, the stirring piece that the multiunit just is the setting of staggering has further improved the desorption regeneration rate of stirring efficiency and resin.

Optionally, a supporting rib is arranged in the stirring barrel, two sides of the supporting rib are respectively connected with the inner bottom wall of the stirring barrel and the inner side wall of the stirring barrel, and a mounting hole for the second perforated water distribution pipe to penetrate is formed in the supporting rib.

Through adopting above-mentioned technical scheme, connect the inside wall of inner diapire and agitator of agitator through the brace rod to the structural strength of agitator has been strengthened. The second perforated water distribution pipe penetrates through the mounting hole of the support rib, so that the second perforated water distribution pipe is fixed, the second perforated water distribution pipe is not easy to move due to flowing of regenerated liquid or resin, and the stability of the second perforated water distribution pipe in use is improved.

Optionally, the supporting ribs are provided with a plurality of supporting ribs, a limiting block is arranged between the adjacent supporting ribs, the second perforated water distribution pipe is an annular pipe, and the limiting block is abutted to the side wall of the second perforated water distribution pipe, which is far away from the axial lead of the stirring barrel.

Through adopting above-mentioned technical scheme, compare in whole fix the second water distributor that perforates through the brace rod, perforate the water distributor through the stopper to the second and carry on spacingly, reduced the quantity of the mounting hole that the staff required when installing the second water distributor that perforates to the simplicity when having improved the staff and installing the stopper.

Optionally, the distance between the limiting block and the axial lead of the stirring barrel is gradually decreased from low to high.

Through adopting above-mentioned technical scheme, the stopper has restricted the second and has perforated the water-distributing pipe and to keeping away from the direction removal of the interior diapire of agitator, has further improved the limiting displacement of stopper to the second perforation water-distributing pipe.

Optionally, a fixing block is arranged on the stirring barrel, and a fixing hole for the third perforated water distribution pipe to penetrate through is formed in the fixing block.

By adopting the technical scheme, the fixing block has a fixing effect on the third perforated water distribution pipe, so that the third perforated water distribution pipe is not easy to move due to the flowing of regenerated liquid or resin, and the stability of the third perforated water distribution pipe in use is improved.

In summary, the present application includes at least one of the following benefits:

1. when the resin is desorbed and regenerated, air is injected into the second feeding pipe, so that air is sprayed out of the holes of the second perforated water distribution pipe and the holes of the third perforated water distribution pipe, and bubbles are generated in the regenerated liquid, so that the resin is stirred in the regenerated liquid to play a role in stirring, and the desorption regeneration rate of the resin is improved;

2. the stirring motor drives the stirring rod to rotate, so that the stirring piece is driven to rotate, the resin stirring effect is improved, and the desorption regeneration rate of the resin is further improved;

3. the supporting ribs fix the second perforated water distribution pipe, and the fixing blocks fix the third perforated water distribution pipe, so that the second perforated water distribution pipe and the third perforated water distribution pipe are limited to move in the resin desorption and regeneration process.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present application.

Fig. 2 is a schematic cross-sectional view of an embodiment of the present application.

Fig. 3 is an enlarged schematic view at a in fig. 2.

Description of reference numerals:

1. a stirring barrel; 11. a feeding pipe; 12. an exhaust pipe; 13. a viewing port; 131. a cover plate; 14. an ear rack; 15. a motor frame; 151. a stirring motor; 16. a stirring rod; 17. a stirring member; 171. a stirring blade; 2. a supporting seat; 3. a first perforated water distribution pipe; 31. connecting blocks; 4. a second perforated water distribution pipe; 41. supporting ribs; 411. mounting holes; 42. a limiting block; 43. a connecting pipe; 5. a third perforated water distribution pipe; 51. a fixed block; 511. a fixing hole; 6. a liquid outlet pipe; 61. a liquid outlet valve; 7. a discharge pipe; 71. a discharge valve; 72. filtering with a screen; 8. a first feed tube; 9. a second feed tube; 91. and (5) positioning the blocks.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses resin desorption recycling bin. Referring to fig. 1 and 2, the resin desorption regeneration barrel comprises a stirring barrel 1, a support base 2 fixed at the bottom of the stirring barrel 1, a first perforated water distribution pipe 3, a second perforated water distribution pipe 4 and a third perforated water distribution pipe 5 which are arranged inside the stirring barrel 1, a first feeding pipe 8 and a second feeding pipe 9 for feeding, a liquid outlet pipe 6 and a discharging pipe 7 which are fixed on the outer bottom wall of the stirring barrel 1, wherein the liquid outlet pipe 6 and the discharging pipe 7 are both communicated with the inner cavity of the stirring barrel 1.

Referring to fig. 1 and 2, a feeding pipe 11 for adding resin, an exhaust pipe 12 for exhausting gas, and an observation port 13 for observing the inside of the mixing tank 1 are opened on the top wall of the mixing tank 1. The feeding pipe 11 and the exhaust pipe 12 are both fixed on the stirring barrel 1 and are both communicated with the inner cavity of the stirring barrel 1. A lid plate 131 is provided on the top wall of the agitation tank 1, and the lid plate 131 covers the observation port 13 to shield the observation port 13 when the inside of the agitation tank 1 is not required to be observed through the observation port 13.

Referring to fig. 1 and 2, two lug frames 14 are uniformly distributed on the circumferential outer wall of the stirring barrel 1 along the axial lead of the stirring barrel 1 in the circumferential direction, and the two lug frames 14 are fixedly connected with the stirring barrel 1. The ear frames 14 are provided with motor frames 15, and two ends of the motor frames 15 are respectively fixedly connected with the two ear frames 14. A stirring motor 151 is fixed on the motor frame 15, a stirring rod 16 is arranged in the stirring barrel 1, and the end part of the stirring rod 16 penetrates through the stirring barrel 1 and is fixedly connected with an output shaft of the stirring motor 151. The stirring rod 16 extends along the length direction of the stirring barrel 1, and the axial lead of the stirring rod 16 is collinear with the axial lead of the stirring barrel 1.

Referring to fig. 2, two sets of stirring members 17 are provided on the stirring rod 16, and the stirring members 17 are arranged along the length direction of the stirring rod 16. The stirring part 17 comprises two stirring blades 171, the two stirring blades 171 are uniformly distributed on the stirring rod 16 along the circumferential direction of the axial lead of the stirring rod 16, the stirring blades 171 are fixedly connected with the stirring rod 16, the length directions of the stirring blades 171 in the same group are consistent, and the length directions of the two stirring parts 17 are mutually perpendicular. The stirring blades 171 are disposed in an inclined manner, and the stirring blades 171 of the same group are disposed in a staggered manner.

Referring to fig. 2, the first perforated water distributor 3, the second perforated water distributor 4 and the third perforated water distributor 5 are all annular pipes, four connecting blocks 31 are fixed at the upper end of the inner side wall of the stirring barrel 1, the connecting blocks 31 are circumferentially and uniformly distributed along the axial lead of the stirring barrel 1, and the first perforated water distributor 3 penetrates through the four connecting blocks 31. The first feeding pipe 8 and the second feeding pipe 9 are both arranged in the stirring barrel 1, one end of the first feeding pipe 8 is fixedly connected with the first perforated water distribution pipe 3, the other end of the first feeding pipe 8 penetrates out of the stirring barrel 1, and the inner cavity of the first feeding pipe 8 is communicated with the inner cavity of the first perforated water distribution pipe 3.

Referring to fig. 2, three positioning blocks 91 are fixed on the inner side wall of the stirring barrel 1, the positioning blocks 91 are uniformly distributed along the extension direction of the axial lead of the stirring barrel 1, and the second feeding pipe 9 penetrates through the positioning blocks 91. One end of the second feeding pipe 9 is fixedly connected with the second perforated water distribution pipe 4, the other end of the second feeding pipe 9 penetrates out of the stirring barrel 1, and the inner cavity of the second feeding pipe 9 is communicated with the inner cavity of the second perforated water distribution pipe 4.

Referring to fig. 2 and 3, four support ribs 41 are arranged in the stirring barrel 1, the support ribs 41 are circumferentially and uniformly distributed on the inner bottom wall of the stirring barrel 1, the support ribs 41 are fixedly connected with the inner bottom wall and the inner side wall of the stirring barrel 1, and mounting holes 411 for the second perforated water distribution pipes 4 to penetrate are formed in each support rib 41. A limiting block 42 is arranged between the adjacent supporting ribs 41, the limiting block 42 is abutted to the circumferential outer wall of the second perforated water distribution pipe 4, which is far away from the axial lead of the stirring barrel 1, and the distance between the limiting block 42 and the axial lead of the stirring barrel 1 is gradually decreased from low to high, so that the limiting effect on the second perforated water distribution pipe 4 is achieved.

Referring to fig. 2 and 3, the third perforated water distributor 5 is located on one side of the second perforated water distributor 4 close to the axial lead of the mixing tank 1, a connecting pipe 43 is arranged in the mixing tank 1, two ends of the connecting pipe 43 are respectively and fixedly connected with the second perforated water distributor 4 and the third perforated water distributor 5, and the inner cavity of the connecting pipe 43 is communicated with the inner cavities of the second perforated water distributor 4 and the third perforated water distributor 5. Four fixing blocks 51 are uniformly distributed on the inner bottom wall of the stirring barrel 1 in the circumferential direction, the fixing blocks 51 are fixedly connected with the inner bottom wall of the stirring barrel 1, fixing holes 511 are formed in the fixing blocks 51, and the fixing holes 511 are used for the second perforated water distribution pipes 4 to penetrate through.

Referring to fig. 1 and 2, a filter screen 72 is fixed at an opening of the liquid outlet pipe 6 communicated with the bottom wall of the stirring barrel 1, and the filter screen 72 limits the resin to flow out. One end of the liquid outlet pipe 6 penetrates to the outer side of the supporting seat 2, and a liquid outlet valve 61 for opening and closing an inner cavity of the liquid outlet pipe 6 is fixed at the end part of the liquid outlet pipe 6 on the outer side of the supporting seat 2. One end of the discharge pipe 7 penetrates to the outer side of the supporting seat 2, and a discharge valve 71 for opening and closing the discharge pipe 7 is fixed at the end part of the discharge pipe 7 on the outer side of the supporting seat 2.

The implementation principle of resin desorption regeneration bucket of this application embodiment does: when the resin is desorbed and regenerated, the discharge valve 71 and the discharge valve 61 are closed, the resin is introduced into the stirring barrel 1 through the feeding pipe 11, and then the stirring motor 151 is started to drive the stirring rod 16 to rotate, so as to drive the stirring blade 171 to rotate to stir the resin. Then, the mixing tank 1 is filled with the regeneration liquid, the first feeding pipe 8 and the second feeding pipe 9 are filled with the regeneration liquid at the same time, the first perforated water distribution pipe 3, the second perforated water distribution pipe 4 and the third perforated water distribution pipe 5 are filled with the regeneration liquid at the same time, after a certain amount of regeneration liquid is accumulated in the mixing tank 1, air is filled into the second feeding pipe 9, and the second perforated water distribution pipe 4 and the third perforated water distribution pipe 5 discharge air, so that bubbles are generated in the regeneration liquid, and the resin is stirred in the regeneration liquid, so that the resin is stirred.

Through the structure, the resin is fully contacted with the regeneration liquid, and the desorption regeneration rate of the resin is improved.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a resin desorption recycling bin, includes agitator (1), its characterized in that: the stirring barrel (1) is provided with a feeding pipe (11) and an exhaust pipe (12), a liquid outlet pipe (6) and a discharge pipe (7) are arranged on the bottom wall of the stirring barrel (1), a liquid outlet valve (61) for opening and closing the inner cavity of the liquid outlet pipe (6) is arranged on the liquid outlet pipe (6), the discharging pipes (7) are respectively provided with a liquid outlet valve (61) for opening and closing the inner cavity of the discharging pipes (7), a first perforated water distribution pipe (3) is arranged at the upper end of the inner side wall of the stirring barrel (1), a second perforated water distribution pipe (4) is arranged on the inner bottom wall of the stirring barrel (1), a first feeding pipe (8) connected with the first perforated water distribution pipe (3) and a second feeding pipe (9) connected with the second perforated water distribution pipe (4) are arranged on the inner wall of the stirring barrel (1), one ends of the first feeding pipe (8) and the second feeding pipe (9) extend out of the stirring barrel (1).

2. The resin desorption regeneration barrel according to claim 1, wherein: and a third perforated water distribution pipe (5) is arranged on the inner bottom wall of the stirring barrel (1), and a connecting pipe (43) for connecting the third perforated water distribution pipe (5) and the second perforated water distribution pipe (4) is arranged on the third perforated water distribution pipe (5).

3. The resin desorption regeneration barrel according to claim 1, wherein: be provided with agitator motor (151) on agitator (1), be provided with puddler (16) in agitator (1), puddler (16) are connected on agitator motor (151)'s output shaft, be provided with stirring piece (17) on puddler (16).

4. The resin desorption regeneration barrel according to claim 3, wherein: stirring piece (17) are provided with the multiunit and arrange along the length direction of puddler (16), and are adjacent stirring piece (17) are the setting of staggering.

5. The resin desorption regeneration barrel according to claim 1, wherein: be provided with brace rod (41) in agitator (1), the inside wall of the interior diapire of agitator (1) and agitator (1) is connected respectively to the both sides of brace rod (41), set up mounting hole (411) that supply second perforation water-distributor (4) to wear to establish on brace rod (41).

6. The resin desorption regeneration barrel according to claim 5, wherein: the supporting ribs (41) are arranged in a plurality, a limiting block (42) is arranged between the adjacent supporting ribs (41), the second perforated water distribution pipe (4) is an annular pipe, and the limiting block (42) is abutted to the side wall, away from the axial lead of the stirring barrel (1), of the second perforated water distribution pipe (4).

7. The resin desorption regeneration barrel according to claim 6, wherein: the distance between the limiting block (42) and the axial lead of the stirring barrel (1) is gradually reduced from low to high.

8. The resin desorption regeneration barrel according to claim 2, wherein: the stirring barrel (1) is provided with a fixed block (51), and the fixed block (51) is provided with a fixed hole (511) for the third perforated water distribution pipe (5) to penetrate through.

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