CN210583972U - Mixed salt water filter for electrolytic bath - Google Patents

Abstract

The utility model discloses a mixed salt solution filter for electrolysis trough, the novel nipple rectifier comprises a cylindrical shel, a serial communication port, it is connected with the filter core to rotate in the barrel, the barrel is worn out to the upper end of filter core, the outside of filter core is equipped with holds the thing board, hold and be connected through the bearing between the outer wall of thing board and filter core, hold fixedly connected with motor on the thing board, coaxial connection has Contraband shaped plate in the pivot of motor, it is connected with two first bevel gears to rotate respectively on the Contraband shaped plate, the motor is connected with one of them first bevel gear, the outside fixedly connected with second bevel gear of filter core, second bevel gear and two first bevel gear meshing, be equipped with elevation structure on the motor, the top of filter core is connected with first ring flange through the bearing, be equipped with the second ring flange that passes through the bolt concatenation with first ring flange on the. It can make the filter residue roll in hollow filter core, reduces the filter residue and piles up the condition of blockking up the bottom side of hollow filter core.

Description

Mixed salt water filter for electrolytic bath

Technical Field

The utility model relates to a filtration equipment, concretely relates to mixed salt water filter for electrolysis trough.

Background

At present, the water for industrial boilers is exchanged by an exchanger (resin) in a sodium ion exchanger to remove Ca ions and Mg ions in the water, and the process is called softened water. When the exchanger is invalid, the NaCl salt solvent is used for replacing, reducing and regenerating the exchanger, so that the exchange capacity of the exchanger is recovered, and a large amount of silt, fiber and the like exist in industrial salt; silt, fiber, etc. will adhere to the surface of the exchanger (resin) if entering the exchanger, causing resin contamination. Therefore, a filter is often added before the exchanger to filter silt and the like.

Conventional filters typically include a bowl and a hollow filter element mounted on the bowl. The industrial brine is injected into the hollow filter element, filter residues are filtered in the hollow filter element through the osmosis of the brine, pure industrial brine is discharged out of the barrel, the filter element is taken out and cleaned, and the hollow filter element can be filtered again after the filter element is installed in the barrel again.

Although the traditional filter can filter industrial brine, filter residues in the industrial brine can be accumulated at the bottom of the hollow filter element, and the filtering effect at the bottom side of the hollow filter element is influenced.

Disclosure of Invention

In order to overcome the defects in the prior art, the utility model provides a mixed salt water filter for an electrolytic cell, which can roll filter residues in a hollow filter element and reduce the condition that the filter residues are piled up to block the bottom side of the hollow filter element.

In order to achieve the purpose, the mixed salt water filter for the electrolytic bath comprises a cylinder body, the filter is characterized in that a filter element is rotatably connected in the barrel, the upper end of the filter element penetrates out of the barrel, an object bearing plate is arranged on the outer side of the filter element, the object bearing plate is connected with the outer wall of the filter element through a bearing, a motor is fixedly connected to the object bearing plate, an Contraband-shaped plate is coaxially connected to a rotating shaft of the motor, two first bevel gears are rotatably connected to a Contraband-shaped plate respectively, the motor is connected with one of the first bevel gears, a second bevel gear is fixedly connected to the outer side of the filter element and meshed with the two first bevel gears, a lifting structure is arranged on the motor, the top end of the filter element is connected with a first flange through a bearing, a second flange which is spliced with the first flange through a bolt is arranged on the first flange, a.

Further, elevation structure includes the first disc of being connected with motor shaft, and the upside fixedly connected with mounting panel of barrel rotates on the mounting panel and is connected with first linkage dish, and the perisporium of first linkage dish is equipped with the recess, and first disc is contradicted with first linkage dish, and the mounting panel is equipped with balanced structure for one side of motor.

Further, the balance structure comprises a second disc coaxially connected with one of the first bevel gears, the mounting plate is connected with a second linkage disc in a rotating mode, the groove is further formed in the second linkage disc, the second disc is abutted to the second linkage disc, the mounting plate is connected with a synchronous screw in a rotating mode, the first disc and the second disc are respectively connected with a synchronous gear in a rotating mode, and the synchronous gear is meshed with the synchronous screw.

Furthermore, a backflushing opening is arranged on the cylinder body and is connected with a backflushing water pump.

Furthermore, a guide column is fixedly connected to the object bearing plate and penetrates through the mounting plate.

Has the advantages that: 1. a motor is arranged to rotate and roll the filter residue in the filter element, so that the accumulation of the filter residue is avoided;

2. be equipped with elevation structure, go up and down when the motor makes the filter core pivoted, further increase the range of the action of rolling of filter residue, further avoid the filter residue to pile up.

Drawings

The invention will be further described and illustrated with reference to the accompanying drawings.

FIG. 1 is a sectional view of the present embodiment;

FIG. 2 is a top view of the connection of the first and second linkage plates.

Reference numerals: 1. a barrel; 2. a filter element; 3. an object bearing plate; 4. a motor; 5. contraband shaped plates; 6. a first bevel gear; 7. a second bevel gear; 8. a lifting structure; 81. a first disc; 82. mounting a plate; 83. a first linkage disk; 84. a groove; 85. a balance structure; 851. a second disc; 852. a second linkage disk; 853. a synchronous screw; 854. a synchronizing gear; 9. a first flange plate; 10. a second flange plate; 11. a corrugated liquid injection pipe; 12. a water outlet pipe; 13. back flushing the opening; 14. a backwash water pump; 15. and a guide post.

Detailed Description

The technical solution of the present invention will be more clearly and completely explained by the description of the preferred embodiments of the present invention with reference to the accompanying drawings.

Example (b): mixed salt water filter for electrolysis trough, including barrel 1, be equipped with filter core 2 in the barrel 1, the inside of filter core 2 is hollow setting, and filter core 2 both can rotate for barrel 1, and filter core 2 also can be for barrel 1 longitudinal sliding simultaneously.

The upper half section of the filter element 2 extends out of the cylinder body 1, and the upper half section of the filter element 2 is made of metal materials, so that the part of the filter element 2 extending out of the cylinder body 1 can not leak water. The outer wall of the top side of the filter element 2 is fixedly connected with a bearing, and the inner ring of the bearing is in interference connection with the outer ring of the filter element 2. The outer lane of bearing is equipped with first ring flange 9, and the upper end of first ring flange 9 is equipped with second ring flange 10, and first ring flange 9 and second ring flange 10 pass through the bolt fastening together, and a nut of threaded connection is gone up to this bolt, is equipped with a ripple on second ring flange 10 and annotates liquid pipe 11, and ripple is annotated liquid pipe 11 and is passed through the fixed surface of this nut with second ring flange 10, and the bolt passes the ripple and annotates the lower side surface of liquid pipe 11, has seted up an outlet pipe 12 on the surface of barrel 1. The industrial brine to be filtered is injected into the middle part of the filter element 2 through the corrugated liquid injection pipe 11, the industrial brine is permeated into the cylinder body 1 through the permeation action of the filter element 2 and is finally discharged from the water outlet pipe 12, and filter residues are remained in the filter element 2.

Because salt in the industrial salt water can be separated out and remains on the inner wall of the cylinder body 1, a back flushing port 13 is further arranged on the cylinder body 1, the back flushing port 13 is connected with a back flushing water pump 14, the back flushing water pump 14 is connected with an external water source to flush into the cylinder body 1, and the industrial salt separated out in the cylinder body 1 is dissolved in water again and then is discharged from a water outlet pipe 12.

The filter element 2 rotates during the filtration of the filter residue, and the filter element 2 also moves in the longitudinal direction. The main reason is that the peripheral wall of the filter element 2 is provided with an object bearing plate 3, a bearing is arranged between the object bearing plate 3 and the outer wall of the filter element 2, the object bearing plate 3 is fixedly connected with a motor 4, the outer side of the filter element 2 is fixedly connected with a second bevel gear 7, the object bearing plate 3 is fixedly connected with an Contraband-shaped plate 5, a \ 21274, two first bevel gears 6 are rotatably connected on the shape bearing plate 5, the rotating shaft of the motor 4 is connected with one of the first bevel gears 6 through a speed reducer, and the motor 4 drives the filter element 2 to rotate through rotation.

The motor 4 drives the filter element 2 to move longitudinally while rotating, and the main reason is that the motor 4 is connected with a lifting structure 8. The lifting structure 8 comprises a first disc 81 fixed to the output end of the reducer, and the rotating shaft of one of the second bevel gears 7 penetrates Contraband the shaped plate 5 and is coaxially connected to the first disc 81. The mounting plate 82 is fixedly connected to the outer side of the upper end of the barrel body 1, the blind plate is rotatably connected with a first linkage disk 83, a groove 84 is formed in the peripheral wall of the first linkage disk 83, the first disk 81 abuts against the peripheral wall of the first linkage disk 83, along with the rotation of the first disk 81, the first disk 81 continuously passes through the first groove 84, and the outer wall of the filter element 2 is rotatably connected with the upper end of the Contraband-shaped plate 5.

A balance structure 85 is provided on the first bevel gear 6 opposite to the first bevel gear 6 connected to the decelerator, and the balance structure 85 is used for the smoothness of the longitudinal movement of the filter element 2. The balance structure 85 includes a second disk 851 coupled to the first bevel gear 6, a second coupling disk 852 is rotatably coupled to the mounting plate 82, the second disk 851 abuts against a peripheral wall of the second coupling disk 852, and a groove 84 is also formed in the peripheral wall of the second coupling disk 852. The first disk 81 and the second disk 851 simultaneously support the left side and the right side of the filter element 2, so that the longitudinal movement stability of the filter element 2 is ensured.

Two guide posts 15 are fixedly connected to the lower side of the bearing plate, the two guide posts 15 penetrate the mounting plate 82 downwards, and the stability of the lifting of the filter element 2 is further guaranteed through the guiding effect of the guide posts 15.

Because the grooves 84 are formed in the peripheral walls of the first and second linkage disks 83 and 852, and after the filter cartridge 2 is removed from the cylinder 1, the filter cartridge 2 can be placed in the cylinder 1 again after being cleaned, the first and second disks 81 and 851 need to be abutted against the first and second linkage disks 83 and 852 again, and the first and second disks 81 and 851 need to pass through the grooves 84 of the first and second linkage disks 83 and 852, respectively, that is, the first and second disks 81 and 851 need to keep linking.

The balancing structure 85 further comprises two synchronizing gears 854 coaxially rotating with the first and second linkage disks 83 and 852, respectively, and a synchronizing screw 853 rotatably connected to the mounting plate 82, wherein the two synchronizing gears 854 are simultaneously engaged with the synchronizing screw 853.

The action process is as follows:

the motor 4 drives the second bevel gear 7 to rotate through the first bevel gear 6 on the right side, and the second bevel gear 7 drives the filter element 2 to rotate;

the motor 4 drives the first disk 81 to rotate, the first disk 81 and the groove 84 on the first linkage disk 83 are collided to generate longitudinal jumping, meanwhile, the second disk 851 and the groove 84 on the second linkage disk 852 are collided to enable the left side and the right side of the filter element 2 to move simultaneously, the second disk 851 and the first disk 81 on the right side act simultaneously through the first bevel gear 6 on the left side, the specifications of the first disk 81 and the second disk 851 are the same, the specifications of the first linkage disk 83 and the second linkage disk 852 are the same, and the spatial positions of the two grooves 84 on the two synchronizing gears 854 are the same.

The synchronizing gears 854 and the synchronizing screws 853 ensure that the first and second linkage disks 83 and 852 rotate simultaneously, and the two synchronizing gears 854 have the same size. When the motor 4 drives the two first flange plates 9 and the second flange plate 10 to ascend and descend, the corrugated liquid injection pipe 11 can elastically stretch out and draw back.

Disassembling and cleaning:

and (3) unscrewing the bolts on the first flange plate 9 and the second flange plate 10, longitudinally lifting the object bearing plate 3, cleaning the aluminum core, restoring the object bearing plate 3 to the original position, inserting the guide columns 15 into the mounting plate 82, and screwing the bolts.

The above detailed description merely describes the preferred embodiments of the present invention and does not limit the scope of the present invention. Without departing from the design concept and spirit scope of the present invention, the ordinary skilled in the art should belong to the protection scope of the present invention according to the present invention provides the text description and drawings to the various modifications, replacements and improvements made by the technical solution of the present invention. The scope of protection of the present invention is determined by the claims.

Claims (5)

1. Mixed salt water filter for electrolysis trough, including barrel (1), its characterized in that, swivelling joint has filter core (2) in barrel (1), barrel (1) is worn out to the upper end of filter core (2), the outside of filter core (2) is equipped with holds thing board (3), it is connected through the bearing between the outer wall of thing board (3) and filter core (2) to hold, hold fixedly connected with motor (4) on thing board (3), coaxial coupling has Contraband shaped plate (5) in the pivot of motor (4), it has two first bevel gears (6) to rotate respectively on Contraband shaped plate (5), motor (4) are connected with one of them first bevel gear (6), the outside fixedly connected with second bevel gear (7) of filter core (2), second bevel gear (7) and two first bevel gear (6) meshing, be equipped with elevation structure (8) on motor (4), the top of filter core (2) is connected with first ring flange (9) through the bearing, be equipped with on first ring flange (9) with first ring flange (9) second ring flange (10) through the bolt concatenation, second ring flange (10) are connected with ripple and are annotated liquid pipe (11), barrel (1) is connected with outlet pipe (12).

2. The mixed brine filter for the electrolytic cell according to claim 1, wherein the lifting structure (8) comprises a first disc (81) connected with a rotating shaft of the motor (4), a mounting plate (82) is fixedly connected with the upper side of the cylinder body (1), a first linkage disc (83) is rotatably connected with the mounting plate (82), a groove (84) is formed in the peripheral wall of the first linkage disc (83), the first disc (81) is abutted against the first linkage disc (83), and a balance structure (85) is arranged on one side of the mounting plate (82) opposite to the motor (4).

3. A mixed brine filter for electrolytic cells according to claim 2, wherein said balance structure (85) comprises a second disc (851) coaxially connected to one of said first bevel gears (6), said mounting plate (82) being rotatably connected to a second linkage disc (852), said grooves (84) being further formed in said second linkage disc (852), said second disc (851) abutting against said second linkage disc (852), said mounting plate (82) being rotatably connected to a timing screw (853), said first disc (81) and said second disc (851) being rotatably connected to a timing gear (854), respectively, said timing gear (854) being engaged with said timing screw (853).

4. The mixed brine filter for the electrolytic tank according to claim 2, wherein a back flushing port (13) is arranged on the cylinder body (1), and the back flushing port (13) is connected with a back flushing water pump (14).

5. The mixed brine filter for electrolytic cells according to claim 2, wherein the object bearing plate (3) is fixedly connected with a guide post (15), and the guide post (15) passes through the mounting plate (82).

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