CN218320916U - Ion exchange resin adsorption equipment - Google Patents

Abstract

The utility model relates to the technical field of ion exchange resin adsorption devices, and discloses an ion exchange resin adsorption device, which comprises a machine body, wherein a slow rotating mechanism is fixedly arranged in the machine body; slow rotary mechanism includes cam, connecting plate, the spacing groove has been seted up to the bottom of connecting plate, spacing groove joint has the stopper, the fixed mounting of connecting plate has half-gear, half-gear meshing has the gear, the ring channel has been seted up to the inside of connecting plate, the inner wall fixed mounting of gear has a pivot, the outer wall fixed mounting of a pivot has the support frame, the top fixed mounting of support frame has the mount, rotates through No. two pivots and drives the dead lever and rotate, and the dead lever rotates and drives the connecting block and rotate, and under the effect of a spring and No. two springs, connecting block resonant motion, and then drive stirring fan blade and be resonant motion for stirring fan blade's stirring range grow, and can not touch the layering board.

Description

Ion exchange resin adsorption equipment

Technical Field

The utility model relates to an ion exchange resin adsorption equipment technical field specifically is an ion exchange resin adsorption equipment.

Background

The required quantity of ion exchange resin in the wastewater treatment industry is very large, which accounts for about 90% of the production capacity of the ion exchange resin, and the ion exchange resin is used for removing various anions and cations in water.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an ion exchange resin adsorption equipment has solved the problem that needs artifical timing to carry out regeneration treatment to the ion exchange resin in the resin container.

In order to achieve the above object, the utility model provides a following technical scheme: an ion exchange resin adsorption device comprises a machine body, wherein a slow rotating mechanism is fixedly arranged in the machine body;

the slow rotating mechanism comprises a cam and a connecting plate, a limiting groove is formed in the bottom of the connecting plate, a limiting block is clamped in the limiting groove, a half gear is fixedly mounted at the top of the connecting plate and meshed with a gear, an annular groove is formed in the connecting plate, a first rotating shaft is fixedly mounted on the inner wall of the gear, a supporting frame is fixedly mounted on the outer wall of the first rotating shaft, a fixing frame is fixedly mounted at the top of the supporting frame, a resin container is fixedly mounted in the fixing frame, and a second rotating shaft is fixedly mounted on the inner wall of the cam;

and a stirring mechanism is fixedly arranged in the machine body.

Preferably, rabbling mechanism includes the connecting block, the dead lever has been run through in the one end activity that No. two pivots are close to the connecting block, the inner chamber has been seted up to the inside of connecting block, the both ends of dead lever and the inner wall fixed connection of inner chamber, the outer wall activity of dead lever has cup jointed a spring No. one, no. two springs have been cup jointed in the outer wall activity of dead lever, a spring is close to the one end of No. two pivots and the outer wall fixed connection of No. two pivots, and the one end of No. two pivots and the inner wall fixed connection of inner chamber are kept away from to a spring, no. two springs are close to the one end of No. two pivots and the outer wall fixed connection of No. two pivots, and the one end of No. two pivots and the inner wall fixed connection of inner chamber are kept away from to No. two springs, the outer wall fixed mounting of connecting block has stirring fan blade.

Preferably, the top fixed mounting of organism has the upper shed, the top fixed mounting of organism has the observation window, the water inlet has been seted up on the right side of organism, the left side fixed mounting of organism has the delivery port, the positive fixed mounting of organism has the controller, the positive fixed mounting of controller has a keypad, the positive fixed mounting of controller has the display screen, the back fixed mounting of organism has external protective housing, the inner wall fixed mounting of external protective housing has the motor, the output and No. two pivot fixed connection of motor.

Preferably, the inside fixed mounting of organism has the layering board, the last fixed surface of layering board installs the regeneration liquid storage box, the top fixed mounting of regeneration liquid storage box has the water pump, the output fixed mounting of water pump has the pipe, the inner wall fixed mounting at organism top has the laser, the input and the pipe fixed connection of laser, the bottom fixed mounting of laser has an induction valve No. one, the bottom fixed mounting of laser has an induction valve No. two, the output fixed mounting of laser has the shower nozzle, the last surface contact of layering board is provided with the regeneration liquid and retrieves the box, sprays the regeneration liquid to the resin container that lies in the layering board top for ion exchange resin resumes the work function.

Preferably, the cam is located the ring channel, and the outer wall of cam is connected with the inner wall contact of ring channel, the pivot is located the outer one end of organism and is connected through the inner wall rotation of bearing and external protective housing, the outer wall of organism is run through in the bearing activity to a pivot, resin container has 6, and resin container evenly distributed is on the mount for the cam can drive the ring channel and be periodic motion, and a plurality of resin container can increase work efficiency.

Preferably, the shower nozzle is located between induction valve and the second induction valve, the regeneration liquid is retrieved the box and is located the shower nozzle under for the shower nozzle is opened when the resin container just in time is located the shower nozzle below, conveniently to the recovery of regeneration liquid.

Preferably, the surface of the layered plate is provided with a through groove, and the inner diameter of the through groove formed in the surface of the layered plate is larger than the outer diameter of the fixing frame, so that the fixing frame can drive the resin container to move below the spray head.

The utility model provides an ion exchange resin adsorption equipment. The ion exchange resin adsorption device has the following beneficial effects:

(1) The ion exchange resin adsorption device drives the cam to rotate through the rotation of the second rotating shaft, the cam rotates to drive the annular groove to do periodic motion, the annular groove does periodic motion to drive the connecting plate to do periodic motion, and further drives the half gear to do periodic motion, when the half gear moves upwards and is meshed with the gear, the gear is driven to rotate, so that the gear only rotates one gear tooth under the driving of the half gear when the cam rotates one circle, the gear slowly rotates to drive the supporting frame to slowly rotate, the supporting frame slowly rotates to drive the fixing frame to slowly rotate, and further the resin container is driven to slowly rotate, the long-time contact between the ion exchange resin in the resin container and the water in the machine body can be ensured, and the periodic regeneration treatment of the ion exchange resin in the resin container can also be realized;

(2) This ion exchange resin adsorption equipment rotates through No. two pivots and drives the dead lever and rotate, and the dead lever rotates and drives the connecting block and rotate, and under the effect of a spring and No. two springs, connecting block resonant motion, and then drive stirring fan blade and be resonant motion for stirring fan blade's stirring scope grow, and can not touch the layering board.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the internal structure of the present invention;

FIG. 3 is a schematic view of the side view of the inside of the present invention;

FIG. 4 is a schematic view of a part of the structure of the slow-turning mechanism of the present invention;

fig. 5 is a schematic structural view of the stirring mechanism of the present invention.

In the figure: 1 upward opening door, 2 observation windows, 3 delivery ports, 4 button groups, 5 display screens, 6 controllers, 7 water inlets, 8 organisms, 9 layered plates, 10 slow rotary mechanisms, 1001 limiting blocks, 1002 limiting grooves, 1003 cams, 1004 gears, 1005 half gears, 1006 annular grooves, 1007 connecting plates, 1008 first rotating shafts, 1009 fixed frames, 1010 resin containers, 1011 supporting frames, 11 first induction valves, 12 lasers, 13 second induction valves, 14 spray heads, 15 pipes, 16 water pumps, 17 regeneration liquid storage boxes, 18 regeneration liquid recovery boxes, 19 motors, 20 external protective cases, 21 stirring mechanisms, 2101 second rotating shafts, 2102 first springs, 2103 fixed rods, 2104 connecting blocks, 2105 stirring fan blades, 2106 second springs and 2107 inner cavities.

Detailed Description

As shown in fig. 1-5, the utility model provides a technical solution: an ion exchange resin adsorption device comprises a machine body 8, wherein a slow rotating mechanism 10 is fixedly arranged inside the machine body 8;

the slow rotation mechanism 10 comprises a cam 1003 and a connecting plate 1007, a limiting groove 1002 is formed in the bottom of the connecting plate 1007, a limiting block 1001 is clamped in the limiting groove 1002, a half gear 1005 is fixedly installed at the top of the connecting plate 1007, the half gear is meshed with a gear 1004, an annular groove 1006 is formed in the connecting plate 1007, a first rotating shaft 1008 is fixedly installed on the inner wall of the gear 1004, a supporting frame 1011 is fixedly installed on the outer wall of the first rotating shaft 1008, a fixing frame 1009 is fixedly installed at the top of the supporting frame 1011, a resin container 1010 is fixedly installed in the fixing frame 1009, a second rotating shaft 2101 is fixedly installed on the inner wall of the cam 1003, the cam 1003 is located in the annular groove 1006, the outer wall of the cam 1003 is in contact connection with the inner wall of the annular groove 1006, one end, located outside the machine body 8, of the first rotating shaft 1008 is rotatably connected with the inner wall of the external protective housing 20 through a bearing, and movably penetrates through the outer wall of the machine body 8 through the bearing, the number of the resin containers 1010 is 6, the resin containers 101 are uniformly distributed on the fixing frame 1009, so that the cam 1003 can drive the annular groove 1006 to do periodic motion, the working efficiency can be increased by a plurality of resin containers 1010, the cam 1003 is driven to rotate by rotating the second rotating shaft 2101, because the outer wall of the cam 1003 is in contact with the inner wall of the annular groove 1006, the annular groove 1006 is driven to do periodic motion by the rotation of the cam 1003, the connecting plate 1007 is driven to do periodic motion by the periodic motion of the annular groove 1006, and then the half gear 1005 is driven to do periodic motion, when the half gear 1005 moves upwards and is meshed with the gear 1004, the gear 1004 is driven to rotate, when the half gear 1005 moves downwards, the gear 1005 separates from the gear 1004, so that the gear 1004 rotates slowly under the driving of the half gear 1005 once the rotation of the cam 1003 rotates, the gear 1004 rotates slowly to drive the supporting frame 1011 to rotate slowly, the support frame 1011 rotates slowly to drive the fixing frame to rotate slowly, so as to drive the resin container 1010 to rotate slowly, thereby ensuring that the ion exchange in the resin container 1010 is contacted with the water in the machine body 8 for a long time and also periodically carrying out regeneration treatment on the ion exchange resin in the resin container 1010;

the stirring mechanism 21 is fixedly arranged in the machine body 8, the stirring mechanism 21 comprises a connecting block 2104, a fixed rod 2103 movably penetrates through one end of the second rotating shaft 2101 close to the connecting block 2104, an inner cavity 2107 is formed in the connecting block 2104, two ends of the fixed rod 2103 are fixedly connected with the inner wall of the inner cavity 2107, a first spring 2102 is movably sleeved on the outer wall of the fixed rod 2103, a second spring 2106 is movably sleeved on the outer wall of the fixed rod 2103, one end of the first spring 2102 close to the second rotating shaft 2101 is fixedly connected with the outer wall of the second rotating shaft 2101, one end of the first spring 2102 far away from the second rotating shaft 2101 is fixedly connected with the inner wall of the inner cavity 2107, one end of the second spring 2106 close to the second rotating shaft 2101 is fixedly connected with the outer wall of the second rotating shaft 2101, one end of the second spring 2106 far away from the second rotating shaft 2101 is fixedly connected with the inner wall of the inner cavity 2107, stirring fan blades 2105 are fixedly arranged on the outer wall of the connecting block 2104, the fixing rod 2103 is driven to rotate by the rotation of the second rotating shaft 2101, the fixing rod 2103 drives the connecting block 2104 to rotate, when the first spring 2102 is positioned below, the second spring 2106 is stretched while the first spring 2102 is compressed by the connecting block 2104 under the action of gravity, when the second spring 2106 is positioned below, the first spring 2102 is stretched while the second spring 2106 is compressed by the connecting block 2104 under the action of gravity, and under the action of the first spring 2102 and the second spring 2106, the connecting block 2104 performs resonant motion to further drive the stirring fan blades 2105 to perform resonant motion, so that the stirring range of the stirring fan blades 2105 is enlarged, the layering plate 9 cannot be touched, the top of the machine body 8 is fixedly provided with the upward opening door 1, the top of the machine body 8 is fixedly provided with the observation window 2, the right side of the machine body 8 is provided with the water inlet 7, the left side of the machine body 8 is fixedly provided with the water outlet 3, the front of the machine body 8 is fixedly provided with the controller 6, the front fixed mounting of controller 6 has button group 4, the front fixed mounting of controller 6 has display screen 5, the back fixed mounting of organism 8 has external protective housing 20, the inner wall fixed mounting of external protective housing 20 has motor 19, the output and No. two pivot 2101 fixed connection of motor 19, the inside fixed mounting of organism 8 has layering board 9, logical groove has been seted up on the surface of layering board 9, the logical inslot diameter of seting up on the surface of layering board 9 is greater than the external diameter of mount 1009, make the mount can drive resin container 1010 and move to the shower nozzle 14 below, the upper surface fixed mounting of layering board 9 has regeneration liquid storage box 17, the top fixed mounting of regeneration liquid storage box 17 has water pump 16, the output fixed mounting of water pump 16 has pipe 15, the inner wall fixed mounting at organism 8 top has torrent ware 12, the input and the pipe 15 fixed connection of torrent ware 12, the bottom fixed mounting of torrent ware 12 has induction valve 11, the bottom fixed mounting of torrent ware 12 has No. two induction valves 13, the output fixed mounting of torrent ware 12 has shower nozzle 14, shower nozzle 14 is located between induction valve 11 and No. two induction valves 13, regeneration liquid box 18 is located regeneration box 18, make the ion exchange liquid in the lower side of regeneration liquid container 14 and make the shower nozzle be convenient for the recovery of regeneration liquid recovery in the lower surface of ion exchange box 14 when the shower nozzle is provided with the shower nozzle in the ion exchange of the shower nozzle.

When the ion exchange resin adsorption device is used, the motor 19 is started to drive the second rotating shaft 2101 to rotate, the second rotating shaft 2101 rotates to drive the cam 1003 to rotate, because the outer wall of the cam 1003 is in contact with the inner wall of the annular groove 1006, the cam 1003 rotates to drive the annular groove 1006 to do periodic motion, the annular groove 1006 does periodic motion to drive the connecting plate 1007 to do periodic motion, and further drive the half gear 1005 to do periodic motion, when the half gear 1005 moves upwards to be meshed with the gear 1004, the gear 1004 is driven to rotate, when the half gear 1005 moves downwards, the gear 1005 separates from the gear 1004, so that when the cam 1003 rotates for one circle, the gear 1004 is driven to rotate by the half gear 1005 for one gear tooth, the gear 1004 rotates slowly to drive the support 1011 rotates slowly to drive the fixing frame 1009 to rotate slowly, and further drive the resin container 1010 to rotate slowly, the ion exchange resin in the resin container 1010 can be ensured to be contacted with water in the machine body 8 for a long time, the ion exchange resin in the resin container 1010 can also be periodically regenerated, when the resin container 1010 passes through the first induction valve 11, the controller 6 controls the water pump 16 to convey regenerated liquid from the regenerated liquid storage box 17 to the laser 12, the laser 12 accelerates the regenerated liquid to be sprayed to the ion exchange resin in the resin container 1010 through the spray head 14, the ion exchange resin is regenerated, the discharged regenerated liquid can drip into the regenerated liquid recovery box 18, when the resin container 1010 passes through the second induction valve 13, the controller 6 closes the water pump 16 to stop spraying the regenerated liquid, the waste of the regenerated liquid can be effectively prevented, the second rotating shaft 2101 rotates to drive the fixing rod 2103 to rotate, the fixing rod 2103 rotates to drive the connecting block 2104 to rotate, when the first spring 2102 is positioned below, tensile No. two spring 2106 in the time of connecting block 2104 compression spring 2102 under the effect of gravity, when No. two spring 2106 are located the below, tensile No. one spring 2102 in the time of connecting block 2104 compression spring 2106 under the effect of gravity, under the effect of spring 2102 and No. two springs 2106, connecting block 2104 resonant motion, and then drive stirring fan blade 2105 and be resonant motion, make stirring fan blade 2105's stirring scope grow, and can not touch layering board 9.

Claims (7)

1. An ion exchange resin adsorption device comprises a machine body (8), and is characterized in that: a slow rotating mechanism (10) is fixedly arranged in the machine body (8);

the slow rotating mechanism (10) comprises a cam (1003) and a connecting plate (1007), a limiting groove (1002) is formed in the bottom of the connecting plate (1007), a limiting block (1001) is clamped in the limiting groove (1002), a half gear (1005) is fixedly installed at the top of the connecting plate (1007), the half gear is meshed with a gear (1004), an annular groove (1006) is formed in the connecting plate (1007), a first rotating shaft (1008) is fixedly installed on the inner wall of the gear (1004), a supporting frame (1011) is fixedly installed on the outer wall of the first rotating shaft (1008), a fixing frame (1009) is fixedly installed at the top of the supporting frame (1011), a resin container (1010) is fixedly installed in the fixing frame (1009), and a second rotating shaft (2101) is fixedly installed on the inner wall of the cam (1003);

and a stirring mechanism (21) is fixedly arranged in the machine body (8).

2. The ion exchange resin adsorption unit of claim 1, wherein: stirring mechanism (21) includes connecting block (2104), no. two pivot (2101) are close to the one end activity of connecting block (2104) and are run through dead lever (2103), inner chamber (2107) have been seted up to the inside of connecting block (2104), the inner wall fixed connection of both ends and inner chamber (2107) of dead lever (2103), the outer wall activity of dead lever (2103) has cup jointed No. one spring (2102), the outer wall activity of dead lever (2103) has cup jointed No. two springs (2106), no. one spring (2102) are close to the one end of No. two pivot (2101) and the outer wall fixed connection of No. two pivot (2101), and No. one spring (2102) keep away from the one end of No. two pivot (2101) and the inner wall fixed connection of inner chamber (2107), no. two spring (2106) are close to the one end of No. two pivot (2101) and the outer wall fixed connection of No. two pivot (2101), and No. two spring (2106) keep away from the one end of No. two pivot (2101) and the inner wall fixed connection of inner chamber (2107), the outer wall fixed connection of stirring flabellum (2105) is installed.

3. The ion exchange resin adsorption unit of claim 1, wherein: the utility model discloses a novel motor control device, including organism (8), the top fixed mounting of organism (8) has last opening door (1), the top fixed mounting of organism (8) has observation window (2), water inlet (7) have been seted up on the right side of organism (8), the left side fixed mounting of organism (8) has delivery port (3), the positive fixed mounting of organism (8) has controller (6), the positive fixed mounting of controller (6) has button group (4), the positive fixed mounting of controller (6) has display screen (5), the back fixed mounting of organism (8) has external protective housing (20), the inner wall fixed mounting of external protective housing (20) has motor (19), the output and No. two pivot (2101) fixed connection of motor (19).

4. The ion exchange resin adsorption unit of claim 1, wherein: the inside fixed mounting of organism (8) has layering board (9), the last fixed surface of layering board (9) installs regeneration liquid storage box (17), the top fixed mounting of regeneration liquid storage box (17) has water pump (16), the output fixed mounting of water pump (16) has pipe (15), the inner wall fixed mounting at organism (8) top has laser ware (12), the input and pipe (15) fixed connection of laser ware (12), the bottom fixed mounting of laser ware (12) has induction valve (11), the bottom fixed mounting of laser ware (12) has induction valve (13) No. two, the output fixed mounting of laser ware (12) has shower nozzle (14), the last surface contact of layering board (9) is provided with regeneration liquid and retrieves box (18).

5. The ion exchange resin adsorption unit of claim 1, wherein: cam (1003) are located ring channel (1006), and the outer wall of cam (1003) is connected with the inner wall contact of ring channel (1006), pivot (1008) are located the outer one end of organism (8) and are passed through the bearing and are connected with the inner wall rotation of external protective housing (20), pivot (1008) run through the outer wall of organism (8) through the bearing activity, resin container (1010) have 6, and resin container (1010) evenly distributed is on mount (1009).

6. The ion exchange resin adsorption unit of claim 4, wherein: the spray head (14) is positioned between the first induction valve (11) and the second induction valve (13), and the regeneration liquid recovery box (18) is positioned under the spray head (14).

7. The ion exchange resin adsorption unit of claim 4, wherein: a through groove is formed in the surface of the layering plate (9), and the inner diameter of the through groove formed in the surface of the layering plate (9) is larger than the outer diameter of the fixing frame (1009).

Images