CN218853976U - Reverse osmosis chemical cleaning device - Google Patents

Abstract

The utility model discloses a reverse osmosis chemical cleaning device belongs to reverse osmosis technical field, including purge chamber, water inlet, discharge gate, valve, spout A, carriage and waste water tank, the embedding of purge chamber outer wall top is provided with the water inlet, and the embedding of purge chamber outer wall bottom one end is provided with the discharge gate, and the nested valve that is provided with in discharge gate outer wall top has spout A at the equal fixed mounting in purge chamber outer wall both ends, is provided with the carriage through the slider slip between the top in the spout A outside. The utility model discloses the staff opens servo motor A and drives the fixed reverse osmosis membrane in turret A bottom and constantly clockwise rotate in hydroxide chemical cleaning liquid, makes inside constantly and the reverse osmosis membrane production friction of hydroxide chemical cleaning liquid infiltration reverse osmosis membrane, carries out even contact washing treatment to reverse osmosis membrane, carries out dissolving treatment with substances such as a large amount of protein of reverse osmosis membrane surface adhesion and saponification lipid, carries out quick chemical cleaning to reverse osmosis membrane.

Description

Reverse osmosis chemical cleaning device

Technical Field

The utility model belongs to the technical field of reverse osmosis, specifically be a reverse osmosis chemical cleaning device.

Background

Reverse osmosis is a process of separating a dilute solution and a concentrated solution by using a semipermeable membrane through a pressure difference to separate and filter dissolved salts, colloids, microorganisms, organic matters and the like, and the microorganisms and the like on the surface of the semipermeable membrane need to be periodically chemically cleaned to avoid influencing the filtration efficiency of the reverse osmosis membrane, so that a reverse osmosis chemical cleaning device is needed.

The research shows that a reverse osmosis online chemical cleaning device with a patent number of CN202022711466.6 has stronger practicability because the reverse osmosis online chemical cleaning device is fixed above a supporting component through a cylindrical hole at one end and a longitudinal supporting plate; the supporting component is descended to the bottommost part of the inner cavity of the cleaner, water and a cleaning agent are put into the inner cavity of the cleaner to clean the reverse osmosis membrane, so that water resources are saved, a large amount of cleaning agents are prevented from being used, the practicability is higher, and the resource waste is reduced; wherein, the deficiency points are as follows:

this kind of online chemical cleaning device of reverse osmosis uses at the staff, when carrying out chemical cleaning to a plurality of reverse osmosis membranes, a supporting component for fixing reverse osmosis membrane can not drive reverse osmosis membrane pivoted, can make when wasing reverse osmosis membrane, can only conveniently wash the processing to the one side that is in the top, when wasing another side, still need dismantle fixed once more after the turn-over, when lower to abluent efficiency, the cleaner that is in the purger is the state of stewing, can not be fine produce mobility in reverse osmosis membrane inside, make substances such as reverse osmosis membrane inside surface adnexed protein and saponification lipid be difficult to wash and get rid of.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a: in order to solve the problem that the cleaning agent in a standing state in the cleaner of the reverse osmosis online chemical cleaning device has low cleaning efficiency on the reverse osmosis membrane, the reverse osmosis online chemical cleaning device is provided.

The utility model adopts the technical scheme as follows: the utility model provides a reverse osmosis chemical cleaning device, includes purge chamber, water inlet, discharge gate, valve, spout A, carriage and waste water tank, the embedding of purge chamber outer wall top is provided with the water inlet, the embedding of purge chamber outer wall bottom one end is provided with the discharge gate, the nested valve that is provided with in discharge gate outer wall top, the equal fixed mounting in purge chamber outer wall both ends has spout A, it is provided with the carriage to slide through the slider between the top in the spout A outside, and passes through bolted connection between carriage and the spout A outer wall, purge chamber outside bottom is provided with the waste water tank, the inboard bottom of purge chamber is provided with the high-efficient wiper mechanism that can increase the mobility of medicament water and improve reverse osmosis membrane cleaning efficiency, carriage outside bottom is provided with and drives reverse osmosis membrane and rotate the rotation wiper mechanism that carries out cleaning process fast in the medicament.

Wherein the rotary cleaning mechanism consists of a servo motor A, a rotating rod A, a rotating frame A, a sliding groove B, a clamping frame, a clamping plate, a threaded rod, a limiting rod A and a limiting groove, the servo motor A is fixedly arranged in the middle of the top of the sliding frame outer wall, the bottom of the outer side of the servo motor A is connected with the rotating rod A through an output shaft, the rotating frame A is fixedly arranged at the bottom of the outer wall of the rotating rod A, the sliding groove B is embedded at two ends of the outer wall of the rotating frame A, the clamping frame is arranged at the bottom of the inner side of the sliding groove B in a sliding manner through a sliding block, the clamping plate is fixedly arranged on the opposite surface of the upper end and the lower end of the bottom of the outer wall of the clamping frame, and the grip block is the arc form setting, holding frame outer wall top one end is passed through the bearing and is rotated and be provided with the threaded rod, rotating frame A outer wall top both ends all form a complete set and are provided with the thread groove, and the threaded rod passes through the supporting screw thread of outer wall and agree with the slip setting at the supporting thread groove in rotating frame A outer wall top, threaded rod inner wall other end top slides and is provided with gag lever post A, rotating frame A outer wall top both ends all imbed and are provided with the spacing groove, the spacing groove has a plurality of, and is the equidistance and sets up side by side, and gag lever post A agrees with the slip setting at the spacing inslot side.

Wherein, high-efficient wiper mechanism comprises servo motor B, rotating turret B, dwang B, blade A and blade B, fixed mounting has servo motor B in the middle of the purge chamber inner wall bottom, there is rotating turret B at servo motor B outside top through output shaft connection, the equal fixed mounting in rotating turret B outer wall top both ends has dwang B, the equal fixed mounting in upper and lower both sides of dwang B outer wall one end has blade A, and blade A is relative slope form central symmetry setting, equal fixed mounting has blade B between the blade A outer wall, and blade B is the arc form setting.

To sum up, owing to adopted above-mentioned technical scheme, the beneficial effects of the utility model are that:

1. this kind of reverse osmosis chemical cleaning device is through being provided with rotating turret A, can make the staff open servo motor A and drive the fixed reverse osmosis membrane in rotating turret A bottom and constantly rotate clockwise in hydroxide chemical cleaning liquid, make inside constantly rubbing with reverse osmosis membrane production of hydroxide chemical cleaning liquid infiltration reverse osmosis membrane, carry out even contact washing processing to reverse osmosis membrane, dissolve the processing with substances such as a large amount of protein of reverse osmosis membrane surface adhesion and saponification lipid, the improvement rotates reverse osmosis membrane in hydroxide chemical cleaning liquid, fully contact with hydroxide chemical cleaning liquid and carry out high-efficient abluent effect.

2. This kind of reverse osmosis chemical cleaning device is through being provided with blade A and blade B, can make the staff open servo motor B again and drive rotating turret B top both ends dwang B outer wall blade A anticlockwise rotation in hydroxide chemical cleaning liquid, will produce certain resistance when making arc form blade B arc form concave surface promote liquid, constantly drive arc form blade B and promote the hydroxide chemical cleaning liquid when flowing fast, will make and will produce certain resistance when making arc form blade B arc form concave surface promote liquid, wash away the processing to reverse osmosis membrane inside and surface fast, the improvement produces faster mobility around reverse osmosis membrane to hydroxide chemical cleaning liquid, carry out high-efficient cleaning treatment's effect.

Drawings

FIG. 1 is a schematic sketch of a front-view three-dimensional structure of the cleaning device of the present invention;

FIG. 2 is a schematic diagram of a front sectional structure of the middle cleaning device of the present invention;

fig. 3 is a schematic diagram of an enlarged structure at a in fig. 2 according to the present invention;

fig. 4 is a schematic diagram of an enlarged structure of the second embodiment at a in fig. 2 according to the present invention.

The labels in the figure are: 1. a cleaning chamber; 101. a water inlet; 102. a discharge port; 103. a valve; 104. a chute A; 105. a carriage; 2. a servo motor A; 201. rotating the rod A; 202. a rotating frame A; 203. a chute B; 204. a clamping frame; 205. a clamping plate; 206. a threaded rod; 207. a limiting rod A; 208. a limiting groove; 3. a wastewater tank; 4. a servo motor B; 401. a rotating frame B; 402. rotating the rod B; 403. a blade A; 404. a blade B; 5. damping telescopic rods; 501. a limiting frame; 502. and a limiting rod B.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

The utility model discloses in:

the first embodiment is as follows: referring to fig. 1-4, a reverse osmosis chemical cleaning device, including purge chamber 1, water inlet 101, discharge gate 102, valve 103, spout a104, carriage 105 and waste water tank 3, the embedding of purge chamber 1 outer wall top is provided with water inlet 101, the embedding of purge chamber 1 outer wall bottom one end is provided with discharge gate 102, discharge gate 102 outer wall top nestification is provided with valve 103, equal fixed mounting in purge chamber 1 outer wall both ends has spout a104, it is provided with carriage 105 to slide through the slider between the top in the spout a104 outside, and pass through bolted connection between carriage 105 and the spout a104 outer wall, purge chamber 1 outside bottom is provided with waste water tank 3, the inboard bottom of purge chamber 1 is provided with the high-efficient wiper mechanism that can increase the mobility of medicament water and improve the reverse osmosis membrane cleaning efficiency, carriage 105 outside bottom is provided with the rotation wiper mechanism that can drive reverse osmosis membrane to rotate fast in the medicament and carry out cleaning process.

Referring to fig. 1-3, further, the rotary cleaning mechanism is composed of a servo motor A2, a rotary rod a201, a rotary frame a202, a sliding groove B203, a clamping frame 204, a clamping plate 205, a threaded rod 206, a limiting rod a207 and a limiting groove 208;

a servo motor A2 is fixedly arranged in the middle of the top of the outer wall of the sliding frame 105, the bottom of the outer side of the servo motor A2 is connected with a rotating rod A201 through an output shaft, a rotating frame A202 is fixedly arranged at the bottom of the outer wall of the rotating rod A201, sliding grooves B203 are embedded at two ends of the outer wall of the rotating frame A202, a clamping frame 204 is arranged at the bottom of the inner side of the sliding groove B203 through a sliding block in a sliding manner, clamping plates 205 are fixedly arranged on opposite surfaces of the upper end and the lower end of the outer wall of the clamping frame 204, the clamping plates 205 are arranged in an arc shape, a threaded rod 206 is arranged at one end of the top of the outer wall of the clamping frame 204 in a rotating manner through a bearing in a rotating manner, threaded grooves are arranged at two ends of the top of the outer wall of the rotating frame A202 in a matching sliding manner, the threaded rod 206 is arranged in the threaded grooves matched with the top of the outer wall of the rotating frame A202 in a sliding manner, a limiting rod A207 is arranged at the top of the other end of the inner wall of the threaded rod 206 in a sliding manner, limiting groove 208 is embedded at two ends of the top of the outer wall of the rotating frame A202, and a plurality of the limiting grooves 208, when workers need to clean a large number of reverse osmosis membranes with surfaces attached with a large number of substances such as proteins, saponification esters and the like, the workers carry a large number of reverse osmosis membranes to a working site and pull the sliding frame 105 to upwards slide on the inner side of the sliding groove A104 through the sliding block to expose the clamping frames 204, then the workers place one of the reverse osmosis membranes between the clamping frames 204 and simultaneously twist the threaded rod 206 to rotate in the threaded groove to drive the clamping frame 204 to slide on the inner side of the sliding groove B203 through the sliding block to drive the opposite clamping plates 205 to contact the upper end and the lower end of the reverse osmosis membrane when the other end of the threaded rod 206 rotates at one end of the top of the clamping frame 204 through the bearing, after the reverse osmosis membranes are clamped and fixed, the workers push the limiting rod A207 at one end of the threaded rod 206 to slide into the inner side of the opposite limiting groove 208 to fix the reverse osmosis membranes, promote carriage 105 and slide downwards in spout A104 through the slider, carry reverse osmosis membrane and slide back in the purge chamber 1, the staff pours hydroxide chemical cleaning liquid into water inlet 101 again and falls into purge chamber 1, make behind the hydroxide chemical cleaning liquid across the reverse osmosis membrane, the staff opens servo motor A2 and drives the fixed reverse osmosis membrane in turret A202 bottom and constantly clockwise rotate in hydroxide chemical cleaning liquid, make inside continuous and the reverse osmosis membrane production friction of hydroxide chemical cleaning liquid infiltration reverse osmosis membrane, carry out even contact to reverse osmosis membrane and wash the processing, dissolve substances such as a large amount of proteins and saponification lipid that reverse osmosis membrane surface adheres to, carry out quick chemical cleaning to reverse osmosis membrane.

Referring to fig. 2, further, the high-efficiency cleaning mechanism is composed of a servo motor B4, a rotating frame B401, a rotating rod B402, a blade a403 and a blade B404;

fixed mounting has servo motor B4 in the middle of the purge chamber 1 inner wall bottom, there is turret B401 at servo motor B4 outside top through output shaft, the equal fixed mounting in turret B401 outer wall top both ends has dwang B402, the equal fixed mounting in upper and lower both sides of dwang B402 outer wall one end has blade A403, and blade A403 is the central symmetry setting of relative slope form, equal fixed mounting has blade B404 between the blade A403 outer wall, and blade B404 is the arc form setting, when the staff opens servo motor A2 and drives reverse osmosis membrane and constantly rotate clockwise in hydroxide chemical cleaning liquid and carry out the cleaning process, the staff opens servo motor B4 again and drives turret B401 top both ends dwang B402 outer wall blade A anticlockwise rotation in hydroxide chemical cleaning liquid, will produce certain resistance when making arc form blade B404 arc form concave surface promote liquid, constantly 403 drives arc form blade B404 and promotes hydroxide chemical cleaning liquid and flow fast, will make arc form blade B404 arc form concave surface produce certain resistance when promoting liquid, wash away reverse osmosis membrane inside and carry out high-efficient chemical cleaning to reverse osmosis membrane fast.

Referring to fig. 1 and 2, further, the valve 103, the servo motor A2 and the servo motor B4 are electrically connected to the storage battery through the control panel.

Example two

Referring to fig. 4, in the above technical solution, except that one end of the top of the outer wall of the clamping frame 204 is provided with the threaded rod 206 through the rotation of the bearing, both ends of the top of the outer wall of the rotating frame a202 are provided with threaded grooves in a matching manner, and the threaded rod 206 is slidably disposed in the threaded grooves in the matching manner in the top of the outer wall of the rotating frame a202 through the matching threads in the outer wall, except for the technical solution that the top of the other end of the inner wall of the threaded rod 206 is slidably disposed with the limiting rod a207, another embodiment is provided, one end of the top of the outer wall of the clamping frame 204 is fixedly mounted with the damping telescopic rod 5, and the outer side of the damping telescopic rod 5 is provided with a spring in a matching manner, the other end of the outer wall of the damping telescopic rod 5 is fixedly mounted with the limiting frame 501, and the bottom of the limiting rod B502 is slidably disposed in the limiting groove 208 in a matching manner, when a worker places one of the reverse osmosis membranes between the clamping frames 204 to be clamped, the worker only needs to push the two limiting frames 501 simultaneously to drive the clamping frames 204 to slide in the inner sides of the sliding frames B203, and drive the clamping plates 205 to contact with the two ends of the reverse osmosis membranes, thereby facilitating the first implementation mode of dismantling the reverse osmosis membrane to complete the reverse osmosis membrane.

The working principle is as follows: firstly, when a worker needs to clean a large number of reverse osmosis membranes with a large number of substances such as proteins, saponified lipids and the like attached to the surfaces, the worker carries the large number of reverse osmosis membranes to a working site, pulls the sliding frame 105 to slide upwards on the inner side of the sliding groove A104 through the sliding block, exposes the clamping frames 204, puts one of the reverse osmosis membranes between the clamping frames 204, simultaneously twists the threaded rod 206 to rotate in the threaded groove, drives the clamping frame 204 to slide on the inner side of the sliding groove B203 through the sliding block when the other end of the threaded rod 206 rotates on one end of the top of the clamping frame 204 through the bearing, drives the opposite clamping plates 205 to contact the upper end and the lower end of the reverse osmosis membrane, clamps and fixes the reverse osmosis membranes, pushes the limiting rod A207 at one end of the threaded rod 206 to slide into the opposite limiting groove 208 through the sliding block to finish fixing the reverse osmosis membranes, pushes the sliding frame 105 to slide downwards on the inner side of the sliding groove A104 through the sliding block, carries the reverse osmosis membranes to slide into the cleaning chamber 1, then, the worker pours the hydroxide chemical cleaning liquid into the water inlet 101 and falls into the cleaning chamber 1, after the hydroxide chemical cleaning liquid is over the reverse osmosis membrane, the worker opens the servo motor A2 to drive the reverse osmosis membrane fixed at the bottom of the rotating frame A202 to rotate clockwise in the hydroxide chemical cleaning liquid, so that the hydroxide chemical cleaning liquid permeates into the reverse osmosis membrane and continuously rubs against the reverse osmosis membrane, the reverse osmosis membrane is washed by uniform contact, a large amount of protein and saponified lipid and other substances attached to the surface of the reverse osmosis membrane are dissolved, finally, the worker opens the servo motor A2 to drive the reverse osmosis membrane to rotate clockwise in the hydroxide chemical cleaning liquid for cleaning, and simultaneously, the worker opens the servo motor B4 to drive the rotating frame B401 to rotate the rotating rod B402 outer wall blades A403 at the two ends of the top of the rotating frame B401 counterclockwise in the hydroxide chemical cleaning liquid, make certain resistance will produce when arc form blade B404 arc form concave surface promotes liquid, constantly drive arc form blade B404 and promote hydroxide chemical cleaning liquid when flowing fast, will make and will produce certain resistance when arc form blade B404 arc form concave surface promotes liquid, erode the processing fast inside and the surface of reverse osmosis membrane, carry out high-efficient chemical cleaning to reverse osmosis membrane.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (6)

1. The utility model provides a reverse osmosis chemical cleaning device, includes purge chamber (1), water inlet (101), discharge gate (102), valve (103), spout A (104), carriage (105) and waste water tank (3), the embedding of purge chamber (1) outer wall top is provided with water inlet (101), the embedding of purge chamber (1) outer wall bottom one end is provided with discharge gate (102), the nested valve (103) that is provided with in discharge gate (102) outer wall top, the equal fixed mounting in purge chamber (1) outer wall both ends has spout A (104), it is provided with carriage (105) to slide through the slider between spout A (104) the outside top, and passes through bolted connection between carriage (105) and spout A (104) the outer wall, purge chamber (1) outside bottom is provided with waste water tank (3), its characterized in that: the cleaning chamber (1) inboard bottom is provided with the high-efficient wiper mechanism that can increase the improvement of medicament water mobility to reverse osmosis membrane cleaning efficiency, carriage (105) outside bottom is provided with the rotation wiper mechanism that can drive reverse osmosis membrane and rotate fast in the medicament and carry out cleaning.

2. A reverse osmosis chemical cleaning apparatus as claimed in claim 1, wherein: the rotary cleaning mechanism is composed of a servo motor A (2), a rotary rod A (201), a rotary frame A (202), a sliding groove B (203), a clamping frame (204), a clamping plate (205), a threaded rod (206), a limiting rod A (207) and a limiting groove (208);

fixed mounting has servo motor A (2) in the middle of carriage (105) outer wall top, there are dwang A (201) in servo motor A (2) outside bottom through output shaft connection, dwang A (201) outer wall bottom fixed mounting has rotating turret A (202), rotating turret A (202) outer wall both ends all imbed and are provided with spout B (203), spout B (203) inboard bottom slides through the slider and is provided with holding frame (204), the equal fixed mounting in both ends opposite face has grip block (205) about holding frame (204) outer wall bottom, holding frame (204) outer wall top one end rotates through the bearing and is provided with threaded rod (206), rotating turret A (202) outer wall top both ends all form a complete set and are provided with the thread groove, threaded rod (206) inner wall other end top slides and is provided with gag lever post A (207), rotating turret A (202) outer wall top both ends all imbed and are provided with spacing groove (208).

3. A reverse osmosis chemical cleaning apparatus as claimed in claim 1, wherein: the efficient cleaning mechanism is composed of a servo motor B (4), a rotating frame B (401), a rotating rod B (402), a blade A (403) and a blade B (404);

fixed mounting has servo motor B (4) in the middle of purge chamber (1) inner wall bottom, there are output shaft at servo motor B (4) outside top has rotating turret B (401), the equal fixed mounting in rotating turret B (401) outer wall top both ends has dwang B (402), the equal fixed mounting in upper and lower both sides of dwang B (402) outer wall one end has blade A (403), equal fixed mounting has blade B (404) between blade A (403) the outer wall.

4. A reverse osmosis chemical cleaning apparatus as claimed in claim 2, wherein: the clamping plate (205) is arranged in an arc shape, and the threaded rod (206) is arranged in a threaded groove matched with the top of the outer wall of the rotating frame A (202) in a sliding mode through threads matched with the outer wall.

5. A reverse osmosis chemical cleaning apparatus as claimed in claim 2, wherein: the limiting groove (208) is provided with a plurality of limiting grooves which are arranged in parallel at equal intervals, and the limiting rod A (207) is arranged on the inner side of the limiting groove (208) in a sliding manner.

6. A reverse osmosis chemical cleaning apparatus according to claim 3, wherein: the blades A (403) are arranged in a central symmetry mode in a relatively inclined mode, and the blades B (404) are arranged in an arc mode.

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