CN217498946U - Bipolar reverse osmosis hydration machine - Google Patents
Bipolar reverse osmosis hydration machine Download PDFInfo
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- CN217498946U CN217498946U CN202221740917.1U CN202221740917U CN217498946U CN 217498946 U CN217498946 U CN 217498946U CN 202221740917 U CN202221740917 U CN 202221740917U CN 217498946 U CN217498946 U CN 217498946U
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- reverse osmosis
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- hydrator
- bipolar
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Abstract
The utility model discloses a bipolar reverse osmosis hydrator, which relates to the technical field of contact lens cleaning and comprises a hydrator body, wherein the upper end wall is connected with a detachable upper end cover through a bolt; the filter screen sleeve is arranged on one surface of the upper end cover corresponding to the inside of the hydration machine body; the positioning pipe penetrates through the upper end cover and the upper end wall of the filter screen sleeve, and a plurality of water outlet holes are formed in the side wall of one end, extending into the filter screen sleeve, of the positioning pipe; the vibration assemblies are respectively arranged in a filter chamber formed by the anode reverse osmosis membrane and the anode resin filter layer, a filter chamber formed by the first bipolar plate, and a filter chamber formed by the cathode reverse osmosis membrane and the cathode resin filter layer, and the second bipolar plate; the vibration component is used for vibrating water in the filter chamber and removing substances attached to the inner wall of the filter chamber through vibration of the water; the utility model has the advantages of convenient use, reduction of the cleaning frequency of workers to the hydration machine, and the like.
Description
Technical Field
The utility model relates to a clear technical field of contact lens, in particular to bipolar reverse osmosis hydration machine.
Background
In the production process of the existing contact lenses, the contact lenses need to be cleaned so as to ensure that the contact lenses do not hurt eyeballs, the existing contact lenses are mainly cleaned by a Tray cleaning machine, when the Tray cleaning machine is used, the contact lenses need to be washed by purified pure water, the direct washing by tap water easily causes some harmful substances to be attached to the contact lenses, the pure water used by the existing Tray cleaning machine is purified by a bipolar reverse osmosis water machine, when the bipolar reverse osmosis water machine is used for purifying the pure water, a large amount of harmful substances are attached to an osmosis membrane, when harmful substances are accumulated to reach a certain amount, the permeable membrane is blocked, the water ionizer needs to be disassembled, and then the permeable membrane needs to be cleaned, so that the steps are very complicated, and the bipolar reverse osmosis water ionizer capable of automatically cleaning is arranged.
SUMMERY OF THE UTILITY MODEL
The utility model aims to solve the technical problem of providing a bipolar reverse osmosis hydration machine to solve the problem that the cleaning of the water machine of the prior art that describes in the background art needs to be dismantled, the step is complicated.
In order to achieve the above object, the present invention provides the following technical solutions: a bipolar reverse osmosis hydrator comprises
The upper end wall of the hydrator body is connected with a detachable upper end cover through a bolt;
the filter screen sleeve is arranged on one surface of the upper end cover corresponding to the inside of the hydration machine body;
the positioning pipe penetrates through the upper end cover and the upper end wall of the filter screen sleeve, and a plurality of water outlet holes are formed in the side wall of one end, extending into the filter screen sleeve, of the positioning pipe;
the anode filtering component and the cathode filtering component are respectively arranged in the hydrator body and are positioned on the left side and the right side of the filter screen sleeve;
the anode filter assembly comprises
The first bipolar plate, the anode reverse osmosis membrane and the anode resin filter layer are arranged on the upper end cover;
the anode chamber is arranged on the left side wall of the hydrator body, and an anode plate is arranged in the anode chamber;
the cathode filter assembly comprises
The second bipolar plate, the cathode reverse osmosis membrane and the cathode resin filter layer are arranged on the upper end cover;
the cathode chamber is arranged on the left side wall of the hydrator body, and a cathode plate is arranged in the cathode chamber;
one end of the connecting pipe is connected with a water storage chamber formed by the anode resin filter layer and the left end wall of the hydrator body, and the other end of the connecting pipe is connected with a filter chamber formed by the cathode resin filter layer and the cathode reverse osmosis membrane;
the vibration assemblies are respectively arranged in a filter chamber formed by the anode reverse osmosis membrane and the anode resin filter layer, a filter chamber formed by the first bipolar plate, and a filter chamber formed by the cathode reverse osmosis membrane and the cathode resin filter layer, and the second bipolar plate;
the vibration component is used for driving water in the filtering chamber to vibrate, and substances attached to the inner wall of the filtering chamber are removed through vibration of the water.
Preferably: the vibration assembly comprises
The positioning sleeve penetrates through the upper end cover and is fixedly connected with the upper end cover;
the elastic sheet is arranged on the inner wall of the positioning sleeve;
the vibration transmission sheet is arranged on the elastic sheet and extends into the filtering chamber;
the vibration pieces are arranged on the vibration transmission pieces;
and the vibrator is arranged on the elastic sheet.
Preferably: the bottom of the hydrator body is provided with a sediment hopper corresponding to the position of each filter chamber, and the sediment hopper is provided with an electromagnetic valve.
Preferably: the bottom parts of the first bipolar plate, the anode reverse osmosis membrane, the anode resin filter layer, the second bipolar plate, the cathode reverse osmosis membrane and the cathode resin filter layer are respectively provided with an inserting plate, and U-shaped limiting plates are respectively arranged at the positions, corresponding to the inserting plates, of the inner wall of the bottom of the hydrator body.
Preferably: the inner wall of the bottom of the hydrator body is provided with a positioning ring, and the filter screen sleeve extends into the positioning ring.
Preferably: the connecting pipe is provided with a one-way valve.
The beneficial effect of adopting above technical scheme is:
this application passes through the vibrator and drives the elastic plate vibrations, and the elastic plate drives the vibrations piece vibrations through passing the vibrations piece, and then drives water vibrations for first bipolar plate, positive pole reverse osmosis membrane, positive pole resin filter layer, second bipolar plate, negative pole reverse osmosis membrane, the vibrations of negative pole resin filter layer will adnexed impurity shake and remove, and impurity will fall to deposit in the sediment fill this moment, opens the solenoid valve and can discharge impurity, reduces workman's clean frequency.
Drawings
Fig. 1 is a front view of a bipolar reverse osmosis hydrator of the present invention.
Fig. 2 is a schematic structural diagram of the bipolar reverse osmosis hydration machine of the present invention.
Wherein: the device comprises a hydrator body 10, an upper end cover 20, bolts 21, a filter screen sleeve 30, a positioning pipe 31, a water outlet hole 32, a liquid inlet pipe 33, a positioning ring 34, an anode filtering component 40, a first bipolar plate 41, an anode reverse osmosis membrane 42, an anode resin filtering layer 43, an anode chamber 44, an anode plate 45, a cathode filtering component 50, a second bipolar plate 51, a cathode reverse osmosis membrane 52, a cathode resin filtering layer 53, a cathode chamber 54, a cathode plate 55, a limiting plate 60, an inserting plate 61, a settling hopper 70, an electromagnetic valve 71, a vibration sheet 80, a vibration transmission sheet 81, an elastic plate 82, a positioning sleeve 83, a vibrator 84, a connecting pipe 90 and a one-way valve 91.
Detailed Description
The following describes embodiments of the present invention in detail with reference to the drawings.
Referring to fig. 1-2, in the first embodiment, a bipolar reverse osmosis hydrator comprises
The upper end wall of the hydrator body 10 is connected with a detachable upper end cover 20 through a bolt 21;
the filter net sleeve 30 is arranged on one surface, corresponding to the interior of the hydrator body 10, of the upper end cover 20;
the positioning pipe 31 penetrates through the upper end cover 20 and the upper end wall of the filter screen sleeve 30, and a plurality of water outlet holes 32 are formed in the side wall of one end, extending into the filter screen sleeve 30, of the positioning pipe 31;
the anode filtering component 40 and the cathode filtering component 50 are respectively arranged in the hydrator body 10 and are positioned at the left side and the right side of the filter screen sleeve 30;
the anode filter assembly 40 includes
A first bipolar plate 41, an anode reverse osmosis membrane 42 and an anode resin filter layer 43, which are arranged on the upper end cover 20;
an anode chamber 44 disposed on the left side wall of the hydrator body 10, wherein an anode plate 45 is disposed in the anode chamber 44;
the cathode filter assembly 50 includes
A second bipolar plate 51, a cathode reverse osmosis membrane 52 and a cathode resin filter layer 53 which are arranged on the upper end cover 20;
a cathode chamber 54 provided on the left side wall of the hydrator body 10, the cathode chamber 54 having a cathode plate 55 provided therein;
a plurality of connecting pipes 90, one end of which is connected with the water storage chamber formed by the anode resin filter layer 43 and the left end wall of the hydrator body 10, and the other end of which is connected with the filter chamber formed by the cathode resin filter layer 53 and the cathode reverse osmosis membrane 52;
a plurality of vibrating assemblies respectively arranged in a filter chamber formed by the anode reverse osmosis membrane 42, the anode resin filter layer 43 and the first bipolar plate 41, and a filter chamber formed by the cathode reverse osmosis membrane 52, the cathode resin filter layer 53 and the second bipolar plate 51;
the vibration component is used for driving water in the filtering chamber to vibrate, and substances attached to the inner wall of the filtering chamber are removed through vibration of the water.
The present embodiment is implemented as follows:
the anode filter assembly 40 and the cathode filter assembly 50 in the present application are prior art.
This application is when using, can be with first bipolar plate 41 through the upper end cover 20 and the bolt 21 that set up, positive pole reverse osmosis membrane 42, positive pole resin filter layer 43, negative pole filtering component 50, second bipolar plate 51, negative pole reverse osmosis membrane 52, negative pole resin filter layer 53 is pulled down from hydrator body 10 and is changed, clean, and at ordinary times, will shake the water that transmits for in the filter chamber through shaking the subassembly, make the water move the vibrations of filter chamber inner wall, thereby realize shaking the impurity of filter chamber inner wall and remove, the frequency that the workman dismantled upper end cover 20 has been reduced.
Example two
As an optimization scheme of the first embodiment, it is preferable that: the vibration assembly comprises
The positioning sleeve 83 penetrates through the upper end cover 20 and is fixedly connected with the upper end cover 20;
an elastic piece 82 provided on the inner wall of the positioning sleeve 83;
the vibration transmission sheet 81 is arranged on the elastic sheet 82 and extends into the filtering chamber;
a plurality of vibration pieces 80 arranged on the vibration transmission piece 81;
the vibrator 84 is provided on the elastic sheet 82.
This embodiment is implemented as such, when the vibration assembly is used, the vibrator 84 is first started, the vibrator 84 drives the elastic sheet 82 to vibrate, the elastic sheet 82 drives the vibration transmitting sheet 81 to vibrate, and the vibration transmitting sheet 81 drives the vibration sheet 80 to vibrate, so as to drive the water in the filtration chamber to vibrate.
EXAMPLE III
As an optimized proposal of the second embodiment, a settling hopper 70 is respectively arranged at the bottom of the hydrator body 10 corresponding to the position of each filter chamber, and an electromagnetic valve 71 is arranged on the settling hopper 70.
This embodiment is implemented such that the settling hopper 70 is adapted to receive the impurities shaken out of the filter chamber.
Example four
As an optimized scheme of the first embodiment, the bottom portions of the first bipolar plate 41, the anode reverse osmosis membrane 42, the anode resin filter layer 43, the second bipolar plate 51, the cathode reverse osmosis membrane 52 and the cathode resin filter layer 53 are respectively provided with an insertion plate 61, and the inner wall of the bottom portion of the hydrator body 10 is respectively provided with a U-shaped limiting plate 60 at a position corresponding to the insertion plate 61.
The embodiment is implemented in such a way that the inserting plate 60 and the limiting plate 62 can position the first bipolar plate 41, the anode reverse osmosis membrane 42, the anode resin filter layer 43, the second bipolar plate 51, the cathode reverse osmosis membrane 52 and the cathode resin filter layer 53, so that the disassembly is convenient.
EXAMPLE five
As an optimized solution of the first embodiment, the bottom inner wall of the hydrator body 10 is provided with a positioning ring 34, and the filter screen sleeve 30 extends into the positioning ring 34.
This embodiment is implemented like this, and the position ring plays limiting displacement to the filter screen cover, mainly is for the convenience of dismantling.
EXAMPLE six
As an optimization scheme of the first embodiment, a check valve 91 is arranged on the connecting pipe 90.
This embodiment is implemented such that the flow on the tank anode filter assembly 40 side in the cathode filter assembly 50 can be prevented by the check valve 91.
The above is only the preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and improvements can be made without departing from the inventive concept, and all of them belong to the protection scope of the present invention.
Claims (6)
1. A bipolar reverse osmosis hydrator comprises
The method is characterized in that:
the upper end wall of the hydrator body is connected with a detachable upper end cover through a bolt;
the filter screen sleeve is arranged on one surface of the upper end cover corresponding to the inside of the hydration machine body;
the positioning pipe penetrates through the upper end cover and the upper end wall of the filter screen sleeve, and a plurality of water outlet holes are formed in the side wall of one end, extending into the filter screen sleeve, of the positioning pipe;
the anode filtering component and the cathode filtering component are respectively arranged in the hydrator body and are positioned on the left side and the right side of the filter screen sleeve;
the anode filter assembly comprises
The first bipolar plate, the anode reverse osmosis membrane and the anode resin filter layer are arranged on the upper end cover;
the anode chamber is arranged on the left side wall of the hydrator body, and an anode plate is arranged in the anode chamber;
the cathode filter assembly comprises
The second bipolar plate, the cathode reverse osmosis membrane and the cathode resin filter layer are arranged on the upper end cover;
the cathode chamber is arranged on the left side wall of the hydrator body, and a cathode plate is arranged in the cathode chamber;
one end of the connecting pipe is connected with a water storage chamber formed by the anode resin filter layer and the left end wall of the hydrator body, and the other end of the connecting pipe is connected with a filter chamber formed by the cathode resin filter layer and the cathode reverse osmosis membrane;
the vibration assemblies are respectively arranged in a filter chamber formed by the anode reverse osmosis membrane and the anode resin filter layer, a filter chamber formed by the first bipolar plate, and a filter chamber formed by the cathode reverse osmosis membrane and the cathode resin filter layer, and the second bipolar plate;
the vibration component is used for driving water in the filtering chamber to vibrate, and substances attached to the inner wall of the filtering chamber are removed through vibration of the water.
2. The bipolar reverse osmosis hydration machine of claim 1 wherein the vibration assembly comprises
The positioning sleeve penetrates through the upper end cover and is fixedly connected with the upper end cover;
the elastic sheet is arranged on the inner wall of the positioning sleeve;
the vibration transmission sheet is arranged on the elastic sheet and extends into the filtering chamber;
the vibration pieces are arranged on the vibration transmission pieces;
and the vibrator is arranged on the elastic sheet.
3. A bipolar reverse osmosis hydration machine according to claim 2, wherein a settling hopper is arranged at the bottom of the hydration machine body corresponding to each filter chamber, and an electromagnetic valve is arranged on the settling hopper.
4. The bipolar reverse osmosis hydrator according to claim 1, wherein the bottom of the first bipolar plate, the bottom of the anode reverse osmosis membrane, the bottom of the anode resin filter layer, the bottom of the second bipolar plate, the bottom of the cathode reverse osmosis membrane and the bottom of the cathode resin filter layer are respectively provided with an inserting plate, and the inner wall of the bottom of the hydrator body is respectively provided with a U-shaped limiting plate corresponding to the inserting plate.
5. The bipolar reverse osmosis hydrator according to claim 1, wherein the inner bottom wall of the hydrator body is provided with a positioning ring, and the filter screen sleeve extends into the positioning ring.
6. The bipolar reverse osmosis hydrator of claim 1, wherein the connecting tube is provided with a one-way valve.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202221740917.1U CN217498946U (en) | 2022-07-06 | 2022-07-06 | Bipolar reverse osmosis hydration machine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202221740917.1U CN217498946U (en) | 2022-07-06 | 2022-07-06 | Bipolar reverse osmosis hydration machine |
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Publication Number | Publication Date |
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CN217498946U true CN217498946U (en) | 2022-09-27 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN202221740917.1U Active CN217498946U (en) | 2022-07-06 | 2022-07-06 | Bipolar reverse osmosis hydration machine |
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CN (1) | CN217498946U (en) |
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2022
- 2022-07-06 CN CN202221740917.1U patent/CN217498946U/en active Active
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