CN111217466A - Plateau type water filtering equipment and installation method thereof - Google Patents
Plateau type water filtering equipment and installation method thereof Download PDFInfo
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- CN111217466A CN111217466A CN202010046770.5A CN202010046770A CN111217466A CN 111217466 A CN111217466 A CN 111217466A CN 202010046770 A CN202010046770 A CN 202010046770A CN 111217466 A CN111217466 A CN 111217466A
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- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F9/00—Multistage treatment of water, waste water or sewage
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- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F1/00—Treatment of water, waste water, or sewage
- C02F1/001—Processes for the treatment of water whereby the filtration technique is of importance
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- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F1/00—Treatment of water, waste water, or sewage
- C02F1/28—Treatment of water, waste water, or sewage by sorption
- C02F1/283—Treatment of water, waste water, or sewage by sorption using coal, charred products, or inorganic mixtures containing them
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- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F1/00—Treatment of water, waste water, or sewage
- C02F1/44—Treatment of water, waste water, or sewage by dialysis, osmosis or reverse osmosis
- C02F1/441—Treatment of water, waste water, or sewage by dialysis, osmosis or reverse osmosis by reverse osmosis
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- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F2303/00—Specific treatment goals
- C02F2303/14—Maintenance of water treatment installations
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- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F5/00—Softening water; Preventing scale; Adding scale preventatives or scale removers to water, e.g. adding sequestering agents
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
- Y02A20/00—Water conservation; Efficient water supply; Efficient water use
- Y02A20/124—Water desalination
- Y02A20/131—Reverse-osmosis
Abstract
The invention discloses a high prototype water filtering device and an installation method thereof, which comprises a source water tank component for storing raw water, wherein the outlet end of the source water tank component is provided with a first power component for extracting the source water tank component, the outlet end of the first power component is connected with the inlet end of a first filtering component, the outlet end of the first filtering component is connected with the inlet end of a second filtering component, the outlet end of the second filtering component is connected with the inlet end of a third filtering component, the outlet end of the third filtering component is connected with the inlet end of a fourth filtering component, the outlet end of the fourth filtering component is connected with the inlet ends of a plurality of groups of reverse osmosis components through the second power component, and the outlet end of the reverse osmosis component is connected with a purified water tank component. The equipment adopts the reverse osmosis membrane, has high desalination rate, can simultaneously remove colloid, organic matters, bacteria, viruses and the like in water, and has long service life, low operation cost, high working efficiency, low noise and stable operation.
Description
Technical Field
The invention relates to water purification equipment, in particular to plateau-type water filtration equipment and an installation method thereof.
Background
In the modern times, fresh water resources are very few on the earth, more pollutants are generated along with the continuous improvement of the living standard of people, meanwhile, a plurality of processing plants are randomly discharged, and pollutants are generated along with the running of various machines, and finally enter rivers along with rainwater to pollute the existing fresh water resources, so that the fresh water resources are more in short supply. Therefore, drinking water in our lives can be drunk after being filtered and purified, and particularly in plateau environments, pure water is required to be obtained from source water, and a complete pure water treatment device is further required.
Disclosure of Invention
The invention provides a plateau-type water filtering device and an installation method thereof, and aims to overcome the defects of the related art.
In order to solve the relevant problems, the invention adopts the following technical scheme:
high prototype drainage equipment, including the source water tank set spare that is used for storing the raw water, the exit end of source water tank set spare is provided with and is used for the extraction the first power component of source water tank set spare, the exit end and the first filtering component entry end of first power component link to each other, the exit end and the second filtering component entry end of first filtering component link to each other, the exit end and the third filtering component entry end of second filtering component link to each other, the exit end and the fourth filtering component entry end of third filtering component link to each other, the exit end of fourth filtering component passes through the second power component and links to each other with a plurality of reverse osmosis module entry ends, the exit end and the water purification case subassembly of reverse osmosis module link to each other.
Further, the first power assembly is a raw water pump, and the raw water pump pumps raw water in the source water tank assembly and then conveys the raw water to the first filtering assembly.
Further, the second power assembly is a high-pressure pump, and the high-pressure pump pressurizes the water filtered by the fourth filtering assembly and then conveys the water to the reverse osmosis assembly.
Further, the first filtering component is a quartz sand filter, the second filtering component is an activated carbon filter, the third filtering component is a softened water filter, and the fourth filtering component is a precision filter.
Further, the installation method of the high prototype water filtering equipment comprises the following steps:
s1: checking the integrity of the equipment, and removing the inlet and outlet connectors, the pipe orifices and the protective materials for blocking the instruments of the equipment;
s2: arranging and fixing the position of the equipment according to a design process flow, and adjusting the supporting point of each assembly to enable each assembly to be in a position which is basically horizontal and vertical to the ground;
s3: sequentially connecting the devices according to a design process flow;
s4: filling the first filtering component, the second filtering component and the third filtering component, and installing a fourth filtering component;
s5: the reverse osmosis component is provided with a reverse osmosis membrane element.
Further, before the step of S1, the installation method further includes the steps of:
s0: and conveying the prototype water filtering equipment to a preset position.
Further, after the step of S5, the mounting method further includes the steps of:
s6: connect the circuit and check strictly whether the circuit of the device is connected completely,
the circuit connection is complete and comprises a first power assembly and a second power assembly which are grounded;
s7: and switching on the power supply, and checking whether the equipment operates normally.
Further, the step S2 includes the following sub-steps:
s2.1: the source water tank assembly is fixed on a smooth foundation beside the first filtering assembly;
s2.2: the first power assembly is placed on a flat foundation and is guaranteed to be balanced and bear load;
s2.3: the first filtering component is placed on a flat foundation and is ensured to be balanced and bearing;
s2.4: the second filtering component is placed on a flat foundation and is ensured to be balanced and bearing;
s2.5: the third filtering component is placed on a flat foundation and is ensured to be balanced and bearing;
s2.6: the fourth filtering component is fixed on a flat foundation;
s2.7: the first power assembly is placed beside the reverse osmosis assembly;
s2.8: the reverse osmosis component is horizontally placed on a flat foundation;
s2.9: the clean water tank assembly is placed on a flat foundation and ensures its balanced load bearing.
Further, the step S4 includes the following sub-steps:
s4.1: filling the filter material of the first filter assembly, checking whether the quartz sand filter is vertical to the ground or not before filling, then detaching a bolt and a sealing cover of a feed port, filling the quartz sand into the quartz sand filter according to a mode of 'bottom thickness and top thickness', screwing the sealing cover, checking whether a water inlet and a water outlet are screwed or not, and waiting for debugging;
s4.2: filling the filter material of the second filter assembly, checking whether the activated carbon filter is vertical to the ground or not before filling, then detaching bolts and a sealing cover of the feeding hole, filling shell activated carbon special for water purification into the activated carbon filter in a mode of 'bottom coarse and top fine', screwing the sealing cover, checking whether the water inlet and the water outlet are screwed or not, and waiting for debugging;
s4.3: and filling the filter material of the third filter assembly, checking whether the softened water filter is vertical to the ground or not before filling, then detaching the bolt and the sealing cover of the feed port, filling food-grade resin special for purifying water into the softened water filter according to a mode of 'bottom coarse and top fine', screwing the sealing cover, checking whether the water inlet and the water outlet are screwed or not, and waiting for debugging.
Further, the step S5 includes the following sub-steps:
s5.1: removing end sockets at two ends of the RO membrane shell, and washing the inner wall of the RO membrane shell by using clean water;
s5.2: the surface of each RO membrane is marked with an indication arrow of the water flow direction, a black O-shaped ring at the tail end of the RO membrane can be coated with lubricating liquid before the RO membrane is installed, and the RO membrane is slowly installed in the high-pressure membrane shell in a horizontal state after the direction of the indication arrow of the high-pressure membrane shell is consistent with that of the RO membrane;
s5.3: firstly, when a first RO membrane is arranged in a membrane shell and a half position is left, a connector special for the RO membrane is coated with lubricating liquid and then inserted into the RO membrane; secondly, inserting a second RO membrane into the special connector and slowly arranging the second RO membrane into the membrane shell in a horizontal state, and then arranging other membrane elements in the same way;
s5.4: and (3) after the membrane is completely installed, coating lubricating liquid on the O-shaped rings sealed by the end covers at the two ends of the membrane shell, installing the membrane heads, tightening the clamping shell, and simultaneously ensuring that the RO membrane is not damaged.
The invention has the following beneficial effects:
1) the equipment utilizes the quartz sand filter, the activated carbon filter, the softened water filter and the precision filter to filter, and after multiple times of filtering, the source water is effectively purified.
2) The equipment adopts the reverse osmosis membrane, has high desalination rate, can remove colloid, organic matters, bacteria, viruses and the like in water at the same time, and has long service life, low operation cost, high working efficiency, low noise and stable operation, and the desalination rate of the ultrathin composite membrane element can reach more than 99.9%.
Drawings
FIG. 1 is a schematic view of a connection structure of a water filtering apparatus;
in the figure: 1-source water tank assembly; 2-a first power assembly; 3-a first filter assembly; 4-a second filter assembly; 5-a third filter assembly; 6-a fourth filter assembly; 7-a second power assembly; 8-a reverse osmosis module; 9-clean water tank assembly.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
High prototype water filtration equipment, including source water tank set spare 1 that is used for storing the raw water, source water tank set spare 1's exit end is provided with the first power component 2 that is used for extracting source water tank set spare 1, the exit end of first power component 2 links to each other with 3 entry ends of first filtering component, the exit end of first filtering component 3 links to each other with 4 entry ends of second filtering component, the exit end of second filtering component 4 links to each other with 5 entry ends of third filtering component, the exit end of third filtering component 5 links to each other with 6 entry ends of fourth filtering component, the exit end of fourth filtering component 6 links to each other with 8 entry ends of a plurality of groups reverse osmosis module through second power component 7, the exit end of reverse osmosis module 8 links to each other with water purification case subassembly 9.
The first power assembly 2 is a raw water pump, and the raw water pump pumps raw water in the source water tank assembly 1 and then conveys the raw water to the first filtering assembly 3. The second power assembly 7 is a high-pressure pump, and the high-pressure pump pressurizes the water filtered by the fourth filtering assembly 6 and then conveys the water to the reverse osmosis assembly 8. The first filtering component 3 is a quartz sand filter, the second filtering component 4 is an activated carbon filter, the third filtering component 5 is a softened water filter, and the fourth filtering component 6 is a precision filter. The reverse osmosis membrane element in the reverse osmosis component 8 comprises an RO membrane, an RO membrane shell, an indication arrow on the RO membrane shell, an "O" -shaped ring, a membrane high-pressure shell on the membrane high-pressure shell, a connector and an end cover.
The installation method of the plateau-type water filtering equipment comprises the following steps:
1. transporting the plateau-type water filtering equipment to a preset position.
2. Checking the integrity of the equipment, and removing the inlet and outlet joints, the pipe orifice and the protective materials for blocking the instrument.
3. Arranging and fixing the position of the equipment according to the design process flow, adjusting the supporting points of each assembly to enable each assembly to be in a position which is basically horizontal and vertical to the ground, and adjusting the steps as follows:
(1) the source water tank assembly 1 is fixed on a smooth foundation beside the first filtering assembly 3;
(2) the first power assembly 2 is placed on a flat foundation and ensures the balance and bearing of the first power assembly;
(3) the first filtering component 3 is placed on a flat foundation and ensures the balance and bearing of the first filtering component;
(4) the second filtering component 4 is placed on a flat foundation and ensures the balance and the bearing of the second filtering component;
(5) the third filtering component 5 is placed on a flat foundation and ensures the balance and the bearing of the third filtering component;
(6) the fourth filtering component 6 is fixed on a flat foundation;
(7) the first power assembly 2 is arranged beside the reverse osmosis assembly 8;
(8) the reverse osmosis component 8 is horizontally placed on a flat foundation;
(9) the clean water tank assembly 9 is placed on a flat foundation and ensures its balanced load bearing.
4. And connecting the components in sequence according to the design process flow.
5. The first filter assembly 3, the second filter assembly 4 and the third filter assembly 5 are filled, and the fourth filter assembly 6 is installed, wherein the filling steps are as follows:
(1) filling the filter material of the first filter component 3, checking whether the quartz sand filter is vertical to the ground before filling, then detaching a bolt and a sealing cover of a feed port, filling the quartz sand into the quartz sand filter according to a mode of 'bottom thickness and top thickness', screwing the sealing cover, checking whether a water inlet and a water outlet are screwed, and waiting for debugging;
(2) filling the filter material of the second filter component 4, checking whether the activated carbon filter is vertical to the ground before filling, then detaching bolts and a sealing cover of the feed inlet, filling shell activated carbon special for water purification into the activated carbon filter according to a mode of 'bottom coarse and top fine', screwing the sealing cover, checking whether the water inlet and the water outlet are screwed, and waiting for debugging;
(3) and (3) filling the filter material of the third filter component 5, checking whether the softened water filter is vertical to the ground or not before filling, then detaching the bolts and the sealing cover of the feeding port, filling food-grade resin special for purifying water into the softened water filter according to a mode of 'bottom coarse and top fine', screwing the sealing cover, checking whether the water inlet and the water outlet are screwed or not, and waiting for debugging.
6. The reverse osmosis membrane element is arranged in the reverse osmosis component 8, and the installation steps are as follows:
(1) removing end sockets at two ends of the RO membrane shell, and washing the inner wall of the RO membrane shell by using clean water;
(2) the surface of each RO membrane is marked with an indication arrow of the water flow direction, a black O-shaped ring at the tail end of the RO membrane can be coated with lubricating liquid before the RO membrane is installed, and the RO membrane is slowly installed in the high-pressure membrane shell in a horizontal state after the direction of the indication arrow of the high-pressure membrane shell is consistent with that of the RO membrane;
(3) firstly, when a first RO membrane is arranged in a membrane shell and a half position is left, a connector special for the RO membrane is coated with lubricating liquid and then inserted into the RO membrane; secondly, inserting a second RO membrane into the special connector and slowly arranging the second RO membrane into the membrane shell in a horizontal state, and then arranging other membrane elements in the same way;
(4) and (3) after the membrane is completely installed, coating lubricating liquid on the O-shaped rings sealed by the end covers at the two ends of the membrane shell, installing the membrane heads, tightening the clamping shell, and simultaneously ensuring that the RO membrane is not damaged.
7. And connecting the circuit and strictly checking whether the circuit of the equipment is completely connected or not, wherein the circuit is completely connected and comprises the grounding of the first power assembly 2 and the second power assembly 7.
8. And (5) switching on the power supply, and checking whether the equipment operates normally.
The water taking device can not use the traditional water faucet, and if the traditional water faucet is used, the problems of freezing and tube bursting can occur, so that the water can not be taken; therefore, the intelligent water faucet adopts the motor control valve to take water.
Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.
Claims (10)
1. High prototype drainage equipment, its characterized in that: including source water tank set spare (1) that is used for storing the raw water, the exit end of source water tank set spare (1) is provided with and is used for the extraction first power component (2) of source water tank set spare (1), the exit end of first power component (2) links to each other with first filtering component (3) entry end, the exit end of first filtering component (3) links to each other with second filtering component (4) entry end, the exit end of second filtering component (4) links to each other with third filtering component (5) entry end, the exit end of third filtering component (5) links to each other with fourth filtering component (6) entry end, the exit end of fourth filtering component (6) passes through second power component (7) and links to each other with a plurality of reverse osmosis module (8) entry ends, the exit end of reverse osmosis module (8) links to each other with water purification tank set spare (9).
2. The plateau-type water filtering apparatus of claim 1, wherein: the first power assembly (2) is a raw water pump, and the raw water pump pumps raw water in the source water tank assembly (1) and then conveys the raw water to the first filtering assembly (3).
3. The plateau-type water filtering apparatus of claim 1, wherein: the second power assembly (7) is a high-pressure pump, and the high-pressure pump pressurizes water filtered by the fourth filtering assembly (6) and then conveys the water to the reverse osmosis assembly (8).
4. The plateau-type water filtering apparatus of claim 1, wherein: the first filtering component (3) is a quartz sand filter, the second filtering component (4) is an activated carbon filter, the third filtering component (5) is a softened water filter, and the fourth filtering component (6) is a precision filter.
5. A high altitude type water filtering equipment installation method according to any one of claims 1-4, characterized by comprising the following steps:
s1: checking the integrity of the equipment, and removing the inlet and outlet connectors, the pipe orifices and the protective materials for blocking the instruments of the equipment;
s2: arranging and fixing the position of the equipment according to a design process flow, and adjusting the supporting point of each assembly to enable each assembly to be in a position which is basically horizontal and vertical to the ground;
s3: sequentially connecting the devices according to a design process flow;
s4: filling the first filter assembly (3), the second filter assembly (4) and the third filter assembly (5), and installing a fourth filter assembly (6);
s5: a reverse osmosis membrane element is arranged in the reverse osmosis component (8).
6. The mounting method according to claim 5, wherein: before the step of S1, the installation method further includes the steps of:
s0: and conveying the prototype water filtering equipment to a preset position.
7. The mounting method according to claim 5, wherein: after the step of S5, the mounting method further includes the steps of:
s6: connect the circuit and check strictly whether the circuit of the device is connected completely,
wherein, the circuit connection is complete and comprises a first power assembly (2) and a second power assembly (7) which are grounded;
s7: and switching on the power supply, and checking whether the equipment operates normally.
8. The mounting method according to claim 5, wherein: the step S2 includes the following substeps:
s2.1: the source water tank assembly (1) is fixed on a smooth foundation beside the first filtering assembly (3);
s2.2: the first power assembly (2) is placed on a flat foundation and ensures the balance and the bearing of the first power assembly;
s2.3: the first filtering component (3) is placed on a flat foundation and ensures the balance and the bearing of the first filtering component;
s2.4: the second filtering component (4) is placed on a flat foundation and ensures the balance and the bearing of the second filtering component;
s2.5: the third filtering component (5) is placed on a flat foundation and ensures the balance and the bearing of the third filtering component;
s2.6: the fourth filtering component (6) is fixed on a flat foundation;
s2.7: the first power assembly (2) is placed beside the reverse osmosis assembly (8);
s2.8: the reverse osmosis component (8) is horizontally placed on a flat foundation;
s2.9: the water purification tank assembly (9) is placed on a flat foundation and ensures balanced load bearing.
9. The mounting method according to claim 5, wherein: the step S4 includes the following substeps:
s4.1: filling the filter material of the first filter component (3), checking whether the quartz sand filter is vertical to the ground or not before filling, then detaching a bolt and a sealing cover of a feed port, filling the quartz sand into the quartz sand filter according to a mode of 'bottom coarse and top fine', screwing the sealing cover, checking whether a water inlet and a water outlet are screwed or not, and waiting for debugging;
s4.2: filling the filter material of the second filter component (4), checking whether the activated carbon filter is vertical to the ground or not before filling, then detaching a bolt and a sealing cover of a feed inlet, filling shell activated carbon special for water purification into the activated carbon filter according to a mode of 'bottom coarse and top fine', screwing the sealing cover, checking whether a water inlet and a water outlet are screwed or not, and waiting for debugging;
s4.3: and (3) filling the filter material of the third filter component (5), checking whether the softened water filter is vertical to the ground or not before filling, then detaching the bolt and the sealing cover of the feed inlet, filling food-grade resin special for water purification into the softened water filter according to a mode of 'bottom coarse and top fine', screwing the sealing cover, checking whether the water inlet and the water outlet are screwed or not, and waiting for debugging.
10. The mounting method according to claim 5, wherein: the step S5 includes the following substeps:
s5.1: removing end sockets at two ends of the RO membrane shell, and washing the inner wall of the RO membrane shell by using clean water;
s5.2: the surface of each RO membrane is marked with an indication arrow of the water flow direction, a black O-shaped ring at the tail end of the RO membrane can be coated with lubricating liquid before the RO membrane is installed, and the RO membrane is slowly installed in the high-pressure membrane shell in a horizontal state after the direction of the indication arrow of the high-pressure membrane shell is consistent with that of the RO membrane;
s5.3: firstly, when a first RO membrane is arranged in a membrane shell and a half position is left, a connector special for the RO membrane is coated with lubricating liquid and then inserted into the RO membrane; secondly, inserting a second RO membrane into the special connector and slowly arranging the second RO membrane into the membrane shell in a horizontal state, and then arranging other membrane elements in the same way;
s5.4: and (3) after the membrane is completely installed, coating lubricating liquid on the O-shaped rings sealed by the end covers at the two ends of the membrane shell, installing the membrane heads, tightening the clamping shell, and simultaneously ensuring that the RO membrane is not damaged.
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