CN222593636U - A remote controlled pure water device - Google Patents

Abstract

The utility model discloses remote control pure water equipment which comprises a raw water tank, a prefilter assembly, a control module and a reverse osmosis assembly, wherein the prefilter assembly is electrically connected with the reverse osmosis assembly and the control module, a raw water pump and a raw water valve are connected between the raw water tank and the prefilter assembly, a primary water pump and a primary water inlet valve are connected between the prefilter assembly and the reverse osmosis assembly, the reverse osmosis assembly comprises a primary reverse osmosis structure, a middle water tank, a secondary water pump, a secondary water inlet valve and a secondary reverse osmosis structure, the other end of the secondary reverse osmosis structure is connected with the pure water tank, and a back flushing assembly is further connected to the reverse osmosis assembly. Compared with the prior art, the utility model has the advantages that the two-stage reverse osmosis structure has good filtering effect, is convenient for back flushing, prolongs the service life of the reverse osmosis component and is convenient for remote intelligent control production.

Description

Remote control pure water equipment

Technical Field

The utility model relates to the technical field of pure water production equipment, in particular to remote control pure water equipment.

Background

The water purifying device is a water purifying device which performs water quality purification treatment by a plurality of physical methods such as filtration, adsorption, reverse osmosis and the like, and has wide application in various aspects such as life, production and the like.

The existing pure water equipment generally only has a primary reverse osmosis structure, the subsequent pure water production effect can not be guaranteed after long-term use, in addition, the filtering effect of the reverse osmosis structure is poor after long-term use, the filtering efficiency and the filtering effect can be influenced, intelligent control is not achieved, and production faults can not be timely dealt with.

Disclosure of utility model

1. Technical problem to be solved

The utility model aims to solve the technical problems that the primary reverse osmosis structure has poor filtering effect, and filter residues influence the filtering efficiency after long-time use and can not realize remote control of intelligent production.

2. Technical proposal

In order to solve the technical problems, the remote control pure water equipment comprises a raw water tank, a prefilter assembly, a control module and a reverse osmosis assembly, wherein the prefilter assembly, the reverse osmosis assembly and the control module are electrically connected, a raw water pump and a raw water valve are connected between the raw water tank and the prefilter assembly, a primary water pump and a primary water inlet valve are connected between the prefilter assembly and the reverse osmosis assembly, the reverse osmosis assembly comprises a primary reverse osmosis structure, a middle water tank, a secondary water pump, a secondary water inlet valve and a secondary reverse osmosis structure, the other end of the secondary reverse osmosis structure is connected with the pure water tank, a back flushing assembly is further connected to the reverse osmosis assembly, a flow sensor, a water purity sensor and a turbidity sensor are respectively connected to the prefilter assembly, the flow sensor, the water purity sensor and the turbidity sensor are electrically connected with the control module, and the control module is connected with a remote terminal through a network.

Further, the prefilter assembly comprises a sand filter, an ultrafilter and an activated carbon filter, wherein the sand filter, the ultrafilter and the activated carbon filter are sequentially arranged along the direction away from the raw water pump, the sand filter, the ultrafilter and the activated carbon filter are sequentially connected through connecting pipes respectively, so that raw water is conveniently and gradually filtered, obvious impurities in the raw water can be filtered through the sand filter, small impurities in the raw water can be filtered through the ultrafilter, and peculiar smell, organic pollutants and the like can be adsorbed by the activated carbon.

Further, the back flush assembly comprises a wastewater tank and a water return pipe connected to the pure water tank, the water return pipe is connected with a back flush water pump and a back flush water inlet valve, the water inlet end of the primary reverse osmosis structure and the water inlet end of the secondary reverse osmosis structure are connected with the wastewater tank through a wastewater discharge pipe respectively, the wastewater discharge pipe is connected with a back flush water washing valve, after the back flush assembly is used for a long time, the back flush assembly is started, the back flush assembly can carry out back flush on the reverse osmosis structure, pure water, the water and the wastewater discharge pipe are led into the wastewater tank, the filtering effect of the reverse osmosis assembly is prevented from being influenced by filter residues, and the service life of the reverse osmosis assembly is convenient to prolong.

Furthermore, a first-stage water outlet valve is connected between the first-stage reverse osmosis structure and the middle water tank, a second-stage water outlet valve is connected between the second-stage reverse osmosis structure and the pure water tank, the back flush water inlet valve and the back flush water outlet valve are synchronously opened, the back flush water inlet valve, the first-stage water outlet valve and the second-stage water outlet valve are not simultaneously opened, and the linkage of the back flush water inlet valve, the back flush water outlet valve, the first-stage water outlet valve and the second-stage water outlet valve is conveniently realized through the control module.

Further, the control module is electrically connected with the raw water pump, the primary water pump, the secondary water pump, the back flush water pump, the raw water valve, the primary water inlet valve, the primary water outlet valve, the secondary water inlet valve, the secondary water outlet valve, the back flush water inlet valve and the back flush water outlet valve.

3. Advantageous effects

Compared with the prior art, the utility model has the advantages that:

1. The cooperation of the raw water tank, the prefilter assembly, the control module, the reverse osmosis assembly, the raw water pump, the raw water valve, the primary water pump, the primary water inlet valve, the primary reverse osmosis structure, the intermediate water tank, the secondary water pump, the secondary water inlet valve, the secondary reverse osmosis structure, the pure water tank and the back flushing assembly is convenient for the prefilter assembly to pretreat raw water, then the prefilter water is further treated by the primary reverse osmosis structure and the secondary reverse osmosis structure two-stage reverse osmosis assembly to remove tiny minerals, bacteria, viruses and the like, and the back flushing assembly is convenient for the back flushing of the reverse osmosis assembly to avoid influencing the filtering effect;

2. The cooperation setting through flow sensor, water purity sensor, turbidity sensor, control module and remote terminal is convenient to know back flush subassembly, reverse osmosis subassembly, prefilter subassembly's treatment effect through remote terminal, if abnormal conditions appear, control module can send the alarm to remote terminal, and remote terminal can control through control module in time.

Drawings

FIG. 1 is a schematic view of a remote control water purification apparatus according to the present utility model.

FIG. 2 is a schematic view showing a partial structure of a remote control water purification apparatus according to the present utility model.

FIG. 3 is a schematic diagram of a control structure of a remote control water purification apparatus according to the present utility model.

The water tank is shown as 1, a raw water tank, 2, a raw water pump, 3, a raw water valve, 4, a primary water pump, 5, a primary water inlet valve, 6, a primary reverse osmosis structure, 7, an intermediate water tank, 8, a secondary water pump, 9, a secondary water inlet valve, 10, a secondary reverse osmosis structure, 11, a pure water tank, 12, a sand filter, 13, an ultra-filter, 14, an activated carbon filter, 15, a wastewater tank, 16, a return water pipe, 17, a backwash water pump, 18, a backwash water inlet valve, 19, a backwash water outlet valve, 20, a primary water outlet valve, 21 and a secondary water outlet valve.

Detailed Description

The technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present utility model, and it is apparent that the described embodiments are only some embodiments of the present utility model, but not all embodiments, and all other embodiments obtained by those skilled in the art without making any inventive effort based on the embodiments of the present utility model are within the scope of protection of the present utility model.

Example 1

The remote control pure water equipment comprises a raw water tank 1, a prefilter assembly, a control module and a reverse osmosis assembly, wherein the prefilter assembly is electrically connected with the reverse osmosis assembly and the control module, the remote control pure water equipment is characterized in that a raw water pump 2 and a raw water valve 3 are connected between the raw water tank 1 and the prefilter assembly, the prefilter assembly comprises a sand filter 12, an ultrafilter 13 and an activated carbon filter 14, the sand filter 12, the ultrafilter 13 and the activated carbon filter 14 are sequentially distributed along the direction far away from the raw water pump 2, the sand filter 12, the ultrafilter 13 and the activated carbon filter 14 are sequentially connected through connecting pipes, a primary water pump 4 and a primary water inlet valve 5 are connected between the prefilter assembly and the reverse osmosis assembly, the reverse osmosis assembly comprises a primary reverse osmosis structure 6, a middle water tank 7, a secondary water pump 8, a secondary water inlet valve 9 and a secondary reverse osmosis structure 10, and the other end of the secondary reverse osmosis structure 10 is connected with the pure water tank 11;

The cooperation of the raw water tank 1, the prefilter assembly, the control module, the reverse osmosis assembly, the raw water pump 2, the raw water valve 3, the first-stage water pump 4, the first-stage water inlet valve 5, the first-stage reverse osmosis structure 6, the middle water tank 7, the second-stage water pump 8, the second-stage water inlet valve 9, the second-stage reverse osmosis structure 10, the pure water tank 11 and the back flush assembly is convenient for pretreating raw water through the prefilter assembly, and the prefilter water is conveniently and gradually filtered through the sand filter 12, the ultrafilter 13 and the activated carbon filter 14;

Referring to fig. 2, the reverse osmosis assembly is further connected with a back flush assembly, the back flush assembly comprises a wastewater tank 15 arranged close to the middle water tank 7 and a water return pipe 16 connected to the pure water tank 11, the water return pipe 16 is connected with a back flush water pump 17 and a back flush water inlet valve 18, the water inlet end of the primary reverse osmosis structure 6 and the water inlet end of the secondary reverse osmosis structure 10 are respectively connected with the wastewater tank 15 through a wastewater discharge pipe, and the wastewater discharge pipe is connected with a back flush water washing valve 19;

Referring to fig. 1 and 2, a primary water outlet valve 20 is connected between the primary reverse osmosis structure 6 and the intermediate water tank 7, a secondary water outlet valve 21 is connected between the secondary reverse osmosis structure 10 and the pure water tank 11, the back flush water inlet valve 18 and the back flush water outlet valve 19 are synchronously opened, and the back flush water inlet valve 18, the primary water outlet valve 20 and the secondary water outlet valve 21 are not simultaneously opened.

Through the arrangement of the structure, the reverse osmosis component can be washed, and the filtering effect is prevented from being influenced;

Example two

On the basis of the first embodiment, referring to fig. 3, the back flushing assembly, the reverse osmosis assembly and the prefilter assembly are respectively connected with a flow sensor, a water purity sensor and a turbidity sensor, the flow sensor, the water purity sensor and the turbidity sensor are electrically connected with a control module, the control module is connected with a remote terminal through a network, and the control module is electrically connected with a raw water pump 2, a primary water pump 4, a secondary water pump 8, a back flushing water pump 17, a raw water valve 3, a primary water inlet valve 5, a primary water outlet valve 20, a secondary water inlet valve 9, a secondary water outlet valve 21, a back flushing water inlet valve 18 and a back flushing water valve 19.

The setting through above-mentioned structure is convenient for in time know the production condition of pure water production facility to can control the processing through the remote terminal in time just the abnormal conditions that receives, realize intelligent production.

The method comprises the steps of starting a raw water pump 2, opening a raw water valve 3, leading raw water in a raw water tank 1 into a prefilter assembly by the raw water pump 2, filtering obvious impurities in the raw water by a sand filter 12, filtering small impurities in the raw water by an ultrafilter 13, adsorbing peculiar smell, organic pollutants and the like by activated carbon, and further treating the prefilter water by a first-stage reverse osmosis structure 6 and a second-stage reverse osmosis structure 10 to remove micro minerals, bacteria, viruses and the like;

After long-time use, when the flow difference between the flow sensors at two ends of the reverse osmosis component exceeds a threshold value, the reverse osmosis component and the prefilter component can be closed, the reverse osmosis component is started, the reverse osmosis water inlet valve 18 and the reverse osmosis water outlet valve 19 are synchronously opened, the reverse osmosis water inlet valve 18, the primary water outlet valve 20 and the secondary water outlet valve 21 are not simultaneously opened, the linkage of the reverse osmosis water inlet valve 18, the reverse osmosis water outlet valve 19, the primary water outlet valve 20 and the secondary water outlet valve 21 is conveniently realized through the control module, the reverse osmosis component can carry out reverse flushing on the reverse osmosis structure, pure water, the pure water and waste water discharged through the water return pipe 16, the reverse osmosis component and the waste water discharged pipe are finally led into the waste water tank 15, the filter effect of the reverse osmosis component is prevented from being influenced by filter residues, and the service life of the reverse osmosis component is conveniently prolonged;

The cooperation setting through flow sensor, water purity sensor, turbidity sensor, control module and remote terminal is convenient to know back flush subassembly, reverse osmosis subassembly, prefilter subassembly's treatment effect through remote terminal, if abnormal conditions appear, control module can send the alarm to remote terminal, and remote terminal can control through control module in time, realizes production intellectuality.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

The utility model and its embodiments have been described above with no limitation, and the actual construction is not limited to the embodiments of the utility model as shown in the drawings. In summary, if one of ordinary skill in the art is informed by this disclosure, a structural manner and an embodiment similar to the technical solution should not be creatively devised without departing from the gist of the present utility model.

Claims (5)

1. The remote control pure water equipment comprises a raw water tank (1), a prefilter assembly, a control module and a reverse osmosis assembly, wherein the prefilter assembly is electrically connected with the reverse osmosis assembly and the control module, the remote control pure water equipment is characterized in that a raw water pump (2) and a raw water valve (3) are connected between the raw water tank (1) and the prefilter assembly, a primary water pump (4) and a primary water inlet valve (5) are connected between the prefilter assembly and the reverse osmosis assembly, the reverse osmosis assembly comprises a primary reverse osmosis structure (6), a middle water tank (7), a secondary water pump (8), a secondary water inlet valve (9) and a secondary reverse osmosis structure (10), the other end of the secondary reverse osmosis structure (10) is connected with a pure water tank (11), and the reverse osmosis assembly is also connected with a back flushing assembly;

The back flushing assembly, the reverse osmosis assembly and the prefilter assembly are respectively connected with a flow sensor, a water purity sensor and a turbidity sensor, the flow sensor, the water purity sensor and the turbidity sensor are electrically connected with a control module, and the control module is connected with a remote terminal through a network.

2. The remote control pure water device according to claim 1, wherein the prefilter assembly comprises a sand filter (12), an ultrafilter (13) and an activated carbon filter (14), the sand filter (12), the ultrafilter (13) and the activated carbon filter (14) are sequentially arranged along the direction far away from the raw water pump (2), and the sand filter (12), the ultrafilter (13) and the activated carbon filter (14) are sequentially connected through connecting pipes.

3. The remote control pure water equipment according to claim 1, wherein the back flushing assembly comprises a wastewater tank (15) arranged close to the middle water tank (7) and a water return pipe (16) connected to the pure water tank (11), the water return pipe (16) is connected with a back flushing water pump (17) and a back flushing water inlet valve (18), the water inlet end of the primary reverse osmosis structure (6) and the water inlet end of the secondary reverse osmosis structure (10) are respectively connected with the wastewater tank (15) through a wastewater discharge pipe, and the wastewater discharge pipe is connected with a back flushing water washing valve (19).

4. A remote control pure water device according to claim 3, wherein a primary water outlet valve (20) is connected between the primary reverse osmosis structure (6) and the intermediate water tank (7), a secondary water outlet valve (21) is connected between the secondary reverse osmosis structure (10) and the pure water tank (11), the back flush water inlet valve (18) and the back flush water outlet valve (19) are synchronously opened, and the back flush water inlet valve (18) is not simultaneously opened with the primary water outlet valve (20) and the secondary water outlet valve (21).

5. The remote control pure water device according to claim 4, wherein the control module is electrically connected with the raw water pump (2), the primary water pump (4), the secondary water pump (8), the backwash water pump (17), the raw water valve (3), the primary water inlet valve (5), the primary water outlet valve (20), the secondary water inlet valve (9), the secondary water outlet valve (21), the backwash water inlet valve (18) and the backwash water valve (19).