CN218372018U - Water treatment device - Google Patents

Abstract

The utility model provides a water treatment device, which relates to the technical field of water treatment. Can solve the technical problem that the prior art can not effectively improve the water quality in the central air-conditioning system. The utility model discloses a: the first water quality detection module and the water treatment box body are sequentially arranged along the water flow direction; the water treatment tank body comprises a plurality of cavities which are sequentially arranged along the water flow direction; a water treatment module is deployed in at least one of the plurality of cavities; the first water quality detection module and the water treatment tank body are arranged on the water treatment pipeline, and the first water quality detection module is connected with a water flow inlet of the water treatment tank body; the first water quality detection module is used for detecting the water quality of water flowing into the first water quality detection module; the water treatment module is used for carrying out water quality optimization treatment on water in the water treatment pipeline.

Description

Water treatment device

Technical Field

The utility model relates to a water treatment technology field especially relates to a water treatment device.

Background

The quality of water in the central air-conditioning system is related to the operation stability of the whole central air-conditioning system. When the water quality in the central air-conditioning system is poor, the service life of the air-conditioning equipment in the central air-conditioning system may be affected.

In order to prolong the service life of the air conditioning equipment in the central air conditioning system, the water quality in the central air conditioning system can be optimized. At present, water treatment devices in general central air-conditioning systems generally adopt modes such as water replenishing, electrostatic water treatment devices, medicament adding and the like to treat water.

And the manual medicine adding method is mostly adopted for adding the medicine, the pollution discharge effect is poor, and the water quality in the central air-conditioning system cannot be effectively improved.

SUMMERY OF THE UTILITY MODEL

The utility model provides a water treatment device, which can solve the technical problem that the prior water treatment device can not effectively improve the water quality in a central air-conditioning system.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

in a first aspect, a water treatment device comprises: the first water quality detection module and the water treatment box body are sequentially arranged along the water flow direction; the water treatment box body comprises a plurality of cavities which are sequentially arranged along the water flow direction; a water treatment module is arranged in at least one of the plurality of cavities;

the first water quality detection module and the water treatment tank body are arranged on the water treatment pipeline, and the first water quality detection module is connected with a water flow inlet of the water treatment tank body;

the first water quality detection module is used for detecting the water quality of water flowing into the first water quality detection module;

the water treatment module is used for performing water quality optimization treatment on water in the water treatment pipeline.

Optionally, a first cavity of the plurality of cavities is disposed with a filtering module;

the filtering module is used for filtering impurities of water in the water treatment pipeline in a preset filtering mode; the preset filtering mode comprises the following steps: sand filtration and/or screen filtration;

the water treatment pipeline comprises a first pipeline and a second pipeline which are connected in parallel in a first cavity;

the first cavity is provided with a first filtering regulating valve on a first pipeline;

the first cavity is provided with a second filtering regulating valve and a third filtering regulating valve on a second pipeline; the second filtering regulating valve and the third filtering regulating valve are respectively arranged at the left side and the right side of the filtering module;

the first water quality detection module is also used for controlling the first filtering regulating valve to be closed and controlling the second filtering regulating valve and the third filtering regulating valve to be opened when detecting that the turbidity of the water flowing into the first water quality detection module is larger than the preset turbidity;

the first water quality detection module is also used for controlling the first filtering regulating valve to be opened and controlling the second filtering regulating valve and the third filtering regulating valve to be closed when detecting that the turbidity of the water flowing into the first water quality detection module is less than or equal to the preset turbidity.

Optionally, a sterilization and algae removal module is disposed in a second cavity of the multiple cavities;

the sterilization and algae removal module is used for performing sterilization and algae removal treatment on water in the water treatment pipeline by adding a sterilization and algae removal medicament;

the water treatment pipeline comprises a first pipeline and a second pipeline which are connected in parallel in the second cavity;

the second cavity is provided with a first sterilization and algae removal regulating valve on the first pipeline;

the second cavity is provided with a second sterilization and algae removal regulating valve and a third sterilization and algae removal regulating valve on a second pipeline; the second sterilization algae removal regulating valve and the third sterilization algae removal regulating valve are respectively arranged on the left side and the right side of the sterilization algae removal module;

the first water quality detection module is also used for controlling the first sterilization and algae removal regulating valve to be closed and controlling the second sterilization and algae removal regulating valve and the third sterilization and algae removal regulating valve to be opened when the concentration of the organic matters in the water flowing into the first water quality detection module is detected to be greater than the preset concentration;

the first water quality detection module is also used for controlling the first sterilization and algae removal regulating valve to be opened and controlling the second sterilization and algae removal regulating valve and the third sterilization and algae removal regulating valve to be closed when detecting that the concentration of organic matters of water flowing into the first water quality detection module is less than or equal to the preset concentration.

Optionally, a corrosion inhibition module is disposed in a third cavity of the plurality of cavities;

the corrosion inhibition module is used for carrying out corrosion inhibition treatment on the water treatment pipeline by adding a corrosion inhibition medicament;

the water treatment pipeline comprises a first pipeline and a second pipeline which are connected in parallel in a third cavity;

a first corrosion inhibition regulating valve is arranged on the first pipeline of the third cavity;

a second corrosion inhibition regulating valve and a third corrosion inhibition regulating valve are arranged on the second pipeline of the third cavity; the second corrosion inhibition regulating valve and the third corrosion inhibition regulating valve are respectively arranged on the left side and the right side of the corrosion inhibition module;

the first water quality detection module is also used for controlling the first corrosion inhibition regulating valve to be closed and controlling the second corrosion inhibition regulating valve and the third corrosion inhibition regulating valve to be opened when the pH value of the water flowing into the first water quality detection module is greater than the preset pH value;

the first water quality detection module is also used for controlling the first corrosion inhibition regulating valve to be opened and controlling the second corrosion inhibition regulating valve and the third corrosion inhibition regulating valve to be closed when the pH value of the water flowing into the first water quality detection module is detected to be less than or equal to the preset pH value.

Optionally, a scale inhibition module is disposed in a fourth cavity of the plurality of cavities;

the scale inhibition module is used for performing scale inhibition treatment on the water treatment pipeline in a preset scale inhibition mode; the preset scale inhibition mode comprises the following steps: at least one of an electromagnetic suspension scale inhibition mode, a softening scale inhibition mode and an electromagnetic adsorption scale inhibition mode;

the water treatment pipeline comprises a first pipeline and a second pipeline which are connected in parallel in a fourth cavity;

a first scale inhibition regulating valve is arranged on the first pipeline of the fourth cavity;

a second scale inhibition regulating valve and a third scale inhibition regulating valve are arranged on a second pipeline of the fourth cavity; the second scale inhibition regulating valve and the third scale inhibition regulating valve are respectively arranged on the left side and the right side of the scale inhibition module;

the first water quality detection module is also used for controlling the first scale inhibition regulating valve to be closed and controlling the second scale inhibition regulating valve and the third scale inhibition regulating valve to be opened when the hardness of water flowing into the first water quality detection module is detected to be higher than the preset hardness;

the first water quality detection module is also used for controlling the first scale inhibition regulating valve to be opened and controlling the second scale inhibition regulating valve and the third scale inhibition regulating valve to be closed when the hardness of water flowing into the first water quality detection module is detected to be less than or equal to the preset hardness.

Optionally, a fifth cavity of the multiple cavities is a reserved module;

the reservation module is used for reserving the water treatment module.

Optionally, a power module is disposed in a sixth cavity of the multiple cavities;

the power module is used for adjusting the flow of water in the water treatment pipeline through the water pump.

Optionally, the water treatment device further comprises: a second water quality detection module;

the second water quality detection module is arranged on the water treatment pipeline and is connected with a water flow outlet of the water treatment tank body;

the second water quality detection module is used for outputting prompt information when detecting that the water quality of water at the water flow outlet of the water treatment box body does not meet the preset water quality condition; the prompt message is used for prompting the replacement of the water treatment module.

Optionally, the second water quality detection module is specifically configured to:

when detecting that the turbidity of water at a water flow outlet of the water treatment box body is larger than a preset turbidity, outputting prompt information for prompting the replacement of the filter module;

or when the concentration of the organic matters in the water at the water flow outlet of the water treatment box body is detected to be greater than the preset concentration, outputting prompt information for prompting the replacement of the sterilization and algae removal module;

or when the pH value of the water at the water flow outlet of the water treatment box body is detected to be larger than the preset pH value, outputting prompt information for prompting the replacement of the corrosion inhibition module;

or when the hardness of water at the water flow outlet of the water treatment box body is detected to be higher than the preset hardness, outputting prompt information for prompting the replacement of the scale inhibition module;

optionally, the water treatment device further comprises: a first regulating valve and a second regulating valve;

the first regulating valve and the second regulating valve are arranged on the water treatment pipeline;

the first regulating valve is connected with a water flow inlet of the first water quality detection module;

the second regulating valve is connected with a water flow outlet of the second water quality detection module;

the first water quality detection module is also used for controlling the opening degrees of the first regulating valve and the second regulating valve to be increased to a first preset value when detecting that the water quality of the water flowing into the first water quality detection module does not meet a preset water quality condition, and/or controlling the power module to increase the flow of the water in the water treatment pipeline through the water pump;

the first water quality detection module is also used for controlling the opening degrees of the first regulating valve and the second regulating valve to be reduced to a second preset value when detecting that the water quality of the water flowing into the first water quality detection module meets a preset water quality condition, and/or controlling the power module to reduce the flow of the water in the water treatment pipeline through the water pump.

The application can bring the following beneficial effects:

from the above, the water treatment device provided by the application can comprise the first water quality detection module and the water treatment box body which are sequentially arranged along the water flow direction. The water treatment tank body comprises a plurality of cavities which are sequentially arranged along the water flow direction; a water treatment module is disposed in at least one of the plurality of chambers. The first water quality detection module and the water treatment tank body are arranged on the water treatment pipeline, and the first water quality detection module is connected with a water flow inlet of the water treatment tank body. The first water quality detection module is used for detecting the water quality of water flowing into the first water quality detection module; the water treatment module is used for carrying out water quality optimization treatment on water in the water treatment pipeline.

Because the water treatment facilities that this application provided can follow the first water quality testing module and the water treatment box that rivers direction was deployed in proper order, consequently, this application can deploy the water treatment module in a plurality of cavitys in the water treatment box to carry out quality of water optimization through the water treatment module to the water in the water treatment pipeline and handle. Secondly, this application deploys water treatment module through water treatment box to and a plurality of cavitys in the water treatment box, can make things convenient for water treatment module installation and dismantlement in the box to realize nimble high efficiency and carry out quality of water optimization to the water in the water treatment pipeline and handle, improved the efficiency of the quality of water optimization among the central air conditioning system.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural view of a water treatment device provided by the present invention;

fig. 2 is a schematic structural diagram of another water treatment device provided by the present invention.

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 quality of water in the central air-conditioning system is related to the operation stability of the whole central air-conditioning system. When the water quality in the central air-conditioning system is poor, the service life of the air-conditioning equipment in the central air-conditioning system may be affected.

In order to prolong the service life of the air conditioning equipment in the central air conditioning system, the water quality in the central air conditioning system can be optimized. At present, water treatment devices in general central air-conditioning systems generally adopt modes such as water replenishing, electrostatic water treatment, medicament adding and the like to perform water treatment.

And the manual medicine adding method is mostly adopted for adding the medicine, the pollution discharge effect is poor, and the water quality in the central air-conditioning system cannot be effectively improved.

Based on the technical problem, the utility model provides a water treatment facilities can include the first water quality testing module and the water treatment box of following the rivers direction and deploying in proper order. The water treatment tank comprises a plurality of cavities which are sequentially arranged along the water flow direction; a water treatment module is disposed in at least one of the plurality of chambers. The first water quality detection module and the water treatment tank body are arranged on the water treatment pipeline, and the first water quality detection module is connected with a water flow inlet of the water treatment tank body. The first water quality detection module is used for detecting the water quality of water flowing into the first water quality detection module; the water treatment module is used for carrying out water quality optimization treatment on water in the water treatment pipeline.

Because the water treatment facilities that this application provided can follow first water quality testing module and the water treatment box that rivers direction was disposed in proper order, consequently, this application can dispose the water treatment module in a plurality of cavitys in the water treatment box to carry out quality of water optimization through the water treatment module to the water in the water treatment pipeline and handle. Secondly, this application deploys water treatment module through water treatment box to and a plurality of cavitys in the water treatment box, can make things convenient for water treatment module's installation and dismantlement in the box to realize nimble high efficiency and carry out quality of water optimization to the water in the water treatment pipeline and handle, improved the efficiency of quality of water optimization among the central air conditioning system.

Fig. 1 shows a schematic structural diagram of a water treatment device provided in an embodiment of the present application.

As shown in fig. 1, the water treatment apparatus includes: a first water quality detection module 1 and a water treatment box body 10 which are sequentially arranged along the water flow direction.

The water treatment tank body 10 comprises a plurality of cavities which are sequentially arranged along the water flow direction; a water treatment module is disposed in at least one of the plurality of cavities.

Fig. 1 illustrates an example in which the water treatment tank 10 includes a chamber 2, a chamber 3, a chamber 4, a chamber 5, a chamber 6, and a chamber 7 disposed in sequence along a water flow direction.

In an implementation manner, the water treatment tank 10 may be a tank made of metal, a tank made of plastic, or a tank made of other materials, which is not limited in this embodiment of the present application.

In one implementation, the size of the cavity in the water treatment tank 10 can be designed according to different water treatment modules.

The first water quality detection module and the water treatment box body are arranged on the water treatment pipeline, and the first water quality detection module is connected with a water flow inlet of the water treatment box body.

The first water quality detection module is used for detecting the water quality of water flowing into the first water quality detection module.

In a realizable manner, the first water quality detection module can detect water quality information such as turbidity, organic matter concentration, pH value, hardness, water conductivity, carbon steel corrosion rate, copper corrosion rate and the like of water flowing into the first water quality detection module.

The water treatment module is used for performing water quality optimization treatment on water in the water treatment pipeline.

In one implementation, the water treatment module can be a filtration module, a sterilization and algae removal module, a corrosion inhibition module, a scale inhibition module, a power module, and the like.

In one manner that may be achieved, as shown in fig. 2 in conjunction with fig. 1, a filtration module is disposed in a first cavity 2 of the plurality of cavities.

The filtering module is used for filtering impurities of water in the water treatment pipeline in a preset filtering mode; the preset filtering mode comprises the following steps: sand filtration and/or screen filtration.

Specifically, the sand filtration is a water filtration treatment process using natural quartz sand, usually manganese sand and anthracite, as a filter material.

The filter screen filtration is to carry out impurity filtration treatment on water in a water treatment pipeline by using a filter screen.

The water treatment conduit comprises a first conduit and a second conduit in parallel in the first chamber 2.

In this way, by arranging the first pipeline and the second pipeline in parallel, water in the water treatment pipeline can be controlled to enter the first pipeline or the second pipeline.

The first chamber 2 is provided with a first filtering and regulating valve V2a on the first pipe.

The first chamber 2 is provided with a second filtering and regulating valve V2b and a third filtering and regulating valve V2c on a second pipe.

The second filtration regulating valve V2b and the third filtration regulating valve V2c are disposed on the left and right sides of the filtration module, respectively.

The first water quality detection module 1 is also used for controlling the first filtering regulating valve V2a to be closed and controlling the second filtering regulating valve V2b and the third filtering regulating valve V2c to be opened when detecting that the turbidity of the water flowing into the first water quality detection module 1 is greater than the preset turbidity.

Specifically, when the first water quality detection module 1 detects that the turbidity of the water flowing into the first water quality detection module 1 is greater than the preset turbidity, it indicates that the water flowing into the first water quality detection module 1 needs to be filtered. In this case, the first water quality detecting module 1 may control the first filtering regulator valve V2a to be closed and the second filtering regulator valve V2b and the third filtering regulator valve V2c to be opened.

In this way, water in the water treatment conduit may flow into the filtration module through the second conduit. The filtering module can carry out filtering treatment on the water in the water treatment pipeline.

The first water quality detection module 1 is also used for controlling the first filtering regulating valve V2a to be opened and controlling the second filtering regulating valve V2b and the third filtering regulating valve V2c to be closed when detecting that the turbidity of the water flowing into the first water quality detection module 1 is less than or equal to the preset turbidity.

Specifically, when the first water quality detection module 1 detects that the turbidity of the water flowing into the first water quality detection module 1 is less than or equal to the preset turbidity, it indicates that the water flowing into the first water quality detection module 1 does not need to be filtered. In this case, the first water quality detecting module 1 may control the first filtering adjustment valve V2a to be opened and the second filtering adjustment valve V2b and the third filtering adjustment valve V2c to be closed.

Like this, water in the water treatment pipeline can directly flow into next water treatment module through first pipeline, need not filter module and carries out filtration treatment, has improved water treatment's efficiency.

In one implementation, referring to fig. 1, as shown in fig. 2, a sterilization and algae removal module is disposed in a second cavity 3 of the plurality of cavities;

the sterilization and algae removal module is used for performing sterilization and algae removal treatment on water in the water treatment pipeline by adding sterilization and algae removal agents.

Specifically, the sterilization and algae removal module is generally a dosing device, and can perform sterilization and algae removal treatment on water in the water treatment pipeline by adding a sterilization and algae removal agent.

The sterilization algicide has broad-spectrum and high-efficiency sterilization and algae killing capability, can effectively control the propagation of bacteria and algae and the growth of slime in water, has good slime stripping effect and certain dispersion and permeation effects, can effectively dig out the propagation of the algae and the growth of the slime, and has good sterilization in different pH value ranges; meanwhile, the oil-removing deodorant has certain oil-removing and deodorizing capabilities and corrosion-retarding effects.

The water treatment conduit comprises in the second chamber 3a first conduit and a second conduit connected in parallel.

In this way, by arranging the first pipeline and the second pipeline which are connected in parallel, water in the water treatment pipeline can be controlled to enter the first pipeline or the second pipeline.

The second cavity 3 is provided with a first sterilization and algae removal regulating valve V3a on the first pipeline.

The second cavity 3 is provided with a second sterilization and algae removal regulating valve V3b and a third sterilization and algae removal regulating valve V3c on a second pipeline.

The second sterilization algae removal regulating valve V3b and the third sterilization algae removal regulating valve V3c are respectively arranged at the left side and the right side of the sterilization algae removal module.

The first water quality detection module 1 is also used for controlling the first sterilization and algae removal regulating valve V3a to be closed and controlling the second sterilization and algae removal regulating valve V3b and the third sterilization and algae removal regulating valve V3c to be opened when detecting that the concentration of organic matters of the water flowing into the first water quality detection module 1 is greater than the preset concentration.

Specifically, when the first water quality detection module 1 detects that the concentration of organic matters in the water flowing into the first water quality detection module 1 is greater than the preset concentration, it indicates that the water flowing into the first water quality detection module 1 needs to be sterilized and algae removed. In this case, the first water quality detecting module 1 may control the first sterilization and algae removal adjusting valve V3a to be closed, and control the second sterilization and algae removal adjusting valve V3b and the third sterilization and algae removal adjusting valve V3c to be opened.

Thus, the water in the water treatment pipeline can flow into the sterilization and algae removal module through the second pipeline. The sterilization and algae removal module can perform sterilization and algae removal treatment on water in the water treatment pipeline.

The first water quality detection module 1 is also used for controlling the first sterilization and algae removal regulating valve V3a to be opened and controlling the second sterilization and algae removal regulating valve V3b and the third sterilization and algae removal regulating valve V3c to be closed when the organic matter concentration of the water flowing into the first water quality detection module 1 is detected to be less than or equal to the preset concentration.

Specifically, when the first water quality detection module 1 detects that the concentration of organic matters in the water flowing into the first water quality detection module 1 is less than or equal to the preset concentration, it indicates that the water flowing into the first water quality detection module 1 does not need to be sterilized and algae removed. In this case, the first water quality detecting module 1 may control the first sterilization and algae removal adjusting valve V3a to be opened, and control the second sterilization and algae removal adjusting valve V3b and the third sterilization and algae removal adjusting valve V3c to be closed.

Like this, water in the water treatment pipeline can directly flow into next water treatment module through first pipeline, need not to disinfect and goes out the algae module and disinfect and go out the algae processing, has improved water treatment's efficiency.

In one possible implementation, as shown in FIG. 2 in conjunction with FIG. 1, a corrosion inhibiting module is disposed in a third cavity 4 of the plurality of cavities.

The corrosion inhibition module is used for carrying out corrosion inhibition treatment on the water treatment pipeline by adding a corrosion inhibition medicament.

Specifically, the corrosion inhibition module is generally a dosing device, and can perform corrosion inhibition treatment on water in the water treatment pipeline by adding a corrosion inhibition agent.

Corrosion inhibiting agents are chemicals or compounds that, when present in the environment (medium) in appropriate concentrations and forms, can prevent or slow the corrosion of materials, and therefore corrosion inhibitors may also be referred to as corrosion inhibitors.

The water treatment conduit comprises a first conduit and a second conduit in parallel in a third chamber 4.

In this way, by arranging the first pipeline and the second pipeline in parallel, water in the water treatment pipeline can be controlled to enter the first pipeline or the second pipeline.

The third chamber 4 is provided with a first corrosion inhibition regulating valve V4a disposed on the first pipe.

The third cavity 4 is provided with a second corrosion inhibition regulating valve V4b and a third corrosion inhibition regulating valve V4c on a second pipeline.

The second corrosion inhibition regulating valve V4b and the third corrosion inhibition regulating valve V4c are respectively arranged at the left side and the right side of the corrosion inhibition module.

The first water quality detection module 1 is further configured to control the first corrosion inhibition regulating valve V4a to close and control the second corrosion inhibition regulating valve V4b and the third corrosion inhibition regulating valve V4c to open when detecting that the ph value of the water flowing into the first water quality detection module 1 is greater than a preset ph value.

Specifically, when the first water quality detection module 1 detects that the ph of the water flowing into the first water quality detection module 1 is greater than the preset ph, it indicates that the water flowing into the first water quality detection module 1 needs to be subjected to corrosion inhibition. In this case, the first water quality detection module 1 may control the first corrosion inhibition adjustment valve V4a to be closed, and control the second corrosion inhibition adjustment valve V4b and the third corrosion inhibition adjustment valve V4c to be opened.

Thus, water in the water treatment conduit can flow into the corrosion inhibition module through the second conduit. The corrosion inhibition module can carry out corrosion inhibition treatment on water in the water treatment pipeline.

The first water quality detection module 1 is further configured to control the first corrosion inhibition regulating valve V4a to open and control the second corrosion inhibition regulating valve V4b and the third corrosion inhibition regulating valve V4c to close when detecting that the ph value of the water flowing into the first water quality detection module 1 is less than or equal to a preset ph value.

Specifically, when the first water quality detection module 1 detects that the ph of the water flowing into the first water quality detection module 1 is less than or equal to the preset ph, it indicates that the water flowing into the first water quality detection module 1 does not need to be subjected to corrosion inhibition. In this case, the first water quality detection module 1 may control the first corrosion inhibition adjustment valve V4a to be opened, and control the second corrosion inhibition adjustment valve V4b and the third corrosion inhibition adjustment valve V4c to be closed.

Therefore, water in the water treatment pipeline can directly flow into the next water treatment module through the first pipeline, the corrosion inhibition module is not needed for corrosion inhibition treatment, and the water treatment efficiency is improved.

In one implementation, referring to fig. 1, as shown in fig. 2, a scale inhibiting module is disposed in a fourth cavity 5 of the plurality of cavities.

The scale inhibition module is used for performing scale inhibition treatment on the water treatment pipeline in a preset scale inhibition mode. The preset scale inhibition mode comprises the following steps: at least one of an electromagnetic suspension scale inhibition mode, a softening scale inhibition mode and an electromagnetic adsorption scale inhibition mode.

Specifically, the scale inhibition is a treatment process for preventing the generation of deposits on the heating surface of the heat exchange equipment by using a chemical or physical method.

The water treatment conduit comprises a first conduit and a second conduit in parallel in a fourth chamber 5.

In this way, by arranging the first pipeline and the second pipeline which are connected in parallel, water in the water treatment pipeline can be controlled to enter the first pipeline or the second pipeline.

The fourth cavity 5 is provided with a first scale inhibition and regulation valve V5a on the first pipeline.

The fourth cavity 5 is provided with a second scale inhibition regulating valve V5b and a third scale inhibition regulating valve V5c on the second pipeline.

The second scale inhibition regulating valve V5b and the third scale inhibition regulating valve V5c are respectively arranged at the left side and the right side of the scale inhibition module.

The first water quality detection module 1 is also used for controlling the first scale inhibition regulating valve V5a to be closed and controlling the second scale inhibition regulating valve V5b and the third scale inhibition regulating valve V5c to be opened when the hardness of the water flowing into the first water quality detection module 1 is detected to be greater than the preset hardness.

Specifically, when the first water quality detection module 1 detects that the hardness of the water flowing into the first water quality detection module 1 is greater than the preset hardness, it indicates that the water flowing into the first water quality detection module 1 needs to be subjected to scale inhibition. In this case, the first water quality detection module 1 can control the first scale inhibition regulating valve V5a to close, and control the second scale inhibition regulating valve V5b and the third scale inhibition regulating valve V5c to open.

In this way, water in the water treatment pipe can flow into the scale inhibition module through the second pipe. The scale inhibition can be used for scale inhibition treatment of water in the water treatment pipeline.

The first water quality detection module 1 is also used for controlling the first scale inhibition regulating valve V5a to be opened and controlling the second scale inhibition regulating valve V5b and the third scale inhibition regulating valve V5c to be closed when the hardness of the water flowing into the first water quality detection module 1 is detected to be less than or equal to the preset hardness.

Specifically, when the first water quality detection module 1 detects that the hardness of the water flowing into the first water quality detection module 1 is less than or equal to the preset hardness, it indicates that the water flowing into the first water quality detection module 1 does not need to be subjected to scale inhibition. In this case, the first water quality detection module 1 may control the first scale inhibition regulating valve V5a to be opened, and control the second scale inhibition regulating valve V5b and the third scale inhibition regulating valve V5c to be closed.

Therefore, water in the water treatment pipeline can directly flow into the next water treatment module through the first pipeline, the scale inhibition module is not needed for scale inhibition treatment, and the water treatment efficiency is improved.

In one implementation, as shown in fig. 2 in conjunction with fig. 1, a fifth cavity 6 of the plurality of cavities is a reservation module.

The reservation module is used for reserving the water treatment module.

Specifically, the reservation module may deploy various water treatment modules according to project investment or user requirements.

For example, when a user wants the hardness of water to be smaller, one scale inhibition module cannot reach the hardness of water to a preset hardness. Under the condition, the water treatment device provided by the embodiment of the application can be used for deploying a new scale inhibition module in the reserved module again, so that the hardness of water reaches the preset hardness, and the diversified requirements of users are met.

The water treatment conduit may also deploy the first conduit and the second conduit in parallel in the fifth chamber 6.

In this way, by arranging the first pipeline and the second pipeline which are connected in parallel, water in the water treatment pipeline can be controlled to enter the first pipeline or the second pipeline.

The fifth chamber 6 is provided with a first reserve adjustment valve V6a deployed on the first pipe.

The fifth chamber 6 is provided with a second reserved regulating valve V6b and a third reserved regulating valve V6c on the second pipeline.

The functions of the first reserved regulating valve V6a, the second reserved regulating valve V6b and the third reserved regulating valve V6c are the same as those of the regulating valves in the first cavity 2, the second cavity 3, the third cavity 4 and the fourth cavity 5, and are not described again here.

In one possible implementation, and as shown in fig. 2 in conjunction with fig. 1, a power module is deployed in a sixth cavity 7 of the plurality of cavities.

The power module is used for adjusting the flow of water in the water treatment pipeline through the water pump.

In one implementation, the water pump may also be connected in series with the water treatment line.

In one possible implementation manner, as shown in fig. 2 in conjunction with fig. 1, the water treatment apparatus further includes: and a second water quality detection module 8.

The second water quality detection module 8 is arranged on the water treatment pipeline and is connected with a water flow outlet of the water treatment box body.

The second water quality detection module 8 is used for outputting prompt information when detecting that the water quality of the water at the water flow outlet of the water treatment tank does not meet the preset water quality condition.

Wherein, the prompt message is used for prompting the replacement of the water treatment module.

Optionally, the prompt information may be a voice prompt through an audio output module, an image prompt through a display module, or other prompt modes, which is not limited in the embodiment of the present application.

Optionally, the second water quality detecting module 8 is specifically configured to:

when the turbidity of the water at the water outlet of the water treatment box body is detected to be larger than the preset turbidity, the output is used for prompting to replace the prompt message of the filter module.

Or when the organic matter concentration of the water at the water flow outlet of the water treatment box body is detected to be greater than the preset concentration, the prompt information for prompting the replacement of the sterilization and algae removal module is output.

Or when the pH value of the water at the water flow outlet of the water treatment box body is detected to be larger than the preset pH value, outputting prompt information for prompting the replacement of the corrosion inhibition module.

Or when the hardness of the water at the water flow outlet of the water treatment box body is detected to be higher than the preset hardness, outputting prompt information for prompting the replacement of the scale inhibition module.

Optionally, the water treatment device further comprises: a first regulating valve V1a and a second regulating valve V1b.

A first regulating valve V1a and a second regulating valve V1b are disposed on the water treatment pipe.

The first regulating valve V1a is connected with a water flow inlet of the first water quality detection module 1.

And the second regulating valve V1b is connected with a water flow outlet of the second water quality detection module 8.

The first water quality detection module 1 is further used for controlling the opening degrees of the first regulating valve V1a and the second regulating valve V1b to be increased to a first preset value when detecting that the water quality of the water flowing into the first water quality detection module 1 does not meet a preset water quality condition, and/or controlling the power module to increase the flow of the water in the water treatment pipeline through the water pump.

Like this, when the quality of water that flows into in first water quality testing module 1 does not satisfy when predetermineeing the quality of water condition, first water quality testing module 1 can be adjusted to first preset numerical value through the aperture of controlling first governing valve V1a and second governing valve V1b, and/or, the flow of water in the control power module passes through the water pump increase water treatment pipeline, and the water of control inflow water treatment pipeline is more a bit, and then carries out more processing to the water in the air conditioner.

The first water quality detection module 1 is further used for controlling the opening degrees of the first regulating valve V1a and the second regulating valve V1b to be reduced to a second preset value when detecting that the water quality of the water flowing into the first water quality detection module 1 meets a preset water quality condition, and/or controlling the power module to reduce the flow of the water in the water treatment pipeline through the water pump, so that the service life of the air conditioning equipment in the central air conditioning system is prolonged.

Like this, when the quality of water that flows into in first water quality testing module 1 satisfies when predetermineeing the quality of water condition, first water quality testing module 1 can be reduced to the second through the aperture of controlling first governing valve V1a and second governing valve V1b and predetermine numerical value, and/or, the flow of the water in the water treatment pipeline is reduced through the water pump to control power module, and the water that the control flowed into in the water treatment pipeline is few a bit, and then carries out less processing to the water in the air conditioner, the energy saving consumption.

From the above, the water treatment device that this application embodiment provided can nimble effect such as installation, nimble maintenance and intelligent operation.

Specifically, the water treatment device can select a required filtering module, a sterilization and algae removal module, a corrosion inhibition module, a scale inhibition module, a power module and the like according to project water quality characteristics, environmental protection requirements, customer requirements and the like, when initial investment cannot be determined or reduced, a reserved module can be arranged, and the module is required to be arranged in later-stage operation.

When one module breaks down, the water treatment device can close the related valve, and the related module is maintained or replaced, so that the safe operation of other modules is not influenced.

In addition, the water treatment device can adjust the valve opening (controlling the water flow of each module) and the operation state of each module according to the water quality condition, thereby reducing unnecessary resistance, reducing operation cost and facilitating intelligent control.

In the description herein, particular features, structures, materials, or characteristics may be combined in any suitable manner in any one or more embodiments or examples.

In the above embodiments, all or part of the implementation may be realized by software, hardware, firmware, or any combination thereof. When implemented using a software program, it may be implemented in whole or in part in the form of a computer program product. The computer program product includes one or more computer instructions. The processes or functions according to the embodiments of the present application are generated in whole or in part when the computer-executable instructions are loaded and executed on a computer. The computer may be a general purpose computer, a special purpose computer, a network of computers, or other programmable device. The computer instructions may be stored on a computer readable storage medium or transmitted from one computer readable storage medium to another computer readable storage medium, for example, the computer instructions may be transmitted from one website, computer, server, or data center to another website, computer, server, or data center via wired (e.g., coaxial cable, fiber optic, digital Subscriber Line (DSL)) or wireless (e.g., infrared, wireless, microwave, etc.) means. Computer-readable storage media can be any available media that can be accessed by a computer or can comprise one or more data storage devices, such as servers, data centers, and the like, that can be integrated with the media. The usable medium may be a magnetic medium (e.g., a floppy disk, a hard disk, a magnetic tape), an optical medium (e.g., a DVD), or a semiconductor medium (e.g., a Solid State Disk (SSD)), among others.

Through the above description of the embodiments, it is clear to those skilled in the art that, for convenience and simplicity of description, the foregoing division of the functional modules is merely used as an example, and in practical applications, the above function distribution may be completed by different functional modules according to needs, that is, the internal structure of the device may be divided into different functional modules to complete all or part of the above described functions.

In the several embodiments provided in the present disclosure, it should be understood that the disclosed apparatus and method may be implemented in other manners. For example, the above-described apparatus embodiments are merely illustrative, and for example, the division of the modules or units is only one logical function division, and there may be other division ways in actual implementation. For example, various elements or components may be combined or may be integrated into another device, or some features may be omitted, or not implemented. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, devices or units, and may be in an electrical, mechanical or other form. Units described as separate parts may or may not be physically separate, and parts displayed as units may be one physical unit or a plurality of physical units, may be located in one place, or may be distributed to a plurality of different places. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, functional units in the embodiments of the present invention may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit may be implemented in the form of hardware, or may also be implemented in the form of a software functional unit. The integrated unit, if implemented in the form of a software functional unit and sold or used as a stand-alone product, may be stored in a readable storage medium. Based on such understanding, the technical solutions of the embodiments of the present invention may be substantially implemented as a software product, or all or part of the technical solutions may be implemented in a storage medium, and the software product includes several instructions to make a device (which may be a single chip, a chip, etc.) or a processor (processor) execute all or part of the steps of the method according to the embodiments of the present invention. And the aforementioned storage medium includes: various media capable of storing program codes, such as a U disk, a removable hard disk, a ROM, a RAM, a magnetic disk, or an optical disk.

The above embodiments are only specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention should be covered by the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. A water treatment device, comprising: the first water quality detection module and the water treatment box body are sequentially arranged along the water flow direction; the water treatment box body comprises a plurality of cavities which are sequentially arranged along the water flow direction; a water treatment module is deployed in at least one of the plurality of cavities;

the first water quality detection module and the water treatment tank body are arranged on a water treatment pipeline, and the first water quality detection module is connected with a water flow inlet of the water treatment tank body;

the first water quality detection module is used for detecting the water quality of water flowing into the first water quality detection module;

the water treatment module is used for carrying out water quality optimization treatment on water in the water treatment pipeline.

2. The water treatment device of claim 1, wherein a first chamber of the plurality of chambers has a filtration module disposed therein;

the filtering module is used for filtering impurities of the water in the water treatment pipeline in a preset filtering mode; the preset filtering mode comprises the following steps: sand filtration and/or screen filtration;

the water treatment pipeline comprises a first pipeline and a second pipeline which are connected in parallel in the first cavity;

the first cavity is provided with a first filtering regulating valve on the first pipeline;

a second filtering regulating valve and a third filtering regulating valve are arranged on the second pipeline of the first cavity; the second filtering regulating valve and the third filtering regulating valve are respectively arranged at the left side and the right side of the filtering module;

the first water quality detection module is also used for controlling the first filtering regulating valve to be closed and controlling the second filtering regulating valve and the third filtering regulating valve to be opened when detecting that the turbidity of the water flowing into the first water quality detection module is greater than a preset turbidity;

the first water quality detection module is also used for controlling the first filtering regulating valve to be opened and controlling the second filtering regulating valve and the third filtering regulating valve to be closed when detecting that the turbidity of water flowing into the first water quality detection module is less than or equal to the preset turbidity.

3. The water treatment device of claim 1, wherein a sterilizing and algae removal module is disposed in a second chamber of the plurality of chambers;

the sterilization and algae removal module is used for performing sterilization and algae removal treatment on water in the water treatment pipeline by adding sterilization and algae removal agents;

the water treatment pipeline comprises a first pipeline and a second pipeline which are connected in parallel in the second cavity;

a first sterilization and algae removal regulating valve is arranged on the first pipeline of the second cavity;

a second sterilization and algae removal regulating valve and a third sterilization and algae removal regulating valve are arranged on the second pipeline of the second cavity; the second sterilization and algae removal regulating valve and the third sterilization and algae removal regulating valve are respectively arranged on the left side and the right side of the sterilization and algae removal module;

the first water quality detection module is also used for controlling the first sterilization and algae removal regulating valve to be closed and controlling the second sterilization and algae removal regulating valve and the third sterilization and algae removal regulating valve to be opened when the concentration of organic matters in the water flowing into the first water quality detection module is detected to be greater than the preset concentration;

the first water quality detection module is also used for controlling the first sterilization and algae removal regulating valve to be opened and controlling the second sterilization and algae removal regulating valve and the third sterilization and algae removal regulating valve to be closed when detecting that the concentration of organic matters of water flowing into the first water quality detection module is less than or equal to the preset concentration.

4. The water treatment device of claim 1, wherein a corrosion inhibiting module is disposed in a third chamber of the plurality of chambers;

the corrosion inhibition module is used for carrying out corrosion inhibition treatment on the water treatment pipeline by adding a corrosion inhibition medicament;

the water treatment pipeline comprises a first pipeline and a second pipeline which are connected in parallel in the third cavity;

the third cavity is provided with a first corrosion inhibition regulating valve on the first pipeline;

a second corrosion inhibition adjusting valve and a third corrosion inhibition adjusting valve are arranged on the second pipeline in the third cavity; the second corrosion inhibition regulating valve and the third corrosion inhibition regulating valve are respectively arranged on the left side and the right side of the corrosion inhibition module;

the first water quality detection module is also used for controlling the first corrosion inhibition regulating valve to be closed and controlling the second corrosion inhibition regulating valve and the third corrosion inhibition regulating valve to be opened when the pH value of the water flowing into the first water quality detection module is detected to be larger than the preset pH value;

the first water quality detection module is also used for controlling the first corrosion inhibition regulating valve to be opened and controlling the second corrosion inhibition regulating valve and the third corrosion inhibition regulating valve to be closed when the pH value of the water flowing into the first water quality detection module is detected to be less than or equal to the preset pH value.

5. The water treatment device of claim 1, wherein a scale inhibition module is disposed in a fourth chamber of the plurality of chambers;

the scale inhibition module is used for performing scale inhibition treatment on the water treatment pipeline in a preset scale inhibition mode; the preset scale inhibition mode comprises the following steps: at least one of an electromagnetic suspension scale inhibition mode, a softening scale inhibition mode and an electromagnetic adsorption scale inhibition mode;

the water treatment pipeline comprises a first pipeline and a second pipeline which are connected in parallel in the fourth cavity;

a first scale inhibition and regulation valve is arranged on the first pipeline of the fourth cavity;

a second scale inhibition regulating valve and a third scale inhibition regulating valve are arranged on the second pipeline of the fourth cavity; the second scale inhibition and regulation valve and the third scale inhibition and regulation valve are respectively arranged on the left side and the right side of the scale inhibition module;

the first water quality detection module is also used for controlling the first scale inhibition regulating valve to be closed and controlling the second scale inhibition regulating valve and the third scale inhibition regulating valve to be opened when the hardness of water flowing into the first water quality detection module is detected to be greater than the preset hardness;

the first water quality detection module is also used for controlling the first scale inhibition regulating valve to be opened and controlling the second scale inhibition regulating valve and the third scale inhibition regulating valve to be closed when the hardness of water flowing into the first water quality detection module is detected to be less than or equal to the preset hardness.

6. The water treatment device of claim 1, wherein a fifth chamber of the plurality of chambers is a reservation module;

the reservation module is used for reserving and deploying the water treatment module.

7. The water treatment device of claim 1, wherein a power module is disposed in a sixth chamber of the plurality of chambers;

the power module is used for adjusting the flow of water in the water treatment pipeline through a water pump.

8. The water-treating device according to any one of claims 1 to 7, further comprising: a second water quality detection module;

the second water quality detection module is deployed on the water treatment pipeline and is connected with a water flow outlet of the water treatment tank body;

the second water quality detection module is used for outputting prompt information when detecting that the water quality of water at the water flow outlet of the water treatment tank body does not meet a preset water quality condition; and the prompt information is used for prompting the replacement of the water treatment module.

9. The water treatment device of claim 8, wherein the second water quality detection module is specifically configured to:

when detecting that the turbidity of water at a water flow outlet of the water treatment box body is larger than a preset turbidity, outputting prompt information for prompting the replacement of a filter module;

or when the concentration of the organic matters in the water at the water flow outlet of the water treatment box body is detected to be greater than the preset concentration, outputting prompt information for prompting the replacement of the sterilization and algae removal module;

or when the pH value of the water at the water flow outlet of the water treatment box body is detected to be larger than the preset pH value, outputting prompt information for prompting the replacement of the corrosion inhibition module;

or when the hardness of the water at the water flow outlet of the water treatment box body is detected to be higher than the preset hardness, outputting prompt information for prompting the replacement of the scale inhibition module.

10. The water treatment apparatus as recited in claim 8, further comprising: a first regulating valve and a second regulating valve;

the first and second regulating valves are deployed on the water treatment pipe;

the first regulating valve is connected with a water flow inlet of the first water quality detection module;

the second regulating valve is connected with a water flow outlet of the second water quality detection module;

the first water quality detection module is further used for controlling the opening degrees of the first regulating valve and the second regulating valve to be increased to a first preset value when the water quality of the water flowing into the first water quality detection module is detected not to meet the preset water quality condition, and/or controlling the power module to increase the flow of the water in the water treatment pipeline through the water pump;

the first water quality detection module is further used for controlling the opening degrees of the first regulating valve and the second regulating valve to be reduced to a second preset value when the water quality of the water flowing into the first water quality detection module is detected to meet the preset water quality condition, and/or controlling the power module to reduce the flow of the water in the water treatment pipeline through the water pump.

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