CN113802641A - Bathroom shower water intelligence recovery unit based on thing networking - Google Patents

Abstract

The intelligent bathroom shower water recovery device based on the Internet of things comprises a shell structure, wherein a control equipment mechanism and a detection device are respectively arranged in the shell structure, the control equipment mechanism is installed at the top of the shell structure, and the detection device is installed at the bottom of the shell structure; the shell structure is including mounting disc, grid tray structure and lower floor's water-collecting container, and the grid tray structure sets up at the mounting disc upper surface, and the mounting disc lower part still is provided with upper water-collecting container, and lower floor's water-collecting container cooperation is installed on this upper water-collecting container, and detection device sets up in this upper water-collecting container, still is provided with the water pump at lower floor's water-collecting container, this water pump with detection device all with controlgear mechanism electric connection. The invention realizes the full automation of the intelligent recovery of the water for the shower of the toilet, and comprises the steps of detecting whether the water quantity reaches a recoverable threshold value, and recovering the waste water for secondary utilization when detecting whether the water quality reaches the recoverable threshold value.

Description

Bathroom shower water intelligence recovery unit based on thing networking

Technical Field

The invention relates to the technical field of waste water recycling equipment, in particular to an intelligent bathroom shower water recycling device based on the Internet of things.

Background

The importance of water resources, particularly fresh water resources, is increasingly known, and without water, there is no life. However, fresh water resources are not inexhaustible natural resources, only three percent of water on the earth is fresh water, all terrestrial life is rooted and depends on the fresh water resources, the distribution of life on the earth is determined, species with rich species are bred, and the places with fresh water have lives no matter in mountains or at the bottom of lakes. All living activities of human society are difficult to leave fresh water resources, so the conservation and utilization of water resources are also more and more important matters for people.

Bathing is an indispensable thing in people's lives and needs a large amount of water; it is known that the waste water generated by bathing is not highly polluted water, and can be reused in many places in the family life, such as the flushing of toilet bowls, but the waste water used once is usually directly flowed along a sewer, which naturally causes a great deal of waste, and the waste water is very unfavorable for the protection and use of national fresh water resources while the cost burden of the family life is increased.

Disclosure of Invention

The invention provides an intelligent bathroom shower water recycling device based on the Internet of things, which is simple in structure, easy to install, disassemble and use, can be safely used in a humid environment, realizes the full automation of the intelligent recycling of bathroom shower water, and comprises the steps of detecting whether the water quantity reaches a recyclable threshold value and recycling the waste water for secondary utilization when detecting whether the water quality reaches the recyclable threshold value.

The specific technical scheme is as follows:

in a first aspect, the invention provides an intelligent bathroom shower water recovery device based on the Internet of things, which comprises a shell structure, wherein a control device mechanism and a detection device are respectively arranged in the shell structure, the control device mechanism is installed at the top of the shell structure, and the detection device is installed at the bottom of the shell structure;

the shell structure comprises a mounting disc, a grid plate structure and a lower-layer water collecting container, wherein the grid plate structure is arranged on the upper surface of the mounting disc, the lower part of the mounting disc is further provided with an upper-layer water collecting container, the lower-layer water collecting container is installed on the upper-layer water collecting container in a clearance fit mode, a detection device is arranged in the upper-layer water collecting container, the lower-layer water collecting container is further provided with a water pump, and the water pump and the detection device are electrically connected with a control equipment mechanism.

The realization principle is as follows: when a user enters a bathroom and is going to take a shower, the cost device is replaced by the leakage net of the floor drain, when showering, the water for showering flows from the grid structure to the upper surface of the mounting plate, so as to enter the upper water collecting container, at the moment, the detection device detects the values of water quantity and turbidity, the control equipment mechanism judges whether the values reach the standard threshold value of recovery, the water pump is started when the values reach the threshold value, the shower water flows into the lower-layer water collecting container at the moment, the recovery and the reutilization of the shower water are started, the detection device detects and counts the quantity of the recovered water, the water pump works in the period until the detection device cannot detect that the water level reaches the preset height or the turbidity does not accord with the preset value, the water pump stops working, wherein the waste water which is not qualified can overflow to the sewer from the gap between the lower layer water collecting container and the upper layer water collecting container after being accumulated to a certain degree.

As an optimization: the detection device comprises a turbidity sensor, a liquid level sensor and a water flow sensor, the turbidity sensor and the liquid level sensor are sequentially arranged from top to bottom inside the upper-layer water collecting container, the water inlet end of the water pump is communicated with the lower-layer water collecting container, the water outlet end is connected with the water flow sensor in series through a water pumping pipe, and the water outlet end of the water flow sensor is connected with a waste water recovery pipeline.

As an optimization: the grid plate structure is provided with a grid plate which is uniformly arranged at the edge of the mounting plate in a surrounding way, and the water outlet end of the wastewater recovery pipeline penetrates out of the grid plate structure.

As an optimization: the shell structure is further provided with a control equipment sealing shell, the control equipment sealing shell is arranged at the top end of the grid plate structure, the control equipment mechanism is arranged inside the control equipment sealing shell in a sealing mode, a mounting frame is further arranged on the outer wall of the bottom of the control equipment sealing shell, and the water flow sensor and the water inlet end of the wastewater recovery pipeline are both mounted on the mounting frame.

As an optimization: the control equipment mechanism comprises a main controller, a storage battery, a relay, a charging module and a switch; the signal input end of the main controller is respectively connected with a turbidity sensor, a liquid level sensor and a water flow sensor; the control end of the main controller is connected with the control end of the relay, and the switch end of the relay is connected with the control end of the water pump; the communication end of the main controller is connected with a Bluetooth module, and the Bluetooth module is wirelessly connected with a handheld terminal; the storage battery supplies power to the main controller, the turbidity sensor, the liquid level sensor, the flow sensor and the water pump.

As an optimization: the control device seal shell inner wall still is provided with the support frame, bluetooth module and main control unit are all installed on this support frame be provided with the interface that charges on the device seal shell inner wall, the module that charges and this interface electric connection that charges still seal at the interface end of this interface that charges and be provided with sealing rubber stopper.

As an optimization: the top of the lower water collecting container is provided with a buckle, the outer wall of the top of the upper water collecting container is also sleeved with a sealing washer, the middle of the upper water collecting container is also provided with a telescopic mechanism, and the bottom of the upper water collecting container is also provided with a filter screen;

the telescopic mechanism comprises a telescopic spring and a sliding ring, the sliding ring is arranged at one end of the telescopic spring in a sliding mode, the other end of the telescopic spring is fixedly connected to the upper-layer water collecting container, the sliding ring is buckled on the sliding ring in a buckling mode, and a water outlet is further formed in the upper portion of the lower-layer water collecting container.

In a second aspect, the invention provides a working method of an intelligent bathroom shower water recovery device based on the Internet of things, which comprises the following specific steps:

the method comprises the following steps: starting a control equipment power supply;

step two: detecting whether the water quantity of the lower water collecting container reaches a set value, if so, entering the next step, otherwise, entering the fifth step;

step three: detecting whether the turbidity in the upper water collecting container reaches a set value, if so, entering the next step, otherwise, entering the fifth step;

step four: sending a control instruction, starting a water pump, pumping the shower water into a waste water recycling and storing module, and entering the step two;

step five: sending a water pump stopping instruction;

step six: the quantity data are collected through the water flow sensor, and the flow data are uploaded to the handheld terminal through the Bluetooth module.

The invention has the beneficial effects that: the device has small volume and convenient installation and use, can be used only by replacing the drain screen with the installation disc and installing the drain screen on the ground drain hole, and when showering, shower water flows through the grid plate structure to filter out larger particles in the wastewater so as to prevent the wastewater from blocking sewers, such as hairs and the like, and then flows to the upper surface of the installation disc and then enters the upper-layer water collecting container, and is further filtered by the filter screen of the upper-layer water collecting container, so that the risk of blocking the sewers is reduced; when the water for shower is used in the upper water collecting container, the water quantity and the information of the degree of turbidity are transmitted to the main controller by the liquid level sensor and the turbidity sensor to automatically judge whether the water reaches the recovery standard, if the water reaches the standard, the main controller controls the relay to electrify the water pump so that the water for shower is pumped out of the lower water collecting container for secondary utilization, the whole process does not need manual operation, and a storage battery is arranged in the device for supplying power without additionally arranging an electric circuit; meanwhile, the Bluetooth module is arranged, so that the mobile phone of the user can be in data connection with the device, the user can check the working state of the device and the information such as historical water saving amount and the like through the mobile phone, the participation sense of the user is increased, the utilization rate of the user is increased, and more water resources can be saved.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is an exploded view of the overall internal structure of the present invention.

Fig. 3 is an overall sectional structure diagram of the present invention.

Fig. 4 is a schematic view of the installation structure of the detection device and the water pump in the invention.

Fig. 5 is a schematic structural diagram of a control device mechanism in the present invention.

Fig. 6 is a schematic structural view of the telescopic mechanism of the present invention.

Fig. 7 is a schematic flow chart of the present invention.

Description of reference numerals: a housing structure 1; a control device mechanism 2; a sealing gasket 3; a detection device 4; a water pump 5; a water pumping pipe 6; a waste water recovery pipeline 7; a telescoping mechanism 8; a mounting plate 11; a grid structure 12; a lower water collecting container 13; an upper water collecting container 14; a control device seal case 15; a mounting frame 16; a support frame 17; a buckle 18; a water outlet 19; a main controller 21; a storage battery 22; a relay 23; a charging module 24; a switch 25; a charging interface 26; a boost module 27; a Bluetooth module 28; a sealing rubber plug 29; a turbidity sensor 41; a liquid level sensor 42; a water flow rate sensor 43; a tension spring 81; a slip ring 82.

Detailed Description

The following detailed description of the preferred embodiments of the present invention, taken in conjunction with the accompanying drawings, will make the advantages and features of the invention easier to understand by those skilled in the art, and thus will clearly and clearly define the scope of the invention.

Example of implementation:

as shown in fig. 1, 2, 3, 4, 5 and 6: bathroom shower water intelligence recovery unit based on thing networking is provided with shell structure 1, is provided with controlgear mechanism 2 and detection device 4 respectively in shell structure 1 is inside, and controlgear mechanism 2 installs at shell structure 1 top, and detection device 4 installs in shell structure 1 bottom.

Shell structure 1 is provided with mounting disc 11, grid tray structure 12 and lower floor's water-collecting container 13, lower part at mounting disc 11 center still is provided with upper water-collecting container 14, grid tray structure 12 sets up at mounting disc 11 upper surface, and grid tray structure 12 is provided with the grid tray, this grid tray evenly encircles the setting at mounting disc 11 edge, gap between this grid tray structure 12's the grid tray is convenient for the shower water can follow the upper water-collecting container 14 at the eight sides entering mounting disc 11 center in four sides, and by grid tray structure 12 primary filter shower water, alleviate sewer jam risk.

The top of the lower layer water collecting container 13 is provided with a buckle 18, the outer wall of the top of the upper layer water collecting container 14 is also sleeved with a sealing gasket 3, and the middle part of the upper layer water collecting container 14 is also provided with a telescopic mechanism 8.

Telescopic machanism 8 is provided with expanding spring 81 and slip ring 82, slip ring 82 slides and sets up in expanding spring 81 one end, expanding spring 81 other end fixed connection is on upper water-collecting container 14, buckle 18 cooperation lock joint is on this slip ring 82, thereby lower floor's water-collecting container 13 top movable mounting is in upper water-collecting container 14 middle part, delivery port 19 has still been seted up on lower floor's water-collecting container 13 upper portion, delivery port 19 all is located buckle 18 below, when ponding is too much in lower floor's water-collecting container 13, slip ring 82 compression expanding spring 81 that buckle 18 connects is being pressed to gravity, make slip ring 82 slide downwards, thereby expose delivery port 19, let during a large amount of waste water that does not conform to the standard flows into the sewer through delivery port 19.

Be provided with water pump 5 in lower floor's catchment container 13, this water pump 5 is arranged in extracting the shower water in lower floor's catchment container 13, still is provided with the filter screen in upper strata catchment container 14 bottoms, and this filter screen carries out secondary filter to the shower water, when preventing to block up the sewer, prevents that the large granule from blocking the water pump 5 of work, influences its normal recovery waste water work.

Detection device 4 is including turbidity sensor 41, level sensor 42 and water flow sensor 43, this turbidity sensor 41 sets gradually inside upper water collecting container 14 from last to lower with level sensor 42, the end of intaking of above-mentioned water pump 5 and lower floor water collecting container 13 intercommunication, it is connected with drinking-water pipe 6 to go out the water end, 6 end-to-end connections of drinking-water pipe have water flow sensor 43, this water flow sensor 43's play water end is connected with waste water recovery pipeline 7, and this waste water recovery pipeline 7 goes out water end and wears out from grid structure 12, and insert places such as closestool water storage box and wait for by reutilization.

Shell structure 1 still is provided with controlgear seal shell 15, this controlgear seal shell 15 sets up on grid tray structure 12's top for shower water can not dip-dye equipment seal shell 15 in a large number, has improved its waterproof grade, and inside controlgear mechanism 2 sealed the setting at this controlgear seal shell 15, still is provided with mounting bracket 16 at this controlgear seal shell 15 bottom outer wall, water flow sensor 43 all installs on this mounting bracket 16 with waste water recovery pipeline 7 intake end.

Controlgear mechanism 2 is provided with main control unit 21, battery 22, relay 23, charge module 24 and switch 25, the module 24 input that charges is provided with interface 26 and the boost module 27 that charges respectively with the output, boost module 27, relay 23 and main control unit 21 all with battery 22 electric connection, and relay 23, switch 25, turbidity sensor 41, level sensor 42 and water flow sensor 43 all with main control unit 21 electric connection, water pump 5 and relay 23 electric connection.

Main control unit 21 is the less STM32f103c8t6 system board of volume, when having satisfied basic control function, be convenient for reduce the volume of whole device, and main control unit 21 electric connection has bluetooth module 28, still be provided with support frame 17 at controlgear seal shell 15 inner wall, bluetooth module 28 and main control unit 21 are all installed on support frame 17, the above-mentioned interface 26 that charges sets up on controlgear seal shell 15 inner wall, it is provided with sealing rubber stopper 29 still to seal at this interface 26 interface end that charges, prevent that steam from charging interface 26 department and soaking and disturb its internal circuit work in the use.

Referring to fig. 7, the wastewater reclamation process of the present invention includes the following aspects:

the device is arranged on a floor drain through a mounting plate 11, so that the water for showering flows into an upper layer water collecting container 14 through the gaps between the grid structures 12; the shower water flowing into the upper water collecting container 14 passes through the liquid level sensor 42 and the turbidity sensor 41 in sequence to determine whether the water amount and the degree of turbidity meet the recovery standards, and transmits the information of whether the water amount and the degree of turbidity meet the standards to the main controller 21.

Shower water flows into the lower water collecting container 13 after being simply filtered through the filter screen at the bottom of the upper water collecting container 14, and if the main controller 21 receives information that the water volume and the degree of turbidity do not reach the standard, the shower water directly flows into a sewer through a gap between the lower water collecting container 13 and the upper water collecting container 14.

If the main controller 21 receives the information that both the water quantity and the degree of turbidity reach the standard, the shower water in the lower water collecting container 13 is pumped out through the water pump 5 and the water pumping pipe 6, and the information of the collected water quantity is counted by the water flow sensor 43 and transmitted to the main controller 21. Finally, the shower water which is suitable for secondary utilization is conveyed to a water storage tank of equipment such as a closestool through a waste water recovery pipeline 7 to wait for secondary utilization.

Simultaneously, all provide operating power supply for main control unit 21 and water pump 5 through battery 22 in the device use, and at the shower water in the recovery process, if main control unit 21 receives the water yield or when the clear and turbid degree feedback information that does not reach standard, control relay 23 through main control unit 21 and break off water pump 5's power at once for its stop work prevents that water pump 5 from extracting the sewage that does not reach standard, also prevents the extravagant electric energy of water pump 5 idle running.

The Bluetooth module 28 enables the user mobile phone to perform data connection with the device. The user can check the working state of the device, the historical water saving amount and other information through the mobile phone, so that the participation sense of the user is increased, and the user is more willing to use the device during each shower.

According to the working method of the intelligent bathroom shower water recovery device based on the Internet of things, the method comprises the following specific steps:

the method comprises the following steps: starting a control equipment power supply;

step two: detecting whether the water quantity of the lower water collecting container 13 reaches a set value, if so, entering the next step, otherwise, entering the fifth step;

step three: detecting whether the turbidity degree in the upper water collecting container 14 reaches a set value, if so, entering the next step, otherwise, entering the fifth step;

step four: sending a control instruction, starting the water pump 5, pumping the shower water into the waste water recycling and storing module, and entering the step two;

step five: sending a command of stopping the water pump 5;

step six: the quantity data is collected by the water flow sensor 43 and the flow data is uploaded to the handheld terminal through the bluetooth module 28.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims.

Claims (8)

1. Bathroom shower water intelligence recovery unit based on thing networking, its characterized in that: the device comprises a shell structure (1), wherein a control equipment mechanism (2) and a detection device (4) are respectively arranged in the shell structure (1), the control equipment mechanism (2) is installed at the top of the shell structure (1), and the detection device (4) is installed at the bottom of the shell structure (1);

shell structure (1) is including mounting disc (11), grid tray structure (12) and lower floor's water-collecting container (13), grid tray structure (12) set up at mounting disc (11) upper surface, and mounting disc (11) lower part still is provided with upper water-collecting container (14), lower floor's water-collecting container (13) clearance fit installs on this upper water-collecting container (14), just detection device (4) set up in this upper water-collecting container (14) lower floor's water-collecting container (13) still are provided with water pump (5), this water pump (5) and detection device (4) all with controlgear mechanism (2) electric connection.

2. The intelligent bathroom shower water recycling device based on the Internet of things as claimed in claim 1, wherein: detection device (4) are including turbidity sensor (41), level sensor (42) and water flow sensor (43), and this turbidity sensor (41) sets gradually under to from last upper water collecting container (14) is inside with level sensor (42), the end of intaking of water pump (5) with lower floor water collecting container (13) intercommunication, water outlet end have concatenated water flow sensor (43) through drinking-water pipe (6), and the play water end of this water flow sensor (43) is connected with waste water recovery pipeline (7).

3. The intelligent bathroom shower water recycling device based on the Internet of things as claimed in claim 2, wherein: the grid plate structure (12) is provided with grid plates which are uniformly arranged at the edge of the mounting plate (11) in a surrounding manner, and the water outlet end of the wastewater recovery pipeline (7) penetrates out of the grid plate structure (12).

4. The intelligent bathroom shower water recycling device based on the Internet of things as claimed in claim 3, wherein: shell structure (1) still is provided with controlgear seal shell (15), and this controlgear seal shell (15) set up the top of grid tray structure (12), just inside controlgear mechanism (2) seal set up this controlgear seal shell (15), still be provided with mounting bracket (16) at this controlgear seal shell (15) bottom outer wall, water flow sensor (43) and waste water recovery pipeline (7) intake the end and all install on this mounting bracket (16).

5. The intelligent bathroom shower water recycling device based on the Internet of things as claimed in claim 4, wherein: the control equipment mechanism (2) comprises a main controller (21), a storage battery (22), a relay (23), a charging module (24) and a switch (25);

the signal input end of the main controller (21) is respectively connected with a turbidity sensor (41), a liquid level sensor (42) and a water flow sensor (43);

the control end of the main controller (21) is connected with the control end of the relay (23), and the switch end of the relay (23) is connected with the control end of the water pump (5);

the communication end of the main controller (21) is connected with a Bluetooth module (28), and the Bluetooth module (28) is wirelessly connected with a handheld terminal;

the storage battery (22) supplies power to the main controller (21), the turbidity sensor (41), the liquid level sensor (42), the flow sensor (43) and the water pump (5).

6. The intelligent bathroom shower water recycling device based on the Internet of things of claim 5, characterized in that: controlgear seal shell (15) inner wall still is provided with support frame (17), bluetooth module (28) and main control unit (21) are all installed on this support frame (17) be provided with interface (26) that charge on equipment seal shell (15) inner wall, module (24) and this interface (26) electric connection that charges still seal and be provided with sealing rubber stopper (29) at this interface (26) interface end that charges.

7. The intelligent bathroom shower water recycling device based on the Internet of things as claimed in claim 6, wherein: a buckle (18) is arranged at the top of the lower water collecting container (13), a sealing washer (3) is sleeved on the outer wall of the top of the upper water collecting container (14), a telescopic mechanism (8) is arranged in the middle of the upper water collecting container (14), and a filter screen is arranged at the bottom of the upper water collecting container (14);

telescopic machanism (8) are including expanding spring (81) and slip ring (82), slip ring (82) slide to set up in expanding spring (81) one end, and expanding spring (81) other end fixed connection is on upper collecting container (14), buckle (18) cooperation buckle is on this slip ring (82) lower floor collecting container (13) upper portion has still seted up delivery port (19).

8. The working method of the intelligent bathroom shower water recycling device based on the Internet of things as claimed in claim 6 or 7, is characterized by comprising the following specific steps:

the method comprises the following steps: starting a control equipment power supply;

step two: detecting whether the water quantity of the lower water collecting container (13) reaches a set value, if so, entering the next step, otherwise, entering the fifth step;

step three: detecting whether the turbidity in the upper water collecting container (14) reaches a set value, if so, entering the next step, otherwise, entering the fifth step;

step four: sending a control instruction, starting a water pump (5), pumping the shower water into a waste water recycling and storing module, and entering the step two;

step five: sending a command for stopping the water pump (5);

step six: the quantity data is collected through a water flow sensor (43), and the flow data is uploaded to the handheld terminal through a Bluetooth module (28).

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