CN107816091B - Water outlet device and water outlet adjusting method thereof - Google Patents

Abstract

The disclosure provides a water outlet device and a water outlet adjusting method thereof. The water outlet device comprises at least one water outlet, and the water outlet adjusting method of the water outlet device comprises the following steps: and detecting container information of each container positioned in the sensing range of the water outlet device. And storing the detected information of each container, and operating according to the container information of all the containers to generate corresponding control instructions. The control command comprises detected corresponding water supply sequences of all containers, and the water outlet pressure and the water outlet angle of each container. And adjusting the corresponding water outlet angle and the corresponding water outlet pressure of the water outlet according to the control instruction so as to enable the water flow to be injected into the corresponding containers one by one. The water outlet device controls the water outlet angle of the water outlet and the water outlet pressure of the water flow in sequence, so that the water flow is sequentially injected into each container according to the arrangement sequence, operators do not need to switch the water receiving containers, the water receiving tasks of the containers can be completed, and the user experience is good.

Description

Water outlet device and water outlet adjusting method thereof

Technical Field

The disclosure belongs to the technical field of valves, and relates to a water outlet device and a water outlet adjusting method thereof.

Background

In the household or some public places, a faucet for people is arranged, and the faucet outputs water flow for people to use by manually rotating a switch of the faucet. Or the sensing module of the water faucet senses that a person needs to use the water faucet, and the water faucet outputs water flow for the person to use.

Generally, a faucet is fixed on a fixed base, and a water outlet of the faucet is arranged downward, so that water flows out of the faucet along the gravity direction. The water outlet of the water tap is arranged in a single direction, and the pressure of water flowing out of the water tap is stable.

When a container is needed to receive water, particularly more than one container needs to receive water, people need to place the containers below the water outlet of the water faucet in sequence. After the container is filled with water, the container needs to be removed to replace another container for receiving water. Operators need to pay attention to the water receiving state of the container all the time and switch the container in time. The user experience is poor, and the labor intensity of operators is high.

Disclosure of Invention

In view of this, the present disclosure provides a water outlet device and a water outlet adjusting method thereof.

Specifically, the present disclosure is realized by the following technical solutions:

according to a first aspect of the embodiments of the present disclosure, there is provided a water outlet adjusting method of a water outlet device, the water outlet device including at least one water outlet, the water outlet adjusting method including:

detecting container information of each container positioned in the sensing range of the water outlet device;

storing the detected information of each container, and generating a corresponding control instruction according to the operation of the container information of all the containers, wherein the control instruction comprises the detected corresponding water supply sequence of all the containers, and the water outlet pressure and the water outlet angle of each container;

and adjusting the corresponding water outlet angle and the corresponding water outlet pressure of the water outlet according to the control instruction so as to enable the water flow to be injected into the corresponding containers one by one.

In an embodiment, the operating to generate the corresponding control instruction according to the container information of all the containers includes: arranging container information of each container, and calculating according to the container information of each container to obtain the water outlet pressure, the water outlet angle and the water supply duration of each container;

adjusting the water supply sequence according to the container information or the water supply duration;

and generating corresponding control instructions to enable the water outlet device to supply water one by one according to the control instructions.

In one embodiment, the adjusting the water supply sequence according to the container information or the water supply time length includes:

adjusting the water supply sequence according to the distance between the container and the water outlet device; or the water supply sequence is adjusted from one side to the other side according to the placement position of the container relative to the water outlet device; or adjusting the water supply sequence according to the water supply time of the container.

In an embodiment, the operating according to the container information of all the containers to generate the corresponding control instruction further includes judging whether the containers are in a water supply range;

and when the container is in the water supply range, calculating according to the container information of the container in the water supply range to generate a corresponding control instruction.

In one embodiment, the determining whether the container is within a water supply range includes: presetting at least one first distance threshold, and judging whether the distance between the container and the water outlet device is smaller than or equal to the first distance threshold;

and when the distance between the container and the water outlet device is smaller than or equal to a first distance threshold value, adjusting the corresponding water outlet angle of the water outlet according to the container information.

In one embodiment, the determining whether the container is within a water supply range further includes: presetting at least one second distance threshold which is larger than the first distance threshold, and judging whether the distance between the container and the water outlet device is larger than the first distance threshold and smaller than or equal to the second distance threshold;

and when the distance between the container and the water outlet device is greater than a first distance threshold and less than or equal to a second distance threshold, adjusting the corresponding water outlet angle and water outlet pressure of the water outlet according to the container information.

In one embodiment, the determining whether the container is within a water supply range further comprises,

and when the container is out of the water supply range, the water outlet device outputs corresponding prompt information.

In one embodiment, the detecting container information of each container located within the sensing range of the water outlet device includes: determining the horizontal straight line distance between each container and the water outlet, the horizontal angle relative to the water outlet and the vertical height distance of the container.

In an embodiment, the detecting container information of each container located within a sensing range of the water outlet device further includes: the volume of each of the containers is determined.

According to a second aspect of the embodiments of the present disclosure, there is provided a water outlet device, comprising:

the water outlet module comprises at least one water outlet, and the water outlet module rotates to adjust the water outlet angle of the water outlet

The water pressure adjusting module is used for adjusting the water outlet pressure of the water outlet module;

the sensing module is used for detecting the container information of each container positioned in the sensing range of the water outlet device;

the control module is used for storing the detected information of each container and generating a corresponding control instruction according to the operation of the container information of all the containers, wherein the control instruction comprises the detected corresponding water supply sequence of all the containers and the water outlet pressure and the water outlet angle of each container;

the water outlet module and the water pressure adjusting module adjust the corresponding water outlet angle and the corresponding water outlet pressure of the water outlet according to the control instruction, so that water flows are injected into corresponding containers one by one.

In one embodiment, the control module comprises an arithmetic unit, an arrangement unit coupled to the arithmetic unit, and an instruction generation unit coupled to the arithmetic unit and the arrangement unit respectively,

the operation unit is used for arranging the container information of each container and performing operation according to the container information of each container to obtain the water outlet pressure, the water outlet angle and the water supply duration of each container;

the arrangement unit is used for adjusting the water supply sequence according to the container information or the water supply duration;

the instruction generating unit is used for generating corresponding control instructions so that the water outlet device can supply water one by one according to the control instructions.

In one embodiment, the arrangement unit comprises a sequencing subunit for judging the water supply sequence of the containers, and the sequencing subunit adjusts the water supply sequence according to the distance between the containers and the water outlet device; or the water supply sequence is adjusted from one side to the other side according to the placement position of the container relative to the water outlet device; or adjusting the water supply sequence according to the water supply time of the container.

In one embodiment, the operation unit comprises a judgment subunit, and the judgment subunit is used for judging whether the container is in a water supply range or not;

and when the container is in the water supply range, generating a corresponding control instruction according to the container information operation of the container.

In one embodiment, the operation unit includes a storage subunit, the storage subunit stores at least one first distance threshold, and the judgment subunit is configured to judge whether the distance between the container and the water outlet device is smaller than or equal to the first distance threshold;

and when the distance between the container and the water outlet device is smaller than or equal to a first distance threshold, the operation unit adjusts the corresponding water outlet angle of the water outlet according to the container information.

In an embodiment, the storage subunit stores at least one second distance threshold greater than the first distance threshold, and the determination subunit is configured to determine whether the distance between the container and the water outlet device is greater than the first distance threshold and less than or equal to the second distance threshold;

and when the distance between the container and the water outlet device is greater than a first distance threshold and less than or equal to a second distance threshold, the operation unit adjusts the corresponding water outlet angle and the corresponding water outlet pressure of the water outlet according to the container information.

In one embodiment, the control module comprises a prompt unit for outputting prompt information;

and when the container is out of the water supply range, the prompting unit outputs corresponding prompting information.

In one embodiment, the sensing module includes a position determining unit, and the position determining unit is configured to determine a horizontal linear distance between each container and the water outlet, a horizontal angle relative to the water outlet, and a vertical height distance of the container.

In an embodiment, the sensing module includes a volume determination unit, and the volume determination unit is configured to determine a volume of each of the containers.

The technical scheme provided by the embodiment of the disclosure can have the following beneficial effects:

the water outlet of the water outlet device can rotate to adjust the water outlet angle and the water outlet pressure is adjusted through the water pressure adjusting device, so that water flows under different pressures can be injected into containers at different positions, and the water supply range is wide. The sensing module detects container information of different containers located in a water supply range, the control module generates corresponding control instructions according to built-in programs, so that the water outlet device sequentially controls the water outlet angle of the water outlet and the water outlet pressure of water flow, the water flow is sequentially injected into each container according to the arrangement sequence, an operator does not need to switch the water receiving containers, the water receiving tasks of the containers can be completed, and user experience is good.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the disclosure.

Drawings

Fig. 1 is a flow chart illustrating a method for regulating the water outlet of a water outlet device according to an exemplary embodiment.

FIG. 2 is a flow chart diagram illustrating a method of regulating water output by a control module according to an exemplary embodiment.

Fig. 3 is a schematic flow chart illustrating the water supply range judgment of the water outlet device according to an exemplary embodiment.

Fig. 4 is a schematic flow chart illustrating a determination of a distance of a container by a water outlet device according to an exemplary embodiment.

FIG. 5 is a block diagram illustrating a water output device according to an exemplary embodiment.

Fig. 6 is a schematic view illustrating a use state of the water outlet device for supplying water to normal pressure according to an exemplary embodiment.

Fig. 7 is a schematic view illustrating a use state of the water supply device for supplying water to the high-opening type container in an elevation angle state according to an exemplary embodiment.

Fig. 8 is a schematic diagram illustrating an elevation state of the water outlet device for supplying water to a remote low-opening type container according to an exemplary embodiment.

Wherein, the water outlet module 10; a main body unit 11; a rotating unit 12; a sensing module 20; a position determination unit 21; a volume determination unit 22; a control module 30; an arranging unit 31; a sorting subunit 311; an arithmetic unit 32; a judgment subunit 321; a storage subunit 322; an instruction generating unit 33; a presentation unit 34; a water pressure regulating module 40; a container 50; the water outlet device 100.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The implementations described in the exemplary embodiments below are not intended to represent all implementations consistent with the present disclosure. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the present disclosure, as detailed in the appended claims.

The terminology used in the present disclosure is for the purpose of describing particular embodiments only and is not intended to be limiting of the disclosure. As used in this disclosure and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It should also be understood that the term "and/or" as used herein refers to and encompasses any and all possible combinations of one or more of the associated listed items.

It is to be understood that although the terms first, second, third, etc. may be used herein to describe various information, such information should not be limited to these terms. These terms are only used to distinguish one type of information from another. For example, first information may also be referred to as second information, and similarly, second information may also be referred to as first information, without departing from the scope of the present disclosure. The word "if" as used herein may be interpreted as "at … …" or "when … …" or "in response to a determination", depending on the context.

Fig. 1 is a flow chart illustrating a method of regulating water output of a water output device 100 according to an exemplary embodiment. As shown in fig. 1, the present disclosure provides a water outlet adjusting method of a water outlet device 100, where the water outlet device 100 includes at least one water outlet, and the water outlet adjusting method includes the following steps:

step 101: container information for each container 50 within the sensing range of the outlet 100 is detected.

A user carries more than one container 50 to the water outlet device 100 for receiving water, and places the containers 50 at random positions around the water outlet device 100 in sequence, wherein the positions of the containers 50 are within the sensing range of the sensing module 20 in the water outlet device 100. The sensing module 20 activates and detects container information of each container 50, and accordingly, the container information of each container 50 includes a horizontal linear distance of the container 50 with respect to the water outlet, a horizontal angle with respect to the water outlet, and a vertical height distance of the container 50. Further, the sensing module 20 is also used to detect the volume of each container 50.

In one embodiment, the sensing module 20 is a camera mounted on the faucet, or a sensing element such as a camera or a distance detector disposed at another position for capturing the position of the faucet and the container 50, and is disposed on the initial installation height information of the faucet according to the installation position of the faucet. When a user places a plurality of containers 50 within the sensing range of the sensing module 20, the sensing module 20 obtains the position information of the openings of the containers 50 relative to the faucet through calculation. The container information of the container 50 is determined by the relative values, for example, the relative distance from the faucet in the horizontal direction is 10 cm, the opening of the container 50 is 10 cm with respect to the preset installation height, and the like. Further, the sensing module 20 can also obtain the capacity of the container 50 through a camera or by reading a tag (tag) on the container 50.

Step 102: stores each detected container information and operates according to the container information of all the containers 50 to generate corresponding control instructions. Wherein the control command includes the detected corresponding water supply sequence of all the containers 50, and the water outlet pressure and the water outlet angle of each container 50.

The control module 30 is disposed in the water outlet device 100, and the control module 30 needs to calculate according to a built-in program to determine how the water outlet device 100 operates so that the water flow can be sequentially delivered to each container 50. The control module 30 stores information of each container detected by the sensing module 20, and determines a water outlet angle and a water outlet pressure of the water outlet module 10 for supplying water to the corresponding container 50 according to the container information of each container 50. In addition, when two or more containers 50 are provided, it is necessary to arrange the water supply sequence of the containers 50. Accordingly, the control module 30 generates corresponding control commands including the detected corresponding water supply sequence of all the containers 50, and the water outlet pressure and the water outlet angle of each container 50.

Step 103: and adjusting the corresponding water outlet angle and water outlet pressure of the water outlet according to the control instruction so as to enable the water flow to be injected into the corresponding containers 50 one by one.

The sensing module 20 determines container information of each container 50, and the control module 30 arranges and adds water one by one according to the container information of each container 50. The water outlet module 10 for adjusting the water outlet angle of the water outlet executes the control instruction and rotates the water outlet, so that the water flow flows out to the corresponding container 50 according to the rotated water outlet. Meanwhile, the corresponding water outlet pressure is adjusted, so that the water supply range is adjusted by water flow to adapt to containers 50 in different placement positions. The water outlet angle of the water flow is controlled by adjusting the angle of the water outlet, and the adjustment is convenient. The water outlet device 100 can flexibly control the water outlet and the water outlet pressure of the water outlet module 10 according to different containers 50 and water receiving positions, and has good adaptability and stable water flow output. The water outlet device 100 can flexibly rotate, the requirement on the installation space of the water outlet device 100 is reduced, and the application range is wide. The sensing module 20 detects container information of different containers 50 within a water supply range, and the control module 30 sequentially controls the water outlet angle and the water outlet pressure of the water outlet device 100 according to a built-in program, so that water flow is sequentially injected into the containers 50 according to an arrangement sequence, an operator does not need to switch the water receiving containers 50, water receiving tasks of the containers 50 can be completed, and user experience is good.

The original pressure of the water pipe in the water outlet device 100 is in a pressure range, the provided output pressure is small and cannot be adjusted and changed, and the water outlet device 100 can supply water to the container 50 in the rotation range of the water outlet by rotating the water outlet angle of the water outlet. Accordingly, the water pressure adjusting module 40 is disposed in the water outlet device 100 to adjust the outlet water pressure of the water flow, so as to change the water supply range of the water flow. Wherein, the water outlet pressure and the water outlet angle are obtained by the operation of the control module 30.

FIG. 2 is a flow chart illustrating a method of regulating water output by control module 30 according to an exemplary embodiment. As shown in fig. 2, the control module 30 generates a corresponding control command according to the container information of all the containers 50, and includes the following steps:

step 201: the container information of each container 50 is arranged, and an operation is performed according to the container information of each container 50 to obtain the effluent pressure, the effluent angle, and the water supply time of each container 50.

Step 202: and adjusting the water supply sequence according to the container information or the water supply duration.

Step 203: and generating corresponding control instructions to enable the water outlet device 100 to supply water one by one according to the control instructions.

The placement positions of the containers 50 on the water receiving platform are different, the shapes of the containers 50 can be the same or different, and the water outlet device 100 needs to adjust different water outlet pressures and water outlet angles according to the shape and the position of each container 50. If the water outlet device 100 detects that the containers 50 sequentially distributed on the water receiving platform are respectively a common teacup, a glass cup and a long-neck vase, wherein the volumes of the common teacup, the glass cup and the long-neck vase are sequentially increased, the distances from the common teacup, the long-neck vase and the glass cup to the water outlet device 100 are sequentially increased, and the opening height of the long-neck vase is higher than that of the common teacup.

The control module 30 determines the water supplying sequence for the container 50 through a built-in program, and in one embodiment, the determining of the water supplying sequence includes:

1. the water supply sequence is adjusted according to the distance between the container 50 and the water outlet device 100.

2. The water supply sequence is adjusted from side to side according to the placement position of the container 50 relative to the water outlet device 100.

3. The water supply sequence is adjusted according to the water supply time period of the container 50.

When the control module 30 adjusts the water supply sequence according to the distance between the container 50 and the water outlet device 100, the water outlet device 100 outputs water flow to the common teacup, then outputs water flow to the long-neck vase, and finally outputs water flow to the glass. When water flow is output to the common tea cup, the water outlet device 100 can output water flow to the common tea cup through the water pipe in the horizontal direction under normal pressure. When water flow is output into the vase, the water outlet of the water outlet module 10 needs to be controlled to rotate to an elevation angle and the water pressure adjusting module 40 is started, so that the output water flow has a preset pressure and is input into the vase. When water flow is output into the glass, the water outlet of the water outlet module 10 needs to be controlled to rotate to an elevation angle and the water pressure adjusting module 40 is started, and the output water flow has a preset pressure so as to be input into the glass. The water outlet device 100 adjusts the water outlet pressure through the water pressure adjusting module 40 and adjusts the water outlet angle of the water outlet through the water outlet module 10, so that the water outlet device 100 has a more flexible water supply mode and water supply range, and the user experience is good.

Fig. 3 is a schematic flow chart illustrating the water supply range judgment of the water outlet device 100 according to an exemplary embodiment. As shown in fig. 3, when the water outlet apparatus 100 detects that the user sets the container information within the sensing range, the water outlet apparatus 100 needs to determine whether the container information is within the water supply capacity of the water outlet apparatus 100.

In step 102, storing the detected information of each container, and operating according to the container information of all the containers 50 to generate corresponding control instructions, further comprising the following steps:

step 301: the sensed container information is received.

Step 302: it is judged whether the container 50 is within the water supply range.

Step 303: if yes, the corresponding control command is generated according to the container information of the container 50 in the water supply range.

Step 304: if not, the water outlet device 100 outputs corresponding prompt information.

The water pipe connected to the water outlet device 100 has a preset pressure value, and the pressure provided by the water pipe and the water supply range provided by the water pipe under the pressure value have corresponding regions. If under normal pressure, the maximum horizontal distance that the delivery port can be exported, etc. to the water supply scope still is relevant with the play water angle of delivery port, and if the water supply scope that the delivery port and gravity direction are the water supply scope that the downward output of acute angle form slope is greater than the water supply scope that the delivery port and gravity direction are the water supply scope that the obtuse angle form the upward output of slope. Even if the corresponding outlet water pressure is adjusted by the water pressure adjusting module 40, the water supply range is larger than that of the water flow under the normal pressure, but the water pressure is influenced by the power of the water pressure adjusting module 40 and other factors.

When the container 50 is within the water supply range, the water outlet device 100 outputs water flow into the container 50 according to corresponding control instructions. If the container 50 is out of the water supply range, for example, if the height of the opening of the container 50 exceeds the maximum height of the water output device 100, or the distance of the container 50 is greater than the maximum distance that the water output device 100 can supply water, the water output device 100 cannot output water to the container 50, and the water output device 100 does not output water.

In one embodiment, the water outlet device 100 includes a prompt unit 34 for outputting prompt information; when a part of all the containers 50 is out of the water supply range, the prompting unit 34 outputs corresponding prompting information. The prompting time can be a prompt in the water supply process, and if water is supplied from left to right and one container 50 is out of the water supply range, a prompt message is sent when the container 50 is turned. Or after all the containers 50 in the water supply range are supplied with water, a prompt message is sent to prompt the operator that the rest of the containers 50 are out of the water supply range. The prompting unit 34 may output a flashing or changing light as the prompting message by using a structure such as an indicator light, or the prompting unit 34 may output a prompting sound as the prompting message by using a structure such as a sound generator, so that the user can adjust the water receiving position of the container 50 according to the prompting message of the prompting unit 34.

When the containers 50 are within the range of water supply in step 302, it is necessary to further determine the container information of each container 50 to determine the control command executed by the water output device 100 and to enable the water output device 100 to be in the optimal energy-saving state.

Fig. 4 is a schematic flow chart illustrating the distance determination of the container 50 by the water outlet device 100 according to an exemplary embodiment. As shown in fig. 4, the step of presetting at least one first distance threshold and presetting at least one second distance threshold greater than the first distance threshold in the water outlet device 100 includes the following steps:

step 401: the container 50 is within the water supply range.

Step 402: it is determined whether the distance between the container 50 and the water outlet device 100 is less than or equal to a first distance threshold.

Step 403: if so, adjusting the corresponding water outlet angle of the water outlet according to the container information.

Step 404: if not, judging whether the distance between the container 50 and the water outlet device 100 is greater than a first distance threshold value and less than or equal to a second distance threshold value;

step 405: if so, adjusting the corresponding water outlet angle and water outlet pressure of the water outlet according to the container information.

Step 406: if not, the water outlet device 100 outputs corresponding prompt information.

The water outlet device 100 generates a corresponding control instruction according to the container information, reasonably distributes and utilizes the water outlet angle and the water outlet pressure of the water outlet device 100, realizes the efficient utilization of energy, saves energy and improves user experience.

When the distance between some of the containers 50 of all the containers 50 and the water output device 100 is greater than the second distance threshold, if the water output device 100 only has one water pressure adjusting module 40, the containers 50 are outside the water supply range of the water output device 100. If the water outlet device 100 has a plurality of water pressure adjusting modules 40 capable of providing step-shaped pressure distribution, the corresponding distance threshold value can be stored in the storage subunit 322 to realize switching among different water pressure adjusting modules 40, so as to form a step-shaped pressure adjusting range, realize fine adjustment of water pressure, and have good water flow adjusting effect and wide output range.

Corresponding to the foregoing embodiments of the water outlet adjusting method of the water outlet apparatus 100, the present disclosure also provides embodiments of the water outlet apparatus 100.

Fig. 5 is a block diagram illustrating a water outlet apparatus 100 according to an exemplary embodiment. As shown in figure 5 of the drawings,

the water outlet device 100 includes a water outlet module 10, a water pressure adjusting module 40 connected to the water outlet module 10, an induction module 20, and a control module 30 coupled to the water outlet module 10, the water pressure adjusting module 40, and the induction module 20.

The water outlet module 10 comprises at least one water outlet, wherein the water outlet module 10 rotates to adjust the water outlet angle of the water outlet.

The water outlet module 10 is fixedly connected to a fixed base, such as a water tank, a toilet table, etc. The water outlet module 10 includes a main unit 11 for fixing and a rotating unit 12 rotatably disposed on the main unit 11 and used for discharging water. The main body unit 11 is fixedly connected with the fixed base, and the water outlet is arranged on the rotating unit 12 and can change the water outlet angle of the water outlet along with the rotation of the rotating unit 12. The rotation direction of the water outlet comprises rotation perpendicular to the water blowing direction and/or rotation in the horizontal direction.

The water pressure adjusting module 40 is configured to adjust the water outlet pressure of the water outlet module 10 according to a control instruction of the control module 30. The initial pressure of the water line in the water output device 100 is within a pressure range that provides a small and non-variable output pressure. The water pressure adjusting module 40 may adopt a pressure pump or the like to adjust the water pressure, so as to expand the water supply range of the water outlet device 100, and output corresponding water outlet pressure according to different placement positions of the container 50, so as to realize accurate water supply.

The sensing module 20 is used for detecting container information of each container 50 located within a sensing range of the water outlet device 100.

The user carries the plurality of containers 50 to the water outlet device 100 for receiving water, and places the plurality of containers 50 at random on the water receiving platform at a random placement position within the sensing range of the sensing module 20. The sensing module 20 activates and detects container information of each container 50, and accordingly, the container information of each container 50 includes a horizontal linear distance of the container 50 with respect to the water outlet, a horizontal angle with respect to the water outlet, and a vertical height distance of the container 50. Further, the volume of each container 50 is also included.

In one embodiment, the sensing module 20 is a camera mounted on the faucet, or a sensing element such as a camera or a distance detector for capturing the position of the faucet and the container 50, and is set on the initial installation height information of the faucet according to the installation position of the faucet. The sensing module 20 includes a position determining unit 21, and the position determining unit 21 is configured to determine a horizontal linear distance between each container and the water outlet, a horizontal angle relative to the water outlet, and a vertical height distance of the container 50. When a user places a plurality of containers 50 within the sensing range of the sensing module 20, the sensing module 20 obtains the position information of the openings of the containers 50 relative to the faucet through calculation. Such as a distance of 10 cm in the horizontal direction, an opening of the container 50 of 10 cm with respect to a preset installation height, etc., container information of the container 50 is determined by the relative values. Further, the sensing module 20 includes a volume determination unit 22, and the volume determination unit 22 is configured to determine a volume of each of the containers 50. The sensing module 20 can also acquire the capacity of the container 50 through a camera or by reading a tag (tag) on the container 50 to determine a more accurate water supply time period.

The control module 30 is configured to store the detected information of each container, and calculate according to the container information of all the containers 50 to generate a corresponding control instruction, where the control instruction includes the detected corresponding water supply sequence of all the containers 50, and the detected water outlet pressure and water outlet angle of each container 50.

The water outlet module 10 adjusts the corresponding water outlet angle and water outlet pressure of the water outlet according to the control instruction, so that the water flows are injected into the corresponding containers 50 one by one.

The sensing module 20 determines container information of each container 50, and the control module 30 arranges and adds water one by one according to the container information of each container 50. The water outlet module 10 for adjusting the water outlet angle of the water outlet executes the control instruction and rotates the water outlet, so that the water flow flows out to the corresponding container 50 according to the rotated water outlet. Meanwhile, the water pressure adjusting module 40 adjusts the corresponding water outlet pressure, so that the water supply range is adjusted by the water flow to adapt to containers 50 in different placement positions. The angle of the water outlet is adjusted through the water outlet module 10 so as to control the water outlet angle of the water flow, and the adjustment is convenient. The water outlet device 100 can flexibly control the water outlet and the water outlet pressure of the water outlet module 10 according to different containers 50 and water receiving positions, and has good adaptability and stable water flow output. The water outlet device 100 can flexibly rotate, the requirement on the installation space of the water outlet device 100 is reduced, and the application range is wide. The sensing module 20 detects container information of different containers 50 within a water supply range, and the control module 30 sequentially controls the water outlet angle and the water outlet pressure of the water outlet device 100 according to a built-in program, so that water flow is sequentially injected into the containers 50 according to an arrangement sequence, an operator does not need to switch the water receiving containers 50, water receiving tasks of the containers 50 can be completed, and user experience is good.

The control module 30 generates a control command according to the container information of all the containers 50, and in an embodiment, the control module 30 includes a control module 30 including an arithmetic unit 32, an arrangement unit 31 coupled to the arithmetic unit 32, and a command generation unit 33 coupled to the arithmetic unit 32 and the arrangement unit 31, respectively.

The operation unit 32 is configured to arrange the container information of each container 50, and perform operation according to the container information of each container 50 to obtain the water outlet pressure, the water outlet angle, and the water supply duration of each container 50. The arrangement unit 31 is used for adjusting the water supply sequence according to the container information or the water supply duration. The instruction generating unit 33 is configured to generate corresponding control instructions, so that the water outlet apparatus 100 supplies water one by one according to the control instructions.

The control module 30 is respectively provided with an arithmetic unit 32, an arrangement unit 31 and an instruction generation unit 33, wherein the instruction generation unit 3332 generates corresponding control instructions according to the operation result of the arithmetic unit 32 and the arrangement unit 31 according to a preset sequencing order. The control instruction enables the water outlet module 10 and the water pressure adjusting module 40, and the water outlet module 10 and the water pressure adjusting module 40 to adjust the angle of the water outlet and the water outlet pressure according to each container 50 requiring water supply, and output accurate water flow to be injected into the corresponding container 50. The regulation is convenient, the output position of the water flow is accurate, the operator can supply water to the container 50 in a centralized way, the labor intensity is low, and the water injection efficiency is high.

The control module 30 calculates according to the container information of all the containers 50 to generate a corresponding control command, wherein the control command includes the detected corresponding water supply sequence of all the containers 50, and the water outlet pressure and the water outlet angle of each container 50. In the process of generating the control command, the control module 30 needs to calculate according to a built-in program, and determine how the water outlet device 100 operates to enable the water flow to be delivered to the container 50 and the sequence of water supply.

For example, the sensing module 20 detects that the placement positions of the containers 50 on the water receiving platform are different, the shapes of the containers 50 may be the same or different, and the water outlet device 100 needs to adjust the water outlet pressure and the water outlet angle according to the shape and the position of each container 50. If the water outlet device 100 detects that the containers 50 sequentially distributed on the water receiving platform are respectively a common teacup, a glass cup and a long-neck vase, wherein the volumes of the common teacup, the glass cup and the long-neck vase are sequentially increased, the distances from the common teacup, the long-neck vase and the glass cup to the water outlet device 100 are sequentially increased, and the opening height of the long-neck vase is higher than that of the common teacup.

The control module 30 determines the order of supplying water to the containers 50 through a built-in program, in an embodiment, the arranging unit 31 includes a sorting subunit 311 for determining the order of supplying water to the containers 50, where the basis of determining the order of supplying water by the sorting subunit 311 includes:

1. the water supply sequence is adjusted according to the distance between the container 50 and the water outlet device 100.

2. The water supply sequence is adjusted from side to side according to the placement position of the container 50 relative to the water outlet device 100.

3. The water supply sequence is adjusted according to the water supply time period of the container 50.

When the control module 30 adjusts the water supply sequence according to the distance between the container 50 and the water outlet device 100, the water outlet device 100 outputs water flow to the common teacup, then outputs water flow to the long-neck vase, and finally outputs water flow to the glass. When the water outlet module 10 outputs water flow to the common tea cup, the water flow can be output to the common tea cup through the water pipe in the horizontal direction under normal pressure, so that the water flow is input into the common tea cup (as shown in fig. 6). If the ordinary teacup is placed in a range exceeding the water supply range of the normal-pressure output of the water pipe, the water pressure adjusting module 40 needs to be started, so that the output water flow has a preset pressure and is input into the ordinary teacup.

When water flow is output into the vase, the water outlet of the water outlet module 10 needs to be controlled to rotate to an elevation angle and the water pressure adjusting module 40 is started, so that the output water flow has a preset pressure and is input into the vase (as shown in fig. 7). When water flow is output into the glass, the water outlet of the water outlet module 10 needs to be controlled to rotate to an elevation angle and the water pressure adjusting module 40 is started, so that the output water flow has a preset pressure, the output water flow is input into the glass, the elevation angle of the water outlet when water is supplied to the long-neck vase is smaller than the elevation angle of the water outlet when water is supplied to the long-neck vase, or the elevation angles of the water outlet and the long-neck vase are the same, and the water outlet pressure of the water flow is improved (as shown in fig. 8). The water outlet device 100 adjusts the water outlet pressure through the water pressure adjusting module 40 and adjusts the water outlet angle of the water outlet through the water outlet module 10, so that the water outlet device 100 has a more flexible water supply mode and water supply range, and the user experience is good. In one embodiment, the water pressure adjusting module 40 may also stabilize the water pressure of the output water flow by detecting the output pressure of the water pipe supplying the water outlet device 100.

When the sensing module 20 detects that the user has placed the container information of all the containers 50 within the sensing range, the control module 30 receives the container information detected by the sensing module 20, and needs to determine whether the container information is within the range of the water supply capacity of the water outlet apparatus 100.

In one embodiment, the operation unit 32 includes a determining subunit 321, and the determining subunit 321 is used for determining whether the container 50 is in the water supply range. If so, a corresponding control instruction is generated according to the container information of the container 50.

The water pipe connected to the water outlet device 100 has a preset pressure value, and the pressure provided by the water pipe and the water supply range provided by the water pipe under the pressure value have corresponding regions. If under normal pressure, the maximum horizontal distance that the delivery port can be exported, etc. to the water supply scope still is relevant with the play water angle of delivery port, and if the water supply scope that the delivery port and gravity direction are the water supply scope that the downward output of acute angle form slope is greater than the water supply scope that the delivery port and gravity direction are the water supply scope that the obtuse angle form the upward output of slope. Even if the corresponding outlet water pressure is adjusted by the water pressure adjusting module 40, the water supply range is larger than that of the water flow under the normal pressure, but the water pressure is influenced by the power of the water pressure adjusting module 40 and other factors.

When the container 50 is within the water supply range, the control module 30 generates a corresponding control command to enable the water outlet device 100 to output water into the container 50. If the container 50 is out of the water supply range, such as the height of the opening of the container 50 exceeds the maximum height of the water outlet device 100, or the distance of the container 50 is greater than the maximum distance that the water outlet device 100 can supply water, the water outlet device 100 cannot output water flow to the container 50. The water outlet device 100 does not output water flow.

The water outlet device 100 comprises a prompting unit 34 for outputting prompting information; when a part of all the containers 50 is out of the water supply range, the prompting unit 34 outputs corresponding prompting information. The prompting time can be a prompt in the water supply process, and if water is supplied from left to right and one container 50 is out of the water supply range, a prompt message is sent when the container 50 is turned. Or after all the containers 50 in the water supply range are supplied with water, a prompt message is sent to prompt the operator that the rest of the containers 50 are out of the water supply range. The prompting unit 34 may output a flashing or changing light as the prompting message by using a structure such as an indicator light, or the prompting unit 34 may output a prompting sound as the prompting message by using a structure such as a sound generator, so that the user can adjust the water receiving position of the container 50 according to the prompting message of the prompting unit 34.

When the container 50 is within the water supply range, the control module 30 needs to further determine the control command executed by the water outlet module 10 and to place the water outlet apparatus 100 in the optimal energy saving state. In an embodiment, the operation unit 32 includes a storage subunit 322, and the storage subunit 322 stores at least a first distance threshold and at least a second distance threshold greater than the first distance threshold. The first distance threshold is a water supply range that the water outlet device 100 can output under normal pressure, and a connection line of the first distance threshold stored in the storage subunit 322 is a continuous curve distribution, and the maximum value that can be reached is set according to a horizontal straight line distance and a vertical height distance of the water outlet device 100. The second distance threshold is a water supply range that the water outlet device 100 can output when the water pressure adjusting module 40 provides outlet water pressure adjustment, and the connection line of the second distance threshold stored in the storage subunit 322 is distributed in a continuous curve shape, and the maximum value that can be reached is set according to the horizontal straight line distance and the vertical height distance of the water outlet device 100 in the state that the water pressure adjusting module 40 provides outlet water pressure adjustment.

The judging subunit 321 is configured to judge whether the distance between the container 50 and the water outlet apparatus 100 is smaller than or equal to a first distance threshold. When the distance between the container 50 and the water outlet device 100 is smaller than or equal to the first distance threshold, the operation unit 32 adjusts the corresponding water outlet angle of the water outlet according to the container information.

The judging subunit 321 is configured to judge whether a distance between the container 50 and the water outlet apparatus 100 is greater than a first distance threshold and less than or equal to a second distance threshold. When the distance between the container 50 and the water outlet device 100 is greater than the first distance threshold and less than or equal to the second distance threshold, the operation unit 32 adjusts the corresponding water outlet angle and water outlet pressure of the water outlet according to the container information.

The control module 30 generates a corresponding control instruction according to the container information, reasonably distributes and utilizes the water outlet angle and the water outlet pressure of the water outlet device 100, realizes the efficient utilization of energy, saves energy, and improves user experience.

When the distance between the container 50 and the water outlet apparatus 100 is greater than the second distance threshold, if the water outlet apparatus 100 only has one water pressure adjusting module 40, the container 50 is outside the water supply range of the water outlet apparatus 100. If the water outlet device 100 has a plurality of water pressure adjusting modules 40 capable of providing step-shaped pressure distribution, the corresponding distance threshold value can be stored in the storage subunit 322 to realize switching among different water pressure adjusting modules 40, so as to form a step-shaped pressure adjusting range, realize fine adjustment of water pressure, and have good water flow adjusting effect and wide output range.

For the device embodiments, since they substantially correspond to the method embodiments, reference may be made to the partial description of the method embodiments for relevant points. The above-described embodiments of the apparatus are merely illustrative, and the units described as separate parts may or may not be physically separate, and the parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the modules can be selected according to actual needs to achieve the purpose of the disclosed solution. One of ordinary skill in the art can understand and implement it without inventive effort.

The present disclosure is to be considered as limited only by the preferred embodiments and not limited to the specific embodiments described herein, and all changes, equivalents, and modifications that come within the spirit and scope of the disclosure are desired to be protected.

Claims (18)

1. A water outlet adjusting method of a water outlet device, wherein the water outlet device comprises at least one water outlet, the water outlet adjusting method comprises the following steps:

detecting container information of each container positioned in the sensing range of the water outlet device;

storing the detected information of each container, and generating a corresponding control instruction according to the operation of the container information of all the containers, wherein the control instruction comprises the detected corresponding water supply sequence of all the containers, and the water outlet pressure and the water outlet angle of each container;

and adjusting the corresponding water outlet angle and the corresponding water outlet pressure of the water outlet according to the control instruction so as to enable the water flow to be injected into the corresponding containers one by one.

2. The effluent regulation method of claim 1 wherein said operating to generate corresponding control instructions based on container information for all containers comprises:

arranging container information of each container, and calculating according to the container information of each container to obtain the water outlet pressure, the water outlet angle and the water supply duration of each container;

adjusting the water supply sequence according to the container information or the water supply duration;

and generating corresponding control instructions to enable the water outlet device to supply water one by one according to the control instructions.

3. The effluent adjustment method according to claim 2, wherein the adjusting the water supply sequence according to the container information or the water supply time period comprises:

adjusting the water supply sequence according to the distance between the container and the water outlet device; or the water supply sequence is adjusted from one side to the other side according to the placement position of the container relative to the water outlet device; or adjusting the water supply sequence according to the water supply time of the container.

4. The method of claim 2, wherein the operating to generate corresponding control instructions based on the container information of all containers further comprises,

judging whether the container is in a water supply range;

and when the container is in the water supply range, calculating according to the container information of the container in the water supply range to generate a corresponding control instruction.

5. The method of claim 4, wherein the determining whether the container is within a water supply range comprises: presetting at least one first distance threshold, and judging whether the distance between the container and the water outlet device is smaller than or equal to the first distance threshold;

and when the distance between the container and the water outlet device is smaller than or equal to a first distance threshold value, adjusting the corresponding water outlet angle of the water outlet according to the container information.

6. The method of claim 5, wherein the determining whether the container is within a water supply range further comprises: presetting at least one second distance threshold which is larger than the first distance threshold, and judging whether the distance between the container and the water outlet device is larger than the first distance threshold and smaller than or equal to the second distance threshold;

and when the distance between the container and the water outlet device is greater than a first distance threshold and less than or equal to a second distance threshold, adjusting the corresponding water outlet angle and water outlet pressure of the water outlet according to the container information.

7. The method of claim 5, wherein said determining if said container is within a water supply range further comprises,

and when the container is out of the water supply range, the water outlet device outputs corresponding prompt information.

8. The method of claim 1, wherein the detecting container information for each container within a sensing range of the outlet device comprises:

determining the horizontal straight line distance between each container and the water outlet, the horizontal angle relative to the water outlet and the vertical height distance of the container.

9. The method of claim 8, wherein the detecting container information for each container within a sensing range of the outlet device further comprises: the volume of each of the containers is determined.

10. A water outlet device, comprising:

the water outlet module comprises at least one water outlet, and the water outlet module rotates to adjust the water outlet angle of the water outlet;

the water pressure adjusting module is used for adjusting the water outlet pressure of the water outlet module;

the sensing module is used for detecting the container information of each container positioned in the sensing range of the water outlet device;

the control module is used for storing the detected information of each container and generating a corresponding control instruction according to the operation of the container information of all the containers, wherein the control instruction comprises the detected corresponding water supply sequence of all the containers and the water outlet pressure and the water outlet angle of each container;

the water outlet module and the water pressure adjusting module adjust the corresponding water outlet angle and the corresponding water outlet pressure of the water outlet according to the control instruction, so that water flows are injected into corresponding containers one by one.

11. The water output device of claim 10, wherein the control module comprises an arithmetic unit, an arrangement unit coupled to the arithmetic unit, and an instruction generation unit coupled to the arithmetic unit and the arrangement unit, respectively,

the operation unit is used for arranging the container information of each container and performing operation according to the container information of each container to obtain the water outlet pressure, the water outlet angle and the water supply duration of each container;

the arrangement unit is used for adjusting the water supply sequence according to the container information or the water supply duration;

the instruction generating unit is used for generating corresponding control instructions so that the water outlet device can supply water one by one according to the control instructions.

12. The water outlet device according to claim 11, wherein the arrangement unit comprises a sorting subunit for judging the water supply sequence of the containers, and the sorting subunit adjusts the water supply sequence according to the distance between the containers and the water outlet device; or the water supply sequence is adjusted from one side to the other side according to the placement position of the container relative to the water outlet device; or adjusting the water supply sequence according to the water supply time of the container.

13. The water outlet device according to claim 11, wherein the operation unit comprises a judgment subunit for judging whether the container is within the water supply range;

and when the container is in the water supply range, generating a corresponding control instruction according to the container information operation of the container.

14. The water outlet device according to claim 13, wherein the operation unit comprises a storage subunit, the storage subunit stores at least a first distance threshold, and the determination subunit is configured to determine whether the distance between the container and the water outlet device is smaller than or equal to the first distance threshold;

and when the distance between the container and the water outlet device is smaller than or equal to a first distance threshold, the operation unit adjusts the corresponding water outlet angle of the water outlet according to the container information.

15. The water outlet device according to claim 14, wherein the storage subunit stores at least a second distance threshold greater than the first distance threshold, and the determination subunit is configured to determine whether the distance between the container and the water outlet device is greater than the first distance threshold and less than or equal to the second distance threshold;

and when the distance between the container and the water outlet device is greater than a first distance threshold and less than or equal to a second distance threshold, the operation unit adjusts the corresponding water outlet angle and the corresponding water outlet pressure of the water outlet according to the container information.

16. The water outlet device of claim 11, wherein the control module comprises a prompt unit for outputting prompt information;

and when the container is out of the water supply range, the prompting unit outputs corresponding prompting information.

17. The water outlet device according to claim 10, wherein the sensing module comprises a position determining unit for determining a horizontal linear distance between each container and the water outlet, a horizontal angle relative to the water outlet, and a vertical height distance of the container.

18. The water outlet device according to claim 10, wherein the sensing module comprises a volume determination unit for determining a volume of each of the containers.

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