CN219813825U - Water dispenser - Google Patents

Abstract

The utility model provides a water dispenser, comprising: a frame body provided with a water outlet nozzle; the controller is arranged in the frame body; the display control device is arranged in the frame body, the frame body is provided with a light transmission piece, the light transmission piece and the display control device are correspondingly arranged, the display control device comprises a trigger piece and a light-emitting structure, the trigger piece and the light-emitting structure are electrically connected with the controller, and light generated by the work of the light-emitting structure is emitted out of the frame body through the light transmission piece; the water outlet device is arranged on the frame body, is communicated with the water outlet nozzle and is electrically connected with the controller; when the trigger piece is triggered, the controller is used for controlling the light-emitting structure and the water outlet device to work.

Description

Water dispenser

Technical Field

The utility model relates to the technical field of water dispensers, in particular to a water dispenser.

Background

In the related art, the water dispenser is provided with a button, water is discharged through pressing the button, after an operator presses the button, the operator does not know whether the button is pressed or not because the button does not feed back to the operator, so that the operator repeatedly presses the button, and the operator experience is poor.

Disclosure of Invention

The present utility model aims to solve at least one of the technical problems existing in the prior art or related art.

To this end, an aspect of the present utility model proposes a water dispenser.

In view of this, an aspect of the present utility model provides a water dispenser, including: a frame body provided with a water outlet nozzle; the controller is arranged in the frame body; the display control device is arranged in the frame body, the frame body is provided with a light transmission piece, the light transmission piece and the display control device are correspondingly arranged, the display control device comprises a trigger piece and a light-emitting structure, the trigger piece and the light-emitting structure are electrically connected with the controller, and light generated by the work of the light-emitting structure is emitted out of the frame body through the light transmission piece; the water outlet device is arranged on the frame body, is communicated with the water outlet nozzle and is electrically connected with the controller; when the trigger piece is triggered, the controller is used for controlling the light-emitting structure and the water outlet device to work.

The utility model provides a water dispenser which comprises a frame body, a controller, a display control device and a water outlet device.

The controller is arranged in the frame body, the display control device is arranged in the frame body, and the water outlet device is arranged in the frame body. That is, the frame body has the functions of installing and fixing the controller, the display control device and the water outlet device, and can ensure the matching sizes of the controller, the display control device and the water outlet device.

The display control device is located in the frame body and comprises a trigger piece and a light-emitting structure, the frame body is provided with a light-transmitting piece, the light-transmitting piece and the display control device are correspondingly arranged, and therefore light generated by the work of the light-emitting structure can be transmitted out of the frame body through the light-transmitting piece. That is, the light transmitting member has a function of transmitting the light generated by the light emitting structure out of the frame body, so that an operator can observe and determine whether the display control device is operated from the outer surface of the frame body.

The frame body is provided with a water outlet nozzle, the water dispenser further comprises a water outlet device, the water outlet device is communicated with the water outlet nozzle arranged on the frame body, and the water outlet device works to achieve the purpose of water outlet of the water outlet nozzle of the water dispenser.

The trigger piece of the display control device is electrically connected with the controller, the light-emitting structure of the display control device is electrically connected with the controller, and the water outlet device is electrically connected with the controller. When an operator needs to draw water, the trigger piece can be triggered, the trigger piece transmits signals to the controller, and the controller controls the light-emitting structure and the water outlet device to work. The light-emitting structure works to transmit light outwards through the light-transmitting piece, and the water outlet device works to outlet water. That is, when the trigger is triggered, the water dispenser can emit light and water. That is, when the trigger is triggered, the water dispenser can emit water and emit light, the water dispenser emits water along with the light, and the water dispenser emits water and emits light with relevance. Thus, after the operator triggers the trigger piece, the operator can stay beside the water dispenser and leave the water dispenser to do other emergency matters, because whether the operator is close to the water dispenser or far from the water dispenser, whether the water dispenser is in water outlet or not can be determined by whether the water dispenser emits light. Meanwhile, an operator can judge whether the trigger piece is successfully triggered by judging whether the light-emitting structure emits light or not. The operator can intuitively know the triggering state of the triggering piece, and the condition that the operator repeatedly triggers the triggering piece is avoided.

This setting has promoted the performance and the simple operation of water dispenser, and can give out light because the water dispenser goes out when water, like this, can also promote the aesthetic property when the water dispenser uses for the operator can more audio-visual understanding water dispenser's operating condition.

Specifically, the light-transmitting member includes a plastic member.

The water dispenser according to the utility model can also have the following additional technical characteristics:

in the above technical solution, further, the triggering member is located between the light emitting structure and the light transmitting member.

In this technical solution, the mating structure of the triggering member, the light emitting structure and the light transmitting member is further defined, so that the triggering member is located between the light emitting structure and the light transmitting member. That is, the trigger piece is closer to the light-transmitting piece than the light-emitting structure, so that the trigger sensitivity of the display control device can be improved, and an operator can trigger the trigger piece by applying smaller force.

Specifically, the purpose of triggering the trigger piece can be achieved by touching the light-transmitting piece by the hand of an operator. That is, the external force acts on the light-transmitting member to trigger the triggering member.

In any of the above embodiments, further, the trigger comprises an ITO (Indium Tin Oxide) film.

In this technical solution, the structure of the triggering element is refined, in particular, the triggering element comprises an ITO film. Through capacitive sensing, when the hand of an operator touches the ITO film, the track of hand sliding can be identified, and the touch screen has higher sensitivity.

Of course, the trigger may also include a nanowire layer or the like, not specifically recited herein.

In any of the above technical solutions, further, the display control device further includes: and the vignetting film is connected to one side of the trigger piece facing the light-emitting structure.

In the technical scheme, the display control device further comprises a vignetting film, the vignetting film is connected with the trigger piece, and the vignetting film is positioned on one side of the trigger piece, which faces the light-emitting structure.

The halation film has a halation state for enabling the light to achieve soft transition, and can improve the softness of light transmission.

In any of the above embodiments, further, the trigger is located at a side portion of the frame.

In the technical scheme, the matching structure of the triggering piece and the frame body is further limited, specifically, the triggering piece is located in the frame body, the triggering piece is located at the side part of the frame body, and the triggering piece is correspondingly arranged with the light-transmitting piece at the side part of the frame body.

The operator hands trigger the side of the frame to achieve the purpose of triggering the trigger. The position setting of the trigger piece is more suitable for the height of an operator, so that the operator can operate more conveniently.

Specifically, the frame includes a top, a side, and a bottom, the side being connected between the top and the bottom, the bottom of the frame being placed on the ground or on the object table.

The triggering piece can be positioned at one side part of the frame body, and can also be positioned at two side parts of the frame body.

In any of the above technical solutions, further, the trigger piece includes a plurality of trigger areas, and the plurality of trigger areas extend along a height direction of the frame body; the light-emitting structure is provided with a plurality of light-emitting elements, and each trigger area is arranged corresponding to at least one light-emitting element; the controller is used for controlling the light-emitting element corresponding to the triggered triggering area to work.

In this technical solution, the triggering element and the luminous structure are further refined. The trigger piece comprises a plurality of trigger areas, the light-emitting structure is provided with a plurality of light-emitting elements, and each trigger area is arranged corresponding to at least one light-emitting element. The plurality of light emitting elements are distributed along with the distribution position of the plurality of trigger areas, for example, the plurality of light emitting elements extend along the height direction of the frame.

It is understood that each trigger region is electrically connected to the controller and each light emitting element is electrically connected to the controller. The hand of the operator slides on the frame body, the hand slides to the position corresponding to the triggering area, the triggering area is triggered, the triggering piece sends a signal to the controller, and the controller controls the light-emitting element corresponding to the triggering area to work. That is, the lamplight of the display control device moves along with the sliding track of the hands of the operator, so that the interactive perception is more visual, and the usability and the market competitiveness of the water dispenser are improved.

In any of the above aspects, further, each of the light emitting elements is provided with a plurality of light emitting portions, and light emitting colors of any two of the light emitting portions are different.

In this technical scheme, further refine the light emitting structure, the light emitting structure includes a plurality of light emitting component, and every light emitting component is equipped with a plurality of luminous portions, and the luminous colour of arbitrary two luminous portions in a plurality of luminous portions is different. That is, the light emitting element can emit light of various colors.

In any of the above technical solutions, further, the water dispenser further includes: the sensor is arranged on the frame body, is electrically connected with the controller, is used for identifying the type of the brewing substances, and is also used for determining the water temperature according to the detection data of the sensor and controlling the light-emitting part corresponding to the water temperature to work.

In the technical scheme, the structure of the water dispenser is further limited, and specifically, the water dispenser further comprises a sensor, the sensor is arranged on the frame body, and the frame body serves as a mounting carrier of the sensor and has the functions of mounting and fixing the sensor.

The sensor is electrically connected with the controller, an operator places a water cup filled with the brewing substances at the water outlet nozzle, the sensor identifies the type of the brewing substances and sends data of the type of the brewing substances to the controller, and the controller determines water temperature corresponding to the type of the brewing substances according to the detection data of the sensor, for example, cold water is discharged when the brewing substances are lemon, hot water is discharged when the brewing substances are tea, and hot water is discharged when the brewing substances are empty. And a controller for controlling the operation of the light emitting part corresponding to the water temperature according to the water temperature.

The water at different temperatures is discharged because the light-emitting colors of any two light-emitting parts are different, and the water dispenser emits light of different colors. For example, blue light is emitted when the water outlet temperature is 10 ℃ to 15 ℃, yellow light is emitted when the water outlet temperature is 16 ℃ to 45 ℃, red light is emitted when the water outlet temperature is more than or equal to 46 ℃, and the like, which are not listed herein.

That is, the operator can know the water outlet temperature through the emitted light color, so that the effect of reminding the operator of the water outlet temperature can be achieved, the operator is prevented from being scalded, and the safety and the reliability of the water dispenser are improved. In addition, an operator can judge whether the water outlet temperature is matched with the brewing species through the emitted light color so as to determine whether the water dispenser is in a normal working state.

In any of the above technical solutions, further, the water dispenser further includes: the liquid level detection piece is arranged on the frame body, is positioned at the water outlet nozzle and is electrically connected with the controller, and the controller is also used for controlling the working states of the plurality of luminous elements according to the detection data of the liquid level detection piece; wherein the working shape of the light emitting element comprises extinction and/or flickering.

In this technical scheme, further inject the structure of water dispenser, water dispenser still includes liquid level detection spare, and liquid level detection spare is connected with the controller electricity, and liquid level detection spare is used for detecting whether the water line reaches the height of rim of a cup, and liquid level detection spare will detect data transmission to the controller for the operating condition of a plurality of light emitting component of controller control. For example, when the height of the water line reaches ninety percent of the height of the cup, the controller controls the plurality of light emitting elements to flash several times to alert the operator that water is ready for use. For example, when the height of the water level line reaches eighty percent of the height of the cup body, the controller controls the water outlet device to stop working. For example, when the height of the water line reaches eighty percent of the height of the cup body, the light emitting element is controlled to be turned off.

Further, the state of the light emitting element includes any one or more of extinction and flickering, so that the state of the light emitting element and the light emitting color of the light emitting element can be combined to form various display states of the display control device, and one display state can be further made to correspond to the working state of the water dispenser, so that the working state of the water dispenser can be displayed in a refined manner, and a user can fully know the working state of the water dispenser.

In any of the above technical solutions, further, the water dispenser further includes: the switching base is arranged on the frame body; the water tank is detachably arranged on the frame body; the waterway assembly is arranged in the frame body and is connected with the adapter base and the water outlet nozzle.

In this technical scheme, the water dispenser still includes adapter base, water tank and water route subassembly, and the mounting chamber of lining up is encircled to the internal surface of framework, and the water tank is detachably located the mounting chamber. The waterway assembly is connected with the switching base, and the waterway assembly is connected with the water outlet nozzle.

When the water dispenser is needed, the water tank is arranged in the frame body, so that the first joint part of the adapter base is connected with the second joint part of the water tank. Thus, the water in the water tank can flow to the waterway assembly through the adapter base and flow to the water outlet nozzle through the waterway assembly.

When the water tank needs to be cleaned and maintained or water is added into the water tank, the water tank is taken out from the frame body.

The water tank is detachably connected with the frame body, so that the water tank and the frame body can be detached and assembled according to actual conditions, the mounting position of the water tank relative to the frame body is determined, the water tank is further applicable to the use requirements of water dispensers of different models, the adaptability of the water dispenser is high, and the use performance of the water dispenser is improved.

It can be understood that after the water tank is assembled with the frame body, the water tank is positioned in the frame body, the frame body has the functions of installing and fixing the water tank, has the function of protecting the water tank, and reduces the occurrence probability of damage to the water tank caused by external force acting on the water tank.

Specifically, when the water tank is placed in the frame body, the frame body is located on the periphery of the water tank, and the frame body is of an annular structure and covers the periphery of the water tank.

In any of the above technical solutions, further, the water dispenser further includes: the heating device is arranged on the frame body and is connected with the waterway assembly; the heat exchange device is connected to one side of the frame body, the heat exchange device is connected with the waterway assembly, and the heating device and the heat exchange device are electrically connected with the controller; the water outlet device comprises a pump body and a first electromagnetic valve, the first electromagnetic valve can be switched between a first state and a second state, when the first electromagnetic valve is in the first state, the first electromagnetic valve conducts the waterway assembly along the direction from the switching base to the heating device, and when the first electromagnetic valve is in the second state, the first electromagnetic valve conducts the waterway assembly along the direction from the switching base to the heat exchange device.

In the technical scheme, the water dispenser further comprises a heating device and a heat exchange device.

The heating device is electrically connected with the controller, and the controller controls the heating device to work, and the heating device can heat water to meet the use requirement of hot water.

The heat exchange device is electrically connected with the controller, the controller controls the heat exchange device to work, and the heat exchange device can produce cold water to meet the use requirement of cold water.

Further, the water outlet device is electrically connected with the controller, and the water outlet device comprises a pump body and a first electromagnetic valve, namely, the pump body is electrically connected with the controller, the first electromagnetic valve is electrically connected with the controller, the controller controls the pump body to work, and the controller also controls the first electromagnetic valve to work.

The pump body can work to provide power for rivers.

The first solenoid valve is switchable between a first state and a second state. When the first electromagnetic valve is in the first state, the first electromagnetic valve conducts the waterway assembly along the direction from the adapter base to the heating device, at the moment, water flow can flow to the heating device, and the heating device can heat the water flow to meet the use requirement of hot water. When the first electromagnetic valve is in the second state, the first electromagnetic valve conducts the waterway assembly along the direction from the switching base to the heat exchange device, at the moment, water flow can flow to the heat exchange device, and the heat exchange device can be used for producing cold water to meet the use requirement of cold water.

In any of the above technical solutions, further, the water outlet device includes: the second electromagnetic valve can be switched between a third state and a fourth state, when the second electromagnetic valve is in the third state, the second electromagnetic valve is used for conducting the waterway assembly along the direction from the heat exchange device to the transfer base, and when the second electromagnetic valve is in the fourth state, the second electromagnetic valve is used for conducting the waterway assembly along the direction from the heat exchange device to the water outlet nozzle.

In the technical scheme, the water outlet device is electrically connected with the controller and comprises a second electromagnetic valve. The second solenoid valve is electrically connected to the controller, the second solenoid valve being switchable between a third state and a fourth state.

When the water in the water tank flows to the heat exchange device through the switching base and does not reach the preset temperature after being cooled by the heat exchange device, the controller controls the second electromagnetic valve to be in a third state, the second electromagnetic valve is connected with the waterway assembly along the direction from the heat exchange device to the switching base, that is, water flows back to the water tank through the switching base and enters the next circulation, that is, the water in the water tank flows through the switching base to the heat exchange device again, so that the water temperature is further reduced until the water temperature reaches the preset temperature, otherwise, the circulation can be continued all the time.

When the water temperature is reduced to the preset temperature, the controller controls the second electromagnetic valve to be in a fourth state, the second electromagnetic valve is communicated with the waterway assembly along the direction from the heat exchange device to the water outlet nozzle, and water flows to the water outlet nozzle, so that the purpose of cold water outlet is realized.

In any of the above technical solutions, further, the water dispenser further includes: the first temperature detection piece is electrically connected with the controller and is used for detecting the water outlet temperature of the adapter base; the second temperature detection piece is electrically connected with the controller and is used for detecting the water outlet temperature of the heat exchange device; the third temperature detection piece is electrically connected with the controller and is positioned at the water outlet nozzle, and the third temperature detection piece is used for detecting the water temperature of the part of the waterway assembly positioned between the heat exchange device and the water outlet nozzle; the fourth temperature detection piece is electrically connected with the controller and is positioned at the water outlet nozzle, and the fourth temperature detection piece is used for detecting the water temperature of the part of the waterway assembly positioned between the heating device and the water outlet nozzle; the controller is also used for controlling the output power of the heating device according to the detection data of the first temperature detection piece, adjusting the output power of the heating device according to the detection data of the fourth temperature detection piece, switching the working state of the second electromagnetic valve according to the detection data of the second temperature detection piece, and controlling the output power of the heat exchange device according to the detection data of the third temperature detection piece.

In the technical scheme, the structure of the water dispenser is further limited, and the water dispenser further comprises a first temperature detection piece, a second temperature detection piece, a third temperature detection piece and a fourth temperature detection piece.

The first temperature detection piece is connected with the controller electricity, and first temperature detection piece is located switching base department, and first temperature detection piece is used for detecting switching base's play water temperature, is used for detecting initial temperature promptly. The first temperature detecting piece transmits a first signal to the controller, and the controller controls the output power of the heating device so as to output the designated water outlet temperature.

The fourth temperature detection piece is connected with the controller electricity, and the fourth temperature detection piece is located water outlet nozzle department, and the fourth temperature detection piece is used for detecting the temperature of the water route subassembly in the part between heating device and the water outlet nozzle, that is, detects whether water outlet temperature reaches the requirement of predetermineeing. The fourth temperature detecting piece transmits a fourth signal to the controller, and the controller dynamically adjusts the output power of the heating device.

The second temperature detection piece is connected with the controller electricity, and the second temperature detection piece is located heat transfer device's exit, and the second temperature detection piece is used for detecting heat transfer device's play water temperature, and that is, whether the water after heat transfer device heat transfer detects through the second temperature detection piece and reaches the temperature of predetermineeing. The second temperature detection part transmits the first signal to the controller, if the outlet water temperature of the heat exchange device does not reach the preset temperature, the controller controls the second electromagnetic valve to switch to the third state, the second electromagnetic valve conducts the waterway assembly along the direction from the heat exchange device to the switching base, that is, water flows back to the water tank through the switching base to enter the next circulation until the outlet water temperature of the heat exchange device reaches the preset temperature.

The third temperature detection piece is connected with the controller electricity, and the third temperature detection piece is located water outlet nozzle department, and the third temperature detection piece is used for detecting the temperature of the water route subassembly in the part between heat transfer device and the water outlet nozzle, that is, detects whether water outlet temperature reaches the requirement of predetermineeing. The third temperature detection part transmits a third signal to the controller, and the controller dynamically adjusts the output power of the heat exchange device.

Additional aspects and advantages of the utility model will be set forth in part in the description which follows, or may be learned by practice of the utility model.

Drawings

The foregoing and/or additional aspects and advantages of the utility model will become apparent and may be better understood from the following description of embodiments taken in conjunction with the accompanying drawings in which:

FIG. 1 shows a schematic structure of a water dispenser according to an embodiment of the present utility model;

FIG. 2 shows a schematic diagram of an operator's hand triggered water dispenser in accordance with one embodiment of the present utility model;

FIG. 3 is a schematic view showing a first partial structure of a water dispenser according to an embodiment of the present utility model;

FIG. 4 is a schematic view showing a structure of a second part of the water dispenser according to the embodiment of the utility model;

FIG. 5 shows a schematic view of a portion of the structure of a drinking water heating mechanism according to an embodiment of the present utility model;

Fig. 6 is a schematic diagram showing a part of the structure of a water dispenser for circulating refrigeration and outputting cold water according to an embodiment of the present utility model.

Wherein, the correspondence between the reference numerals and the component names in fig. 1 to 6 is:

100 water dispenser, 110 frame, 112 water outlet, 114 light transmission part, 130 display control device, 131 halation film, 132 trigger part, 134 luminous structure, 136 trigger area, 138 luminous element, 140 water outlet device, 142 pump body, 144 first electromagnetic valve, 146 second electromagnetic valve, 170 switching base, 172 first joint part, 180 water tank, 190 waterway assembly, 200 heating device, 210 heat exchange device, 220 first temperature detection part, 230 second temperature detection part, 240 third temperature detection part, 250 fourth temperature detection part.

Detailed Description

In order that the above-recited objects, features and advantages of the present utility model will be more clearly understood, a more particular description of the utility model will be rendered by reference to the appended drawings and appended detailed description. It should be noted that, without conflict, the embodiments of the present utility model and features in the embodiments may be combined with each other.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model, however, the present utility model may be practiced in other ways than those described herein, and therefore the scope of the present utility model is not limited to the specific embodiments disclosed below.

Referring now to fig. 1-6, a water dispenser 100 according to some embodiments of the present utility model is described.

As shown in fig. 1, 2, 3 and 4, a water dispenser 100 according to some embodiments of the present utility model includes a frame 110, a controller, a display control device 130 and a water outlet device 140.

The housing 110 is provided with a water outlet 112.

The controller is disposed in the housing 110.

The display control device 130 is disposed in the frame 110, the frame 110 is provided with a light-transmitting member 114, and the light-transmitting member 114 is disposed corresponding to the display control device 130.

The display control device 130 includes a trigger 132 and a light emitting structure 134.

The trigger 132 and the light emitting structure 134 are both electrically connected to a controller.

The light generated by the light emitting structure 134 is emitted out of the frame 110 through the light transmitting member 114.

The water outlet device 140 is arranged on the frame 110, the water outlet device 140 is communicated with the water outlet nozzle 112, and the water outlet device 140 is electrically connected with the controller.

When the trigger 132 is triggered, the controller is used to control the light emitting structure 134 and the water outlet device 140 to operate.

In this embodiment, the water dispenser 100 includes a frame 110, a controller, a display control device 130, and a water outlet device 140.

The controller is disposed in the frame 110, the display control device 130 is disposed in the frame 110, and the water outlet device 140 is disposed in the frame 110. That is, the frame 110 has the function of installing and fixing the controller, the display control device 130 and the water outlet device 140, and can ensure the matching sizes of the controller, the display control device 130 and the water outlet device 140.

The display control device 130 is located in the frame 110, the display control device 130 includes a trigger member 132 and a light emitting structure 134, the frame 110 is provided with a light transmitting member 114, and the light transmitting member 114 is disposed corresponding to the display control device 130, so that light generated by the operation of the light emitting structure 134 can be transmitted out of the frame 110 through the light transmitting member 114. That is, the light transmitting member 114 has a function of transmitting the light generated by the light emitting structure 134 out of the frame 110, so that an operator can observe and determine whether the display control device 130 is operated from the outer surface of the frame 110.

The frame 110 is provided with a water outlet 112, the water dispenser 100 further comprises a water outlet device 140, the water outlet device 140 is communicated with the water outlet 112 arranged on the frame 110, and the water outlet device 140 works to achieve the purpose of water outlet of the water outlet 112 of the water dispenser 100.

The trigger 132 of the display control device 130 is electrically connected to the controller, the light emitting structure 134 of the display control device 130 is electrically connected to the controller, and the water outlet device 140 is electrically connected to the controller. When an operator needs to draw water, the trigger piece 132 can be triggered, the trigger piece 132 is triggered, the trigger piece 132 transmits signals to the controller, and the controller controls the light-emitting structure 134 and the water outlet device 140 to work. The light emitting structure 134 can transmit light outwards through the light transmitting member 114, and the water outlet device 140 can output water. That is, when the trigger 132 is triggered, the water dispenser 100 can emit light as well as water. That is, when the trigger 132 is triggered, the water dispenser 100 will emit water and light, and the water dispenser 100 emits water with light, and the water dispenser 100 emits water and light with relevance. Thus, after the operator activates the trigger 132, the operator may stay beside the water dispenser 100 or leave the water dispenser 100 to do other emergency, because whether the operator is closer to the water dispenser 100 or further from the water dispenser 100, the operator can determine whether the water dispenser 100 is discharging water by emitting light from the water dispenser 100. Meanwhile, the operator can also judge whether the trigger 132 is successfully triggered by whether the light emitting structure 134 emits light. The operator can intuitively know the triggering state of the triggering piece 132, and the situation that the operator repeatedly triggers the triggering piece 132 is avoided.

This setting has promoted the performance and the simple operation of water dispenser 100, and because can give out light when water dispenser 100 goes out water, like this, can also promote the aesthetic property when water dispenser 100 uses for the operator can more audio-visual understanding water dispenser 100's operating condition.

In some embodiments, as shown in fig. 4, the triggering member 132 is located between the light emitting structure 134 and the light transmitting member 114.

In this embodiment, the mating structures of the triggering member 132, the light emitting structure 134, and the light transmissive member 114 are further defined such that the triggering member 132 is located between the light emitting structure 134 and the light transmissive member 114. That is, the triggering member 132 is closer to the light-transmitting member 114 than the light-emitting structure 134, so that the triggering sensitivity of the display control device 130 can be improved, so that the operator can trigger the triggering member 132 by applying a smaller force.

Specifically, the operator touches the translucent member 114 with his hand, thereby achieving the purpose of triggering the trigger member 132. That is, an external force acts on the light-transmitting member 114 to trigger the triggering member 132.

Specifically, the outer edge of the light-transmitting member 114 is disposed corresponding to the outer edge of the triggering member 132, that is, the light-transmitting member 114 is capable of covering the triggering member 132. Alternatively, the outer edge of the optically transparent member 114 is located outside the outer edge of the triggering member 132, i.e., the optically transparent member 114 can not only cover the triggering member 132, but can also extend outside the triggering member 132.

In some embodiments, trigger 132 comprises an ITO film.

In this embodiment, the structure of the triggering piece 132 is refined, and in particular, the triggering piece 132 includes an ITO film. Through capacitive sensing, when the hand of an operator touches the ITO film, the track of hand sliding can be identified, and the touch screen has higher sensitivity.

Of course, the triggering member 132 may also include a nanowire layer or the like, which is not illustrated herein.

In some embodiments, as shown in fig. 4, the display control device 130 further includes a vignetting film 131.

The vignetting film 131 is connected to the side of the trigger 132 facing the light emitting structure 134.

In this embodiment, the display control device 130 further includes a vignetting film 131, where the vignetting film 131 is connected to the trigger 132, and the vignetting film 131 is located on a side of the trigger 132 facing the light emitting structure 134.

The halation film 131 has a halation state for making the light reach soft transition, and can promote the softness of light transmission.

In some embodiments, as shown in fig. 2 and 3, the trigger 132 is located on a side of the frame 110.

In this embodiment, the mating structure of the triggering member 132 and the frame 110 is further defined, specifically, the triggering member 132 is located in the frame 110, the triggering member 132 is located at a side portion of the frame 110, and the triggering member 132 is disposed corresponding to the light transmitting member 114 at the side portion of the frame 110.

The operator's hand triggers the side of the housing 110 for the purpose of triggering the trigger 132. The position setting of the trigger 132 is more adapted to the height of the operator, so that the operator can operate more conveniently.

Specifically, the frame 110 includes a top, a side, and a bottom, the side being connected between the top and the bottom, the bottom of the frame 110 being placed on the ground or on a stage.

The triggering element 132 may be located at one side of the frame 110, or the triggering element 132 may be located at two side of the frame 110.

In some embodiments, as shown in fig. 4, the trigger 132 includes a plurality of trigger areas 136, the plurality of trigger areas 136 extending along the height direction of the frame 110.

The light emitting structure 134 is provided with a plurality of light emitting elements 138, and each trigger region 136 is disposed corresponding to at least one light emitting element 138.

Wherein the controller is configured to control the operation of the light emitting element 138 corresponding to the triggered trigger region 136.

In this embodiment, the trigger 132 and the light emitting structure 134 are further refined. The triggering member 132 includes a plurality of triggering areas 136, and the light emitting structure 134 is provided with a plurality of light emitting elements 138, and each triggering area 136 is disposed corresponding to at least one light emitting element 138. The plurality of light emitting elements 138 are distributed along with the distribution position of the plurality of trigger areas 136, for example, the plurality of light emitting elements 138 extend along the height direction of the frame 110.

It will be appreciated that each trigger region 136 is electrically connected to the controller and each light emitting element 138 is electrically connected to the controller. The operator's hand slides on the housing 110 and slides to a position corresponding to the trigger area 136, the trigger area 136 is triggered, the trigger 132 sends a signal to the controller, and the controller controls the light emitting element 138 corresponding to the trigger area 136 to operate. That is, the light of the display control device 130 moves along with the sliding track of the hand of the operator, so that the interaction perception is more visual, and the usability and the market competitiveness of the water dispenser 100 are improved.

In some embodiments, each light emitting element 138 is provided with a plurality of light emitting portions, and the light emitting colors of any two light emitting portions are different.

In this embodiment, the light emitting structure 134 is further thinned, and the light emitting structure 134 includes a plurality of light emitting elements 138, each light emitting element 138 being provided with a plurality of light emitting portions, and light emitting colors of any two of the plurality of light emitting portions are different. That is, the light emitting element 138 may emit light of various colors.

In some embodiments, the water dispenser 100 further includes a sensor.

The sensor is arranged on the frame 110, is electrically connected with the controller and is used for identifying the type of the brewing substances.

The controller is also used for determining the water temperature according to the detection data of the sensor and controlling the light emitting part corresponding to the water temperature to work.

In this embodiment, the structure of the water dispenser 100 is further defined, specifically, the water dispenser 100 further includes a sensor, the sensor is disposed on the frame 110, and the frame 110 serves as a mounting carrier for the sensor, and has functions of mounting and fixing the sensor.

The sensor is electrically connected with the controller, an operator places a water cup filled with the brewing substances at the water outlet nozzle 112, the sensor identifies the type of the brewing substances and sends data of the type of the brewing substances to the controller, and the controller determines the water temperature corresponding to the type of the brewing substances according to the detection data of the sensor, for example, cold water is discharged when the brewing substances are lemon, hot water is discharged when the brewing substances are tea, and the water is discharged when the brewing substances are empty. And a controller for controlling the operation of the light emitting part corresponding to the water temperature according to the water temperature.

Since the light emitting colors of any two light emitting portions are different, water of different temperatures is emitted, and the water dispenser 100 emits light of different colors. For example, blue light is emitted when the water outlet temperature is 10 ℃ to 15 ℃, yellow light is emitted when the water outlet temperature is 16 ℃ to 45 ℃, red light is emitted when the water outlet temperature is more than or equal to 46 ℃, and the like, which are not listed herein.

That is, the operator can know the water outlet temperature through the emitted light color, so that the effect of reminding the operator of the water outlet temperature can be achieved, the operator is prevented from being scalded, and the safety and the reliability of the water dispenser 100 are improved. In addition, the operator can determine whether the water outlet temperature is matched with the brewing species through the color of the emitted light, so as to determine whether the water dispenser 100 is in a normal working state.

Specifically, each light emitting element 138 may emit light of a plurality of colors.

Specifically, a sensor is located at the spout 112 to facilitate rapid identification of the brew.

In some embodiments, the water dispenser 100 further includes a liquid level detection member.

The liquid level detecting member is disposed on the frame 110, and the liquid level detecting member is disposed at the water outlet 112.

The liquid level detecting member is electrically connected to the controller, and the controller is further configured to control the operating states of the plurality of light emitting elements 138 according to the detection data of the liquid level detecting member.

Wherein the active body of the light emitting element 138 includes quenching and/or blinking.

In this embodiment, further defining the structure of the water dispenser 100, the water dispenser 100 further includes a liquid level detecting member electrically connected to the controller, the liquid level detecting member is configured to detect whether the water line reaches the height of the cup opening, and the liquid level detecting member sends detection data to the controller for the controller to control the working states of the plurality of light emitting elements 138. For example, when the water level reaches ninety percent of the height of the cup, the controller controls the plurality of light emitting elements 138 to flash several times to alert the operator that water is ready for use. For example, when the height of the water line reaches eighty percent of the height of the cup, the controller controls the water outlet device 140 to stop operating. For example, when the height of the water line reaches eighty percent of the height of the cup, the light emitting element 138 is controlled to extinguish.

Further, the state of the light emitting element 138 includes any one or more of extinction and blinking, so that the state of the light emitting element 138 and the light emitting color of the light emitting element 138 can be combined to form various display states of the display control device 130, and thus one display state corresponds to one working state of the water dispenser 100, so that the working state of the water dispenser 100 can be displayed in a refined manner, and a user can fully know the working state of the water dispenser 100.

In some embodiments, as shown in fig. 5 and 6, the water dispenser 100 further includes a adaptor base 170, a water tank 180, and a waterway assembly 190.

The adaptor base 170 is disposed on the frame 110.

The water tank 180 is detachably provided to the housing 110.

The waterway assembly 190 is disposed in the frame 110, and the waterway assembly 190 connects the adaptor base 170 and the water outlet 112.

In this embodiment, the water dispenser 100 further includes a adaptor base 170, a water tank 180 and a waterway assembly 190, wherein the inner surface of the frame 110 defines a through installation cavity, and the water tank 180 is detachably disposed in the installation cavity. Waterway assembly 190 is coupled to adapter base 170, and waterway assembly 190 is coupled to spout 112.

When the water dispenser 100 is required to be used, the water tank 180 is placed in the frame 110, so that the first connector portion 172 of the adapter base 170 is connected with the second connector portion of the water tank 180. In this way, water within tank 180 may flow through adaptor base 170 to waterway assembly 190 and through waterway assembly 190 to spout 112.

When it is necessary to clean, maintain the water tank 180, or to add water to the water tank 180, the water tank 180 is taken out from the frame 110.

The water tank 180 is detachably connected with the frame 110, so that the disassembly and assembly of the water tank 180 and the frame 110 and the installation position of the water tank 180 relative to the frame 110 can be determined according to actual conditions, the water dispenser 100 can be further suitable for the use requirements of different models, the adaptability of products is high, and the use performance of the products is improved.

It can be appreciated that after the water tank 180 is assembled with the frame 110, the water tank 180 is located in the frame 110, and the frame 110 has the functions of installing and fixing the water tank 180, protecting the water tank 180, and reducing the occurrence probability of damage to the water tank 180 caused by external force acting on the water tank 180.

Specifically, when the water tank 180 is placed in the frame 110, the frame 110 is located at the peripheral side of the water tank 180, the frame 110 has a ring structure, and the frame 110 covers the peripheral side of the water tank 180.

In some embodiments, as shown in fig. 5 and 6, the water dispenser 100 further includes a heating device 200 and a heat exchanging device 210.

The heating device 200 is disposed in the frame 110, and the heating device 200 is connected to the waterway assembly 190.

The heat exchanging device 210 is connected to one side of the frame 110, the heat exchanging device 210 is connected to the waterway assembly 190, and the heating device 200 and the heat exchanging device 210 are electrically connected to the controller.

The water outlet device 140 includes a pump body 142 and a first solenoid valve 144.

The first solenoid valve 144 is switchable between a first state and a second state.

When the first solenoid valve 144 is in the first state, the first solenoid valve 144 conducts the waterway assembly 190 along the direction from the adaptor base 170 to the heating device 200.

When the first solenoid valve 144 is in the second state, the first solenoid valve 144 conducts the waterway assembly 190 along the direction from the adaptor base 170 to the heat exchange device 210.

In this embodiment, the water dispenser 100 further includes a heating device 200 and a heat exchanging device 210.

The heating device 200 is electrically connected with a controller, the controller controls the heating device 200 to work, and the heating device 200 can heat water to meet the use requirement of hot water.

The heat exchange device 210 is electrically connected with a controller, the controller controls the heat exchange device 210 to work, and the heat exchange device 210 can be used for producing cold water to meet the use requirement of cold water.

Further, the water outlet device 140 is electrically connected to the controller, the water outlet device 140 includes a pump body 142 and a first electromagnetic valve 144, that is, the pump body 142 is electrically connected to the controller, the first electromagnetic valve 144 is electrically connected to the controller, the controller controls the pump body 142 to work, and the controller also controls the first electromagnetic valve 144 to work.

The pump body 142 operates to power the flow of water.

The first solenoid valve 144 is switchable between a first state and a second state. When the first electromagnetic valve 144 is in the first state, the first electromagnetic valve 144 conducts the waterway assembly 190 along the direction from the adaptor base 170 to the heating device 200, at this time, water flow can flow to the heating device 200, and the heating device 200 can heat the water flow to meet the use requirement of hot water. When the first electromagnetic valve 144 is in the second state, the first electromagnetic valve 144 conducts the waterway assembly 190 along the direction from the adapter base 170 to the heat exchange device 210, at this time, water flow can flow to the heat exchange device 210, and the heat exchange device 210 can work to make cold water so as to meet the use requirement of cold water.

Wherein arrows in fig. 5 indicate the flow direction of water during heating. The solid arrows in fig. 6 indicate the flow direction of water at the time of circulation cooling, and the broken arrows indicate the flow direction of water at the time of cold water output.

In some embodiments, as shown in fig. 5 and 6, the water outlet device 140 includes a second solenoid valve 146.

The second solenoid valve 146 is switchable between a third state and a fourth state.

When the second solenoid valve 146 is in the third state, the second solenoid valve 146 is used for conducting the waterway assembly 190 along the direction from the heat exchange device 210 to the adaptor base 170.

When the second electromagnetic valve 146 is in the fourth state, the second electromagnetic valve 146 is used for conducting the waterway assembly 190 along the direction from the heat exchange device 210 to the water outlet 112.

In this embodiment, the water outlet device 140 is electrically connected to the controller, and the water outlet device 140 includes a second solenoid valve 146. The second solenoid valve 146 is electrically connected to the controller, the second solenoid valve 146 being switchable between a third state and a fourth state.

When the water in the water tank 180 flows to the heat exchange device 210 through the adapter base 170 and the temperature after being cooled by the heat exchange device 210 does not reach the preset temperature, the controller controls the second electromagnetic valve 146 to be in the third state, the second electromagnetic valve 146 conducts the waterway assembly 190 along the direction from the heat exchange device 210 to the adapter base 170, that is, the water flows back to the water tank 180 through the adapter base 170 to enter the next circulation, that is, the water in the water tank 180 flows through the heat exchange device 210 again through the adapter base 170, so as to further reduce the water temperature until the water temperature reaches the preset temperature, otherwise the circulation is continued.

When the water temperature is reduced to the preset temperature, the controller controls the second electromagnetic valve 146 to be in the fourth state, the second electromagnetic valve 146 is connected with the waterway assembly 190 along the direction from the heat exchange device 210 to the water outlet nozzle 112, and the water flows to the water outlet nozzle 112, so that the purpose of discharging cold water is achieved.

In some embodiments, as shown in fig. 5 and 6, the water dispenser 100 further includes a first temperature detecting member 220, a second temperature detecting member 230, a third temperature detecting member 240, and a fourth temperature detecting member 250.

The first temperature detecting element 220 is electrically connected to the controller, and the first temperature detecting element 220 is used for detecting the water outlet temperature of the adaptor base 170.

The second temperature detecting element 230 is electrically connected to the controller, and the second temperature detecting element 230 is configured to detect the outlet water temperature of the heat exchange device 210.

The third temperature detecting member 240 is electrically connected to the controller and located at the water outlet 112, and the third temperature detecting member 240 is used for detecting the water temperature of the portion of the waterway assembly 190 located between the heat exchange device 210 and the water outlet 112.

The fourth temperature detecting member 250 is electrically connected to the controller and located at the water outlet nozzle 112, and the fourth temperature detecting member 250 is used for detecting the water temperature of the portion of the waterway assembly 190 located between the heating device 200 and the water outlet nozzle 112.

The controller is further configured to control the output power of the heating device 200 according to the detection data of the first temperature detecting element 220, to adjust the output power of the heating device 200 according to the detection data of the fourth temperature detecting element 250, to switch the operating state of the second electromagnetic valve 146 according to the detection data of the second temperature detecting element 230, and to control the output power of the heat exchanging device 210 according to the detection data of the third temperature detecting element 240.

In this embodiment, the structure of the water dispenser 100 is further defined, and the water dispenser 100 further includes a first temperature sensing member 220, a second temperature sensing member 230, a third temperature sensing member 240, and a fourth temperature sensing member 250.

The first temperature detecting element 220 is electrically connected to the controller, the first temperature detecting element 220 is located at the adaptor base 170, and the first temperature detecting element 220 is used for detecting the outlet water temperature of the adaptor base 170, that is, for detecting the initial water temperature. The first temperature detecting member 220 transmits a first signal to a controller, and the controller controls the output power of the heating device 200 so as to output a designated outlet water temperature.

The fourth temperature detecting member 250 is electrically connected to the controller, the fourth temperature detecting member 250 is located at the water outlet 112, and the fourth temperature detecting member 250 is used for detecting the water temperature of the portion of the waterway assembly 190 located between the heating device 200 and the water outlet 112, that is, detecting whether the water outlet temperature reaches the preset requirement. The fourth temperature detecting member 250 transmits a fourth signal to the controller, and the controller dynamically adjusts the output power of the heating device 200.

The second temperature detecting element 230 is electrically connected to the controller, the second temperature detecting element 230 is located at an outlet of the heat exchange device 210, and the second temperature detecting element 230 is used for detecting a water outlet temperature of the heat exchange device 210, that is, whether the water after heat exchange of the heat exchange device 210 reaches a preset temperature or not is detected by the second temperature detecting element 230. The second temperature detecting element 230 transmits the first signal to the controller, if the outlet water temperature of the heat exchange device 210 does not reach the preset temperature, the controller controls the second electromagnetic valve 146 to switch to the third state, and the second electromagnetic valve 146 conducts the waterway assembly 190 along the direction from the heat exchange device 210 to the adaptor base 170, that is, the water flows back to the water tank 180 through the adaptor base 170 to enter the next cycle until the outlet water temperature of the heat exchange device 210 reaches the preset temperature.

The third temperature detecting element 240 is electrically connected to the controller, the third temperature detecting element 240 is located at the water outlet 112, and the third temperature detecting element 240 is used for detecting the water temperature of the portion of the waterway assembly 190 located between the heat exchange device 210 and the water outlet 112, that is, detecting whether the water outlet temperature reaches the preset requirement. The third temperature detecting element 240 transmits a third signal to the controller, and the controller dynamically adjusts the output power of the heat exchanging device 210.

In some embodiments, the water dispenser 100 further comprises: a driving device provided in the frame 110; the adaptor base 170 is provided with a first joint part 172, and the driving device is used for driving the adaptor base 170 to move relative to the frame 110 so as to switch between a first position and a second position; the water tank 180 is provided with a second joint part; when the adaptor base 170 is in the first position, the first joint part 172 can be connected with the second joint part; when the adaptor base 170 is in the second position, the first connector 172 is separated from the second connector.

In this embodiment, the inner surface of the frame 110 defines a through-going mounting cavity, and the water tank 180 is removably disposed in the mounting cavity. When the water dispenser 100 is required to be used, the water tank 180 is placed in the installation cavity, and the switching base 170 is driven by the driving device to move relative to the frame 110 so as to switch to the first position, and the first joint part 172 of the switching base 170 is connected with the second joint part of the water tank 180. In this way, water within tank 180 may flow through adaptor base 170 to waterway assembly 190 and through waterway assembly 190 to spout 112.

When the water tank 180 needs to be cleaned, maintained, or water is added into the water tank 180, the driving device drives the adaptor base 170 to move relative to the frame 110 to switch to the second position, and the first joint 172 of the adaptor base 170 is separated from the second joint of the water tank 180. The water tank 180 may then be withdrawn from the mounting cavity. Since the adaptor base 170 is located at the second position, the first joint portion 172 is separated from the second joint portion, that is, the first joint portion 172 and the second joint portion do not interfere when the water tank 180 is separated from the frame 110, so that damage to the first joint portion 172 and the second joint portion during disassembly and assembly of the water tank 180 can be avoided.

In addition, since the adaptor base 170 can move relative to the frame 110, the driving device drives the adaptor base 170 to move, so that the positional relationship between the first joint portion 172 of the adaptor base 170 and the second joint portion of the water tank 180 can be adjusted, and thus, when the water tank 180 and the frame 110 are assembled, the first joint portion 172 and the second joint portion will not interfere, and when the water tank 180 is disassembled, the first joint portion 172 and the second joint portion will not interfere, which is beneficial to reducing difficulty in disassembling the water tank 180, improving the disassembly efficiency of the water tank 180, and not damaging the frame 110 and the water tank 180.

Specifically, when the water tank 180 is placed in the installation cavity, the frame 110 is located at the peripheral side of the water tank 180, the frame 110 is in an annular structure, and the frame 110 covers the peripheral side of the water tank 180.

Specifically, when the water tank 180 is assembled, a part of the water tank 180 is first placed in the installation cavity, the driving device controls the adaptor base 170 to move to the first position, so that the first joint portion 172 of the adaptor base 170 is flush with the second joint portion of the water tank 180, and then the water tank 180 is pushed into the installation cavity entirely, so that the first joint portion 172 of the adaptor base 170 is connected with the second joint portion of the water tank 180.

Specifically, when the water tank 180 is disassembled, the driving device drives the adaptor base 170 to move to the second position, so that the first joint part 172 of the adaptor base 170 is separated from the second joint part of the water tank 180, and then the water tank 180 is drawn out from the installation cavity.

In some embodiments, the frame 110 is provided with an opening; when the adaptor base 170 is at the first position, the adaptor base 170 extends into the mounting cavity through the opening; when the adaptor base 170 is in the second position, the adaptor base 170 is received in the frame 110 through the opening.

In this embodiment, the mating structure of the adaptor base 170 and the housing 110 is further defined.

When the adaptor base 170 is in the first position, the adaptor base 170 protrudes into the mounting cavity through the opening. That is, when the water tank 180 is assembled with the frame 110, the driving device drives the adaptor base 170 to extend into the mounting cavity through the opening, so that the first joint part 172 and the second joint part are connected.

When the adaptor base 170 is at the second position, the adaptor base 170 is received in the frame 110 through the opening, that is, when the water tank 180 is detached, the driving device drives the adaptor base 170 to be received in the frame 110 through the opening, so as to separate the first joint portion 172 from the second joint portion. That is, when the adaptor base 170 is in the second position, the frame 110 has the function of accommodating the adaptor base 170, and the adaptor base 170 does not protrude from the frame 110. The frame 110 can also be said to have the function of hiding the adaptor base 170. This arrangement can ensure the overall appearance of the frame 110, and is advantageous in improving the aesthetic appearance of the frame 110 not equipped with the water tank 180.

In some embodiments, when the adaptor base 170 is in the second position, a side of the adaptor base 170 facing the top of the frame 110 is coplanar with the end face where the opening is located.

In this embodiment, the mating structure of the adaptor base 170 and the housing 110 is further defined such that when the adaptor base 170 is in the second position, a side of the adaptor base 170 facing the top of the housing 110 is coplanar with the plane in which the opening is located. That is, the end face where the opening is located is a first end face, the end face of the adaptor base 170 facing the top of the frame 110 is a second end face, and the first end face and the second end face are coplanar.

That is, when the adaptor base 170 is in the second position, the adaptor base 170 is adapted to the shape of the frame 110, and it is also understood that the adaptor base 170 forms a part of the frame 110, the adaptor base 170 can seal the opening of the frame 110, the frame 110 has the function of accommodating the adaptor base 170, and the adaptor base 170 does not protrude from the frame 110. Thus, the fluidity and the appearance of the housing 110 can be ensured.

In some embodiments, when the adaptor base 170 is in the second position, the first connector 172 is located in the housing 110.

In this embodiment, the mating structure of the adaptor base 170 and the housing 110 is further defined such that the first connector portion 172 is positioned within the housing 110 when the adaptor base 170 is in the second position. That is, when the adaptor base 170 is at the second position, the first connector 172 is not exposed out of the frame 110, the first connector 172 is hidden in the frame 110, and the frame 110 has the function of protecting and accommodating the first connector 172. In this way, moisture, dirt, etc. in the environment will not enter the first joint part 172, which can ensure the cleanliness of the first joint part 172, and provide structural support for the effective connection of the first joint part 172 and the second joint part.

Specifically, the top surface of the adaptor base 170 is coplanar with the end surface where the opening is located, that is, the top surface of the adaptor base 170 can seal the opening, and this arrangement can ensure the integrity and smoothness of the appearance of the frame 110.

In some embodiments, the water dispenser 100 further comprises: the water tank 180 is provided with a recognition sensor and is arranged on the frame 110; the water tank 180 identification sensor and the driving device are electrically connected with a controller, and the controller is used for controlling the driving device to work according to the detection data of the water tank 180 identification sensor.

In this embodiment, the structure of the water dispenser 100 is further defined, and in particular, the water dispenser 100 further includes a water tank 180 identification sensor and a controller. Both the water tank 180 identification sensor and the driving device are electrically connected to the controller, i.e., the water tank 180 identification sensor is electrically connected to the controller and the driving device is electrically connected to the controller.

When the water tank 180 is assembled, when the water tank 180 reaches the detection range of the water tank 180 identification sensor, the water tank 180 identification sensor sends detection data to the controller, the controller determines the water tank 180 according to the detection data of the water tank 180 identification sensor, the controller controls the driving device to work so that the switching base 170 is switched to the first position, the first joint part 172 of the switching base 170 is level with the position of the second joint part of the water tank 180, and then the water tank 180 is pushed into the mounting cavity entirely, so that the first joint part 172 of the switching base 170 is connected with the second joint part of the water tank 180. This setting has realized that adapter base 170 goes up and down automatically, for the effective electricity of water tank 180 and adapter base 170 is connected and is provided effective and reliable structural support, has promoted the intelligent degree of water dispenser 100, has liberated operator's both hands, has promoted the performance and the market competition of product.

In some embodiments, the bottom of the water tank 180 is provided with a first roller portion.

In this embodiment, through the structure of rationally setting up water tank 180 for the bottom of water tank 180 is equipped with first gyro wheel portion, when pushing into framework 110 with water tank 180, the resistance when pushing into water tank 180 can be reduced in the structural setting of first gyro wheel portion, and the completion water tank 180 that the operator can be lighter assembles and dismantles water tank 180 with framework 110, and the maneuverability is strong, and assembly efficiency is high.

In some embodiments, the water tank 180 is provided with a notch, the second connector portion is provided at the notch, and when the adaptor base 170 is in the first position, the adaptor base 170 is inserted into the notch.

In this embodiment, the structure of the water tank 180 is further defined, the water tank 180 is provided with a notch, the second joint part is arranged at the notch, that is, the notch is used as an installation carrier of the second joint part, and has the function of installing and fixing the second joint part, the mouth wall of the notch has the function of protecting the second joint part, so that the situation that the second joint part is damaged due to the action of external force can be reduced. When the water tank 180 is assembled with the frame 110, the adaptor base 170 is inserted into the notch to meet the use requirement of the first connector 172 and the second connector. That is, the connection of the first joint part 172 and the second joint part is located in the notch, that is, the notch has the function of hiding the first joint part 172 and the second joint part, and the arrangement can reduce the overall assembly size of the water tank 180 and the frame 110, while ensuring the stability and reliability of the assembly of the first joint part 172 and the second joint part, without increasing the external dimension of the water dispenser 100.

In addition, the adaptor base 170 is inserted into a notch, and the opening wall of the notch cooperates with the outer surface of the adaptor base 170 to limit the displacement of the water tank 180 relative to the frame 110, so as to avoid the displacement of the water tank 180 relative to the frame 110. And this arrangement ensures the mating position and mating dimensions of the first and second connector portions 172, providing reliable structural support for efficient assembly of the water tank 180 to the set position.

In some embodiments, the bottom wall of the water tank 180 forms part of the notch and the peripheral wall of the water tank 180 forms another part of the notch.

In this embodiment, the structure of the water tank 180 is further defined, and in particular, the water tank 180 includes a bottom wall and a peripheral wall, the peripheral wall is connected to a peripheral side of the bottom wall of the water tank 180, the bottom wall of the water tank 180 forms a part of the notch, and the peripheral wall of the water tank 180 forms another part of the notch, which can be understood as an "L" shape. The notch can also be said to be of an open structure.

Specifically, when the water tank 180 is assembled, a part of the water tank 180 is placed in the installation cavity, the water tank 180 identification sensor sends detection data to the controller, the controller determines the water tank 180 according to the detection data of the water tank 180 identification sensor, and the controller controls the driving device to work so that the switching base 170 is switched to the first position, and the first joint 172 of the switching base 170 is level with the second joint of the water tank 180. And then the water tank 180 is pushed into the mounting cavity, and the notch of the water tank 180 is aligned with the adapter base 170, so that the water tank 180 can be pushed into the frame 110 according to a predetermined path, and the first joint 172 and the second joint can be effectively connected.

The configuration of the notch ensures that the first and second connector portions 172 and 172 are in abutting engagement even if the water tank 180 is offset slightly relative to the housing 110. The assembly difficulty of the water tank 180 and the frame 110 is simplified, the operation difficulty of an operator is reduced, and the assembly efficiency of the water tank 180 and the frame 110 is improved.

The mating structure of the first and second connector portions 172, 172 is further defined such that one of the first and second connector portions is provided with an interface and the other is provided with a clasp. That is, the first joint part 172 is provided with an interface, the second joint part is provided with a buckle, or the first joint part 172 is provided with a buckle, and the second joint part is provided with an interface. The buckle is clamped with the interface so as to achieve the purpose of connecting the first joint part 172 and the second joint part.

This arrangement enables quick assembly of the water tank 180 with the frame 110.

For example, when the water tank 180 is provided with a buckle and the frame 110 is provided with an interface, the water tank 180 is pushed to the corresponding interface, so that the buckle and the interface can be aligned and clamped, after the first joint part 172 and the second joint part are connected, the water tank 180 can be communicated with the water path of the adapter base 170, and water in the water tank 180 can flow to the adapter base 170.

If the water tank 180 is provided with an interface, when the frame 110 is provided with a buckle, the water tank 180 is pushed to the corresponding buckle, so that the buckle and the interface can be aligned and clamped, the water tank 180 can be communicated with the water path of the adapter base 170 after the first joint part 172 and the second joint part are connected, and water in the water tank 180 can flow to the adapter base 170.

Specifically, as shown in fig. 2, the finger of the operator slides down on the right frame 110 to realize boiled water, and the lamplight moves along the track of the hand during the sliding process.

The setting makes interactive perception more visual and gives the user a emotional experience.

The water dispenser 100 includes a frame 110, a controller, a display control device 130 and a water outlet device 140.

The display control device 130 includes a light emitting structure 134, a trigger 132, and a vignetting film 131.

The light emitting structure 134 is an RGB (Red Green Blue), red, green, blue) LED strip. Through the halation film 131, the lamplight reaches a halation state of soft transition, and the RGB lamplight emits different colors of light when water with different temperatures appears, so that a user is prompted, and the method is more visual and humanized. For example, the water outlet temperature is blue light at 10-15 ℃, the water outlet temperature is yellow light at 16-45 ℃, and the water outlet temperature is red light at 46 ℃ or higher. When the water is full and the water is stopped, the whole lamp strip on the side edge can flash for 3 times, so that a user is prompted that the water is good, and the lamp strip can be taken.

The trigger 132 includes an ITO film, and by capacitive sensing, when a hand is in contact with the trigger 132, a track of the hand sliding can be recognized, thereby judging an issued instruction.

When the operator's hand slides down more than 60mm at any initial position of the right frame 110, the trigger 132 senses the operation, the trigger 132 transmits the detected data to the controller, the controller recognizes that the water outlet device 140 needs to be turned on, and the controller controls the light emitting structure 134 to emit light along the track along which the hand is drawn. The controller controls the water outlet device 140 to operate to outlet water.

The water dispenser 100 includes a sensor for identifying the type of brew, the sensor being provided at the spout 112. The controller controls the cold water when the infusion is lemon, the controller controls the boiled water when the infusion is tea, and the controller controls the warm water when the infusion is empty. The identification operation can also be set in the background of the mobile phone. This arrangement promotes the degree of intellectualization of the water dispenser 100, reduces the number of user's operation steps, and makes the water more convenient.

The water outlet nozzle 112 is provided with a liquid level detection part, when the water is taken in a sliding manner, the liquid level detection part can identify whether the water level line reaches the height of the cup mouth in real time in the water outlet process, and when the water level line reaches 80% of the cup height, the controller controls the water outlet device 140 to stop working, so that automatic water cut-off is realized.

As shown in fig. 5, arrows indicate the flow direction of water during heating, the water in the water tank 180 flows to the adapter base 170, the pump body 142 provides power for the water flow, the water is distributed to the heating device 200 by the first electromagnetic valve 144, and after heating, the water is discharged from the water outlet nozzle 112. The first temperature detecting member 220 is used for detecting the water outlet temperature of the adaptor base 170, that is, detecting the initial water temperature, and the first temperature detecting member 220 transmits a first signal to the controller, and the controller controls the output power of the heating device 200, thereby outputting a specified water outlet temperature. The fourth temperature detecting member 250 is used to detect the water temperature of the portion of the waterway assembly 190 located between the heating device 200 and the tap 112, that is, to detect whether the water temperature reaches a preset requirement. The fourth temperature detecting member 250 transmits a fourth signal to the controller, and the controller dynamically adjusts the output power of the heating device 200.

As shown in fig. 6, solid arrows indicate the flow direction of water at the time of circulation cooling, and broken arrows indicate the flow direction of water at the time of cold water output. The water in the water tank 180 flows to the adapter base 170, the pump body 142 provides power for the water flow, the first electromagnetic valve 144 conveys the water to the heat exchange device 210, and the heat exchange device 210 reduces the water temperature. The water cooled by the heat exchange device 210 is detected by the second temperature detecting member 230 to reach the preset temperature, and if the water does not reach the preset temperature, the controller controls the second electromagnetic valve 146 to switch to the third state, and the second electromagnetic valve 146 conducts the waterway assembly 190 along the direction from the heat exchange device 210 to the adapter base 170, that is, the water flows back to the water tank 180 through the adapter base 170 to enter the next cycle until the outlet water temperature of the heat exchange device 210 reaches the preset temperature. At this time, the water dispenser 100 prompts the user that the water temperature reaches the cold water state and can be taken. When the water outlet temperature reaches the preset temperature and the user takes the water, the controller controls the second electromagnetic valve 146 to switch to the fourth state, the second electromagnetic valve 146 conducts the waterway assembly 190 along the direction from the heat exchange device 210 to the water outlet nozzle 112, and the water flows to the water outlet nozzle 112, so that the purpose of discharging cold water is achieved.

In the present utility model, the term "plurality" means two or more, unless explicitly defined otherwise. The terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; "coupled" may be directly coupled or indirectly coupled through intermediaries. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

In the description of the present specification, the terms "one embodiment," "some embodiments," "particular embodiments," and the like, mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present utility model. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. The above description is only of the preferred embodiments of the present utility model and is not intended to limit the present utility model, but various modifications and variations can be made to the present utility model by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (13)

1. A water dispenser, comprising:

the frame body is provided with a water outlet nozzle;

the controller is arranged in the frame body;

the display control device is arranged in the frame body, the frame body is provided with a light transmission piece, the light transmission piece is arranged corresponding to the display control device, the display control device comprises a trigger piece and a light-emitting structure, the trigger piece and the light-emitting structure are electrically connected with the controller, and light generated by the work of the light-emitting structure is emitted out of the frame body through the light transmission piece;

the water outlet device is arranged on the frame body and communicated with the water outlet nozzle, and the water outlet device is electrically connected with the controller;

when the trigger piece is triggered, the controller is used for controlling the light-emitting structure and the water outlet device to work.

2. The water dispenser of claim 1, wherein the trigger member is located between the light emitting structure and the light transmissive member.

3. The water dispenser of claim 2 wherein the trigger comprises an ITO film.

4. The water dispenser of claim 2, wherein the display control device further comprises:

and the vignetting film is connected to one side of the trigger piece, which faces the light-emitting structure.

5. The water dispenser according to any one of claims 1 to 4, wherein the trigger is located at a side of the frame.

6. The water dispenser of claim 5, wherein the trigger comprises a plurality of trigger areas extending in a height direction of the frame;

the light-emitting structure is provided with a plurality of light-emitting elements, and each trigger area is arranged corresponding to at least one light-emitting element;

the controller is used for controlling the light-emitting element corresponding to the triggered triggering area to work.

7. The water dispenser according to claim 6, wherein each of the light emitting elements is provided with a plurality of light emitting portions, and light emitting colors of any two of the light emitting portions are different.

8. The water dispenser of claim 7, further comprising:

the sensor is arranged on the frame body and is electrically connected with the controller, the sensor is used for identifying the type of the brewing object, and the controller is also used for determining the water temperature according to the detection data of the sensor and controlling the light-emitting part corresponding to the water temperature to work.

9. The water dispenser of claim 6, further comprising:

The liquid level detection piece is arranged on the frame body and is positioned at the water outlet nozzle, the liquid level detection piece is electrically connected with the controller, and the controller is also used for controlling the working states of the plurality of light-emitting elements according to the detection data of the liquid level detection piece;

wherein the working shape of the light emitting element comprises extinction and/or flickering.

10. The water dispenser according to any one of claims 1 to 4, further comprising:

the switching base is arranged on the frame body;

the water tank is detachably arranged on the frame body;

the waterway assembly is arranged in the frame body and is connected with the adapter base and the water outlet nozzle.

11. The water dispenser of claim 10, further comprising:

the heating device is arranged on the frame body and is connected with the waterway assembly;

the heat exchange device is connected to one side of the frame body, the heat exchange device is connected with the waterway assembly, and the heating device and the heat exchange device are electrically connected with the controller;

the water outlet device comprises a pump body and a first electromagnetic valve, the first electromagnetic valve can be switched between a first state and a second state, when the first electromagnetic valve is in the first state, the first electromagnetic valve is conducted with the waterway assembly along the direction from the switching base to the heating device, and when the first electromagnetic valve is in the second state, the first electromagnetic valve is conducted with the waterway assembly along the direction from the switching base to the heat exchange device.

12. The water dispenser of claim 11 wherein the water outlet means comprises: the second electromagnetic valve can be switched between a third state and a fourth state, when the second electromagnetic valve is in the third state, the second electromagnetic valve is used for conducting the waterway assembly along the direction from the heat exchange device to the switching base, and when the second electromagnetic valve is in the fourth state, the second electromagnetic valve is used for conducting the waterway assembly along the direction from the heat exchange device to the water outlet nozzle.

13. The water dispenser of claim 12, further comprising:

the first temperature detection piece is electrically connected with the controller and is used for detecting the water outlet temperature of the adapter base;

the second temperature detection piece is electrically connected with the controller and is used for detecting the outlet water temperature of the heat exchange device;

the third temperature detection piece is electrically connected with the controller and is positioned at the water outlet nozzle, and the third temperature detection piece is used for detecting the water temperature of the part of the waterway assembly positioned between the heat exchange device and the water outlet nozzle;

The fourth temperature detection piece is electrically connected with the controller and is positioned at the water outlet nozzle, and the fourth temperature detection piece is used for detecting the water temperature of the part of the waterway assembly positioned between the heating device and the water outlet nozzle;

the controller is further used for controlling the output power of the heating device according to the detection data of the first temperature detection piece, adjusting the output power of the heating device according to the detection data of the fourth temperature detection piece, switching the working state of the second electromagnetic valve according to the detection data of the second temperature detection piece, and controlling the output power of the heat exchange device according to the detection data of the third temperature detection piece.