CN111887718B - Raw liquid capsule drinking machine - Google Patents

Abstract

The application discloses a stock solution capsule water dispenser. The raw liquid capsule drinking machine comprises a drinking machine body, a nutrient solution mixing box, a suction mechanism and a raw liquid capsule. Nutrient solution in the stock solution capsule water dispenser is stored in the form of stock solution capsules, and the nutrient solution is supplied to the water dispenser body in the form of the stock solution capsules, so that different people can select proper stock solution capsules to mix with the liquid in the water dispenser body according to the people, and mixed water required by the people can be obtained.

Description

Raw liquid capsule drinking machine

Technical Field

The application relates to the technical field of drinking equipment, in particular to a stock solution capsule water dispenser.

Background

The pipeline machine is also called a pipeline water dispenser, is divided into a wall-mounted pipeline type and a vertical pipeline type, is generally used in families, offices and the like, and is provided with an LED display lamp which can heat, preserve heat and refrigerate.

A pipeline machine, also known as a pipeline water dispenser, is generally used in families, offices, schools and the like and is matched with water purification equipment for use, wherein a water storage PE water tank is arranged in the pipeline machine, clean water is placed in the PE water tank before being extracted, then the clean water is heated by a heating liner and is refrigerated by an ice making liner, and hot water and cold water are produced for people to drink.

There is a stock solution tank among the existing nutrient pipeline machine, and the stock solution tank stores nutrient stock solution for mix with the clear water in the retaining PE water tank to supply the drinking water that has the nutrient solution to people.

However, the nutrient stock solution in the stock solution tank is not easy to replace, the nutrient stock solution required by different crowds is different, and the existing nutrient pipeline machine is not suitable for different crowds.

Disclosure of Invention

The application provides a stoste capsule water dispenser, nutrient solution in the stoste capsule water dispenser is stored in the form of stoste capsules, and the nutrient solution is supplied to a water dispenser body in the form of the stoste capsules, and different crowds can select proper stoste capsules to be mixed with liquid of the water dispenser body according to the crowd so as to obtain mixed water required by the crowd.

The application provides a stoste capsule water dispenser, includes:

a water dispenser body;

the nutrient solution mixing box is arranged on the water dispenser body and is positioned between the water outlet valve structure and the water outlet device of the water dispenser body, the water outlet valve structure and the water outlet device are communicated with an inner cavity of the nutrient solution mixing box, and a plug-in port is formed in the wall surface of the nutrient solution mixing box;

the suction mechanism is positioned in the inner cavity of the nutrient solution mixing box, a suction port of the suction mechanism is positioned in the plug port, the suction mechanism is in communication connection with a control panel of the water dispenser body, and when the water outlet valve structure works, the control panel controls the suction mechanism to work; and

the raw liquid capsule is internally stored with nutrient solution and is provided with a plug-in connector which can be plugged in the plug-in port;

the terminal surface that the bayonet joint formed is formed with the pore, and the suction mouth of suction mechanism acts on the pore to make suction mechanism at the during operation, inhale the nutrient solution in the stoste capsule to the inner chamber of nutrient solution mixing box.

In the scheme, the stock solution capsule water dispenser is provided. The raw liquid capsule drinking machine comprises a drinking machine body, a nutrient solution mixing box, a suction mechanism and a raw liquid capsule. In actual use, one set of the stock solution capsule water dispenser can be provided with different stock solution capsules, wherein the different stock solution capsules refer to stock solution capsules with different nutrient solutions. People can select a stock solution capsule suitable for themselves according to their own needs to cooperate with the nutrient solution mixing box for use.

In the above, for example, a set of raw liquid capsule drinking machine includes a raw liquid capsule with vitamin C nutrient solution and a raw liquid capsule with vitamin E nutrient solution. A person A needs a stock solution capsule with a vitamin C nutrient solution, and a person B needs a stock solution capsule with a vitamin E nutrient solution. The original liquid capsule drinking machine is used by the drinker A before the drinker B:

the first drinker inserts the stock solution capsule with the vitamin C nutrient solution into the insertion port of the nutrient solution mixing box, the stock solution capsule water dispenser is started, the water outlet valve structure works, liquid in the water dispenser body, namely drinking water, can be discharged into the inner cavity of the nutrient solution mixing box through the water outlet valve structure, meanwhile, the control panel controls the suction mechanism to work, so that the suction mechanism can draw the vitamin C nutrient solution out of the stock solution capsule and arrange the vitamin C nutrient solution into the inner cavity of the nutrient solution mixing box, the vitamin C nutrient solution can be mixed with drinking water at the moment, and finally, the first drinker can obtain vitamin C mixed solution at the water outlet device.

After the first drinker uses the original liquid capsule drinking machine, the second drinker starts to use the original liquid capsule drinking machine. The drinker B can pull out the stock solution capsule with the vitamin C nutrient solution, insert the stock solution capsule with the vitamin E nutrient solution into the insertion port of the nutrient solution mixing box, start the stock solution capsule water dispenser, and finally obtain the vitamin E mixed solution at the water outlet device.

In the exemplary case above, an effect of the raw liquid capsule drinking machine is described, by which the demands of different people for different nutrient mixtures can be satisfied. Meanwhile, nutrient solution is supplied in a form of the stock solution capsule, different nutrient solutions can be supplemented in time, and meanwhile, as the stock solution capsule is quickly connected with the nutrient solution mixing box in a plugging and unplugging manner, consumers can conveniently carry the stock solution capsule with the nutrient solution according with the consumers to different environments with a stock solution capsule water dispenser for use.

Optionally, in one possible implementation, the suction mechanism comprises a suction pump and a liquid level probe;

the suction pump and the liquid level probe are respectively in communication connection with the control panel;

the suction port of the suction pump acts on the fine hole to suck the nutrient solution in the stock solution capsule;

a probe socket is formed on the end face formed by the plug connector, when the stock solution capsule is plugged in the plug connector, the liquid level probe is plugged in the probe socket and used for detecting the liquid level of the nutrient solution, and the liquid level probe generates a liquid level signal and transmits the liquid level signal to the control panel;

the probe socket is located below the fine hole.

Optionally, in one possible implementation, the stock solution capsule comprises a hard body and a silicone sleeve;

the hard body is strip-shaped, the end surface of the hard body is convexly provided with a plug structure, and nutrient solution is stored in the hard body;

the silica gel sleeve is sleeved on the plug structure to form a plug connector;

the end face of the silica gel sleeve is provided with a cross hole and a pinhole, the cross hole forms a pore, and the pinhole forms a probe socket.

Optionally, in one possible implementation, the raw liquid capsule further comprises a piston block;

the piston block is slidably arranged in the inner cavity of the hard body;

the piston block slides along the suction direction of the nutrient solution to control the pressure in the inner cavity of the hard body.

Optionally, in a possible implementation manner, two sliding ribs extending in the suction direction are arranged in the inner cavity of the hard body, and the two sliding ribs are symmetrically arranged around the axis of the hard body;

the opposite both ends of piston piece are formed with the spout respectively, and the spout is corresponding with the slip muscle one-to-one, and inlays to locate the slip muscle in the spout slidable.

Optionally, in a possible implementation manner, the nutrient solution mixing box comprises a spiral mixing pipe, one end of the spiral mixing pipe is communicated with the water outlet valve structure and the water outlet of the suction pump, and the other end of the spiral mixing pipe is connected with the water outlet device;

the nutrient solution pumped by the suction pump and the liquid discharged by the water outlet valve structure are mixed in the spiral mixing pipe and then discharged by the water outlet device.

Optionally, in a possible implementation manner, the water dispenser body comprises a water storage tank and a flow detection device;

the water storage tank is internally provided with a water storage cavity, and a water inlet is formed in the wall surface of the water storage tank and is used for being externally connected with a water source and conveying the water source into the water storage cavity;

the water outlet valve structure is connected with the water storage tank and is used for discharging liquid in the water storage tank;

the flow detection device is in communication connection with the control panel and is used for detecting the drainage flow in the water storage tank and transmitting a flow signal to the control panel;

wherein, the control panel is according to flow signal, the time of control suction pump work.

Optionally, in a possible implementation manner, a detection cavity is formed inside the flow detection device, and the detection cavity is communicated with the water storage cavity;

the flow detection device comprises a flow detection pipe, a magnetic floater, a magnetic sensing device and a controller;

a detection cavity is formed inside the flow detection pipe;

a magnetic floater lifting along with the water level is arranged in the detection cavity, and a magnetic sensing device is arranged on the outer peripheral wall of the flow detection pipe;

the magnetic sensing device is used for sensing the position of the magnetic floater in the detection cavity and generating a water level signal, the magnetic sensing device transmits the water level signal to the controller, and the controller calculates a flow signal through the water level signal and transmits the flow signal to the control panel.

Optionally, in a possible implementation manner, the water dispenser body comprises a heating box, and a heating cavity and a heater are arranged inside the heating box;

the water outlet valve structure comprises a cold water outlet valve and a hot water outlet valve, and the cold water outlet valve is connected with the water storage tank;

the inlet of the heating box is connected with the water storage tank, and the outlet of the heating box is connected with the hot water outlet valve;

the heater is used for heating the liquid in the heating cavity.

Optionally, in one possible implementation, the nutrient solution in the bulk fluid capsule is mixed with a flavoring liquid.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained from the drawings without inventive effort.

FIG. 1 is a schematic structural diagram of a raw liquid capsule water dispenser in this embodiment;

FIG. 2 is a schematic structural view of a nutrient solution mixing box according to the present embodiment;

fig. 3 is a schematic structural diagram of the raw liquid capsule in this embodiment.

Icon: 10-stock solution capsule drinking machine; 11-a water dispenser body; 12-nutrient solution mixing box; 13-a suction mechanism; 14-stock solution capsule; 15-water outlet valve structure; 16-a water outlet device; 17-a control panel; 18-a water storage tank; 19-a flow detection device; 20-heating the box; 21-a heater;

120-a socket; 121-spiral mixing tube;

130-a suction pump; 131-a liquid level probe;

140-a plug-in connector; 141-pores; 142-a probe socket; 143-a hard body; 144-silica gel sleeve; 145-piston block; 146-a sliding rib;

190-water level detecting tube; 191-magnetic sensing means.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. The components of the embodiments of the present application, generally described and illustrated in the figures herein, can be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present application, presented in the accompanying drawings, is not intended to limit the scope of the claimed application, but is merely representative of selected embodiments of the application. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the embodiments of the present application, it is to be understood that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like, refer to the orientation or positional relationship as shown in the drawings, or as conventionally placed in use of the product of the application, or as conventionally understood by those skilled in the art, and are used merely for convenience of description and for simplicity of description, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed in a particular orientation, and be operated, and therefore should not be considered as limiting the present application.

In the description of the embodiments of the present application, it should also be noted that, unless otherwise explicitly stated or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present application can be understood in a specific case by those of ordinary skill in the art.

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.

The technical solution in the present application will be described below with reference to the accompanying drawings.

The embodiment provides a raw liquid capsule water dispenser 10, wherein the nutrient solution in the raw liquid capsule water dispenser 10 is stored in the form of a raw liquid capsule 14, and the nutrient solution is supplied to a water dispenser body 11 in the form of the raw liquid capsule 14, so that different people can select a proper raw liquid capsule 14 to mix with the liquid in the water dispenser body 11 according to the people, and mixed water required by the people can be obtained.

Referring to fig. 1 and 2, fig. 1 is a schematic structural diagram of a raw liquid capsule water dispenser 10 in this embodiment. Fig. 2 is a schematic structural diagram of the nutrient solution mixing tank 12 in this embodiment.

The raw liquid capsule drinking machine 10 comprises a drinking machine body 11, a nutrient solution mixing box 12, a suction mechanism 13 and a raw liquid capsule 14.

The external clean water source of water dispenser body 11 or self-storage have clean water source, and clean drinking water is stored in water dispenser body 11, and discharges through outlet valve structure 15.

The nutrient solution mixing box 12 is arranged on the water dispenser body 11 and is positioned between the water outlet valve structure 15 and the water outlet device 16 of the water dispenser body 11, the water outlet valve structure 15 and the water outlet device 16 are communicated with the inner cavity of the nutrient solution mixing box 12, and the wall surface of the nutrient solution mixing box 12 is provided with a plug 120.

The suction mechanism 13 is positioned in the inner cavity of the nutrient solution mixing box 12, the suction port of the suction mechanism 13 is positioned in the plug port 120, the suction mechanism 13 is in communication connection with the control board of the water dispenser body 11, and when the water outlet valve structure 15 works, the control board controls the suction mechanism 13 to work.

The raw liquid capsule 14 stores nutrient solution therein, and the raw liquid capsule 14 is provided with a plug 140 that can be plugged into the plug 120.

The end face formed by the plug 140 is formed with a fine hole 141, and a suction port of the suction mechanism 13 acts on the fine hole 141, so that the suction mechanism 13 sucks the nutrient solution in the stock solution capsule 14 into the inner cavity of the nutrient solution mixing box 12 when in operation.

Wherein, the above provides a stock solution capsule drinking machine 10. The raw liquid capsule drinking machine 10 comprises a drinking machine body 11, a nutrient solution mixing box 12, a suction mechanism 13 and a raw liquid capsule 14. In practical use, different raw liquid capsules 14 can be arranged in one raw liquid capsule water dispenser 10, and the different raw liquid capsules 14 refer to raw liquid capsules 14 with different nutrient solutions. People can select a raw liquid capsule 14 suitable for themselves according to their own needs to be matched with the nutrient solution mixing box 12 for use.

In this case, for example, a stock solution capsule drinking machine 10 includes a stock solution capsule 14 with vitamin C nutrient solution and a stock solution capsule 14 with vitamin E nutrient solution. Consumer a needs a stock solution capsule 14 with vitamin C nutrient solution and consumer b needs a stock solution capsule 14 with vitamin E nutrient solution. The drinker a uses the raw liquid capsule water dispenser 10 before the drinker b:

a drinker A inserts the stock solution capsule 14 with vitamin C nutrient solution into the insertion port 120 of the nutrient solution mixing box 12, the stock solution capsule water dispenser 10 is started, the water outlet valve structure 15 works, liquid in the water dispenser body 11, namely drinking water, is discharged into the inner cavity of the nutrient solution mixing box 12 from the water outlet valve structure 15, meanwhile, the control panel 17 controls the suction mechanism 13 to work, so that the suction mechanism 13 pumps the vitamin C nutrient solution out of the stock solution capsule 14 and is arranged in the inner cavity of the nutrient solution mixing box 12, the vitamin C nutrient solution is mixed with drinking water, and finally, the drinker A obtains vitamin C mixed solution at the water outlet device 16.

After the first drinker uses, the second drinker starts to use the raw liquid capsule drinking machine 10. The drinker B can pull out the stock solution capsule 14 with the vitamin C nutrient solution, insert the stock solution capsule 14 with the vitamin E nutrient solution into the insertion port 120 of the nutrient solution mixing box 12, start the stock solution capsule water dispenser 10 and finally obtain the vitamin E mixed solution at the water outlet device 16.

In the exemplary case described above, an effect of the raw liquid capsule drinking machine 10 is described, and the requirements of different people for different nutrient mixtures can be satisfied by the raw liquid capsule drinking machine 10. Meanwhile, nutrient solution is supplied in a form of the stock solution capsule 14, different nutrient solutions can be supplemented in time, and meanwhile, as the stock solution capsule 14 and the nutrient solution mixing box 12 are connected in a pull-plug quick connection manner, a consumer can conveniently carry the stock solution capsule 14 with the nutrient solution according with the consumer to different environments with the stock solution capsule water dispenser 10 for use by customizing.

It should be noted that the nutrient solution in the stock solution capsule 14 is mixed with a flavoring liquid in order to meet different tastes of people.

For example, one of the nutrient solutions in the stock solution capsule 14 may be mixed with a watermelon flavored flavorant flavored liquid, and one of the nutrient solutions in the stock solution capsule 14 may be mixed with a watermelon flavored lemon flavored flavorant flavored liquid.

In this embodiment, in order to ensure that the raw liquid capsule 14 can be used in cooperation with the water dispenser body 11 after being inserted, the suction mechanism 13 includes a suction pump 130 and a liquid level probe 131.

The suction pump 130 and the liquid level probe 131 are respectively in communication connection with the control board 17.

The suction port of the suction pump 130 acts on the fine hole 141 to suck the nutrient solution in the raw solution capsule 14.

The end face formed by the plug 140 is formed with a probe socket 142, when the raw liquid capsule 14 is plugged in the plug 120, the liquid level probe 131 is plugged in the probe socket 142 to detect the liquid level of the nutrient solution, and the liquid level probe 131 generates a liquid level signal and transmits the liquid level signal to the control panel 17.

Probe socket 142 is located below fine bore 141.

When the liquid level probe 131 detects that the nutrient solution in the raw liquid capsule 14 is at a normal liquid level, the control board 17 can allow the suction pump 130 to work by transmitting a liquid level signal to the control board 17, and when a drinker starts the raw liquid capsule water dispenser 10, the control board 17 can simultaneously control the water outlet valve structure 15 and the suction pump 130 to work.

When the liquid level probe 131 detects that the nutrient solution in the raw liquid capsule 14 is at an abnormal liquid level, such as the liquid level is too low, or detects that the nutrient solution in the raw liquid capsule 14 is at a zero liquid level, the control board 17 can prohibit the operation of the suction pump 130 by transmitting an abnormal liquid level signal to the control board 17, or the control board 17 prohibits the operation of the suction pump 130 and the water outlet valve structure 15 at the same time.

Referring to fig. 3, fig. 3 is a schematic structural diagram of the raw liquid capsule 14 in this embodiment.

The raw liquid capsule 14 includes a hard body 143 and a silicone sleeve 144.

The hard body 143 is strip-shaped, and the end surface thereof is provided with a plug structure in a protruding manner, and nutrient solution is stored in the hard body 143.

The silicone sleeve 144 is sleeved on the plug structure to form the plug 140.

The end face of the silicone rubber sleeve 144 is formed with a cross hole and a pinhole, the cross hole forms a fine hole 141, and the pinhole forms a probe socket 142.

It should be noted that, in order to ensure that the raw liquid capsule 14 is convenient to carry, a sealing cover may be further configured, and the sealing cover covers the silica gel sleeve 144 to prevent the cross hole and the needle hole from being exposed to the outside.

In order to make full use of the nutrient solution in the cavity of the hard body 143, the raw liquid capsule 14 further comprises a piston block 145.

A piston block 145 is slidably disposed within the interior cavity of the rigid body 143.

The piston block 145 slides in the suction direction of the nutrient solution to control the pressure in the inner cavity of the hard body 143.

When the suction pump 130 is operated, the suction force of the suction pump 130 drives the piston block 145 to slide, thereby compressing the volume in the inner cavity of the hard body 143 and facilitating the suction of the nutrient solution.

In order to make the piston block 145 slide stably, two sliding ribs 146 extending in the suction direction are provided in the inner cavity of the hard body 143, and the two sliding ribs 146 are arranged symmetrically around the axis of the hard body 143.

The opposite ends of the piston block 145 are respectively formed with sliding grooves, which correspond to the sliding ribs 146 one-to-one, and the sliding grooves are slidably embedded in the sliding ribs 146.

Referring to fig. 1 and 2 again, in order to ensure the nutrient solution and the drinking water are mixed sufficiently, the nutrient solution mixing tank 12 includes a spiral mixing pipe 121, one end of the spiral mixing pipe 121 is connected to the water outlet valve structure 15 and the water outlet of the suction pump 130, and the other end of the spiral mixing pipe 121 is connected to the water outlet 16.

The nutrient solution pumped by the suction pump 130 and the drinking water discharged from the water outlet valve structure 15 are mixed in the spiral mixing pipe 121 and then discharged from the water outlet device 16.

In this embodiment, the water dispenser body 11 includes a water storage tank 18 and a flow rate detection device 19.

The inside of the water storage tank 18 has a water storage cavity, and a water inlet is formed on the wall surface of the water storage tank 18 for connecting an external water source to deliver drinking water to the water storage cavity.

The outlet valve structure 15 is connected to the reservoir 18 for draining the reservoir 18.

The flow detection device 19 is in communication with the control board 17 for detecting the discharge flow in the water storage tank 18 and transmitting a flow signal to the control board 17.

Wherein the control board 17 controls the operation time of the suction pump 130 according to the flow signal.

It should be noted that the control board 17 can calculate the volume of the currently discharged drinking water according to the flow signal, and the program preset in the control board 17 can match the volume of the nutrient solution corresponding to the current drinking water, for example, 100ml of drinking water corresponds to 5ml of nutrient solution, and then the control board 17 controls the volume of the nutrient solution discharged into the nutrient solution mixing box 12 by controlling the operation time of the suction pump 130.

The flow rate detection device 19 has a detection cavity therein, and the detection cavity is communicated with the water storage cavity.

The water outlet valve structure is connected with the water storage tank through the detection cavity.

The flow rate detecting device 19 includes a flow rate detecting tube 190, a magnetic float (not shown), a magnetic sensing device 191, and a controller (not shown).

The interior of the flow sensing tube 190 forms a sensing cavity.

A magnetic floater which ascends and descends along with the water level is arranged in the detection cavity, and a magnetic sensing device 191 is arranged on the outer peripheral wall of the flow detection pipe 190.

The magnetic sensing device 191 is used for sensing the position of the magnetic floater in the detection cavity and generating a water level signal, the magnetic sensing device 191 transmits the water level signal to the controller, and the controller calculates a flow signal according to the water level signal and transmits the flow signal to the control board 17.

In order to meet the requirement of drinkers for drinking hot water, the water dispenser body 11 comprises a heating box 20, and a heating cavity and a heater 21 are arranged inside the heating box 20.

The outlet valve structure 15 comprises a cold water outlet valve and a hot water outlet valve, and the cold water outlet valve is connected with the water storage tank 18.

Wherein, the outlets of the cold water outlet valve and the hot water outlet valve are both connected with the nutrient solution mixing box 12.

The inlet of the heating box 20 is connected with the water storage box 18, and the outlet of the heating box 20 is connected with the hot water outlet valve.

The heater 20 is used to heat the liquid located in the heating cavity.

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (6)

1. A stock solution capsule water dispenser is characterized by comprising:

a water dispenser body;

the nutrient solution mixing box is arranged on the water dispenser body and is positioned between a water outlet valve structure and a water outlet device of the water dispenser body, the water outlet valve structure and the water outlet device are communicated with an inner cavity of the nutrient solution mixing box, and a plug-in port is formed in the wall surface of the nutrient solution mixing box;

the suction mechanism is positioned in the inner cavity of the nutrient solution mixing box, a suction port of the suction mechanism is positioned in the plug port, the suction mechanism is in communication connection with a control board of the water dispenser body, and when the water outlet valve structure works, the control board controls the suction mechanism to work; and

the raw liquid capsule is internally stored with nutrient solution and is provided with a plug-in connector which can be plugged in the plug-in port;

a fine hole is formed on the end face formed by the plug, and a suction port of the suction mechanism acts on the fine hole, so that the suction mechanism sucks the nutrient solution in the stock solution capsule into an inner cavity of the nutrient solution mixing box when in work;

the suction mechanism comprises a suction pump and a liquid level probe;

the suction pump and the liquid level probe are respectively in communication connection with the control panel;

the suction port of the suction pump acts on the fine hole to suck the nutrient solution in the stock solution capsule;

a probe socket is formed on the end face formed by the plug connector, when the stock solution capsule is plugged in the plug socket, the liquid level probe is plugged in the probe socket and used for detecting the liquid level of the nutrient solution, and the liquid level probe generates a liquid level signal and transmits the liquid level signal to the control panel;

the probe socket is positioned below the fine hole;

wherein the stock solution capsule comprises a hard body and a silica gel sleeve; the hard body is strip-shaped, the end face of the hard body is convexly provided with a plug structure, and nutrient solution is stored in the hard body; the silica gel sleeve is sleeved on the plug structure to form the plug connector; a cross hole and a pinhole are formed on the end face of the silica gel sleeve, the cross hole forms the fine hole, and the pinhole forms the probe socket; the stock solution capsule also comprises a piston block; the piston block is slidably arranged in the inner cavity of the hard body; the piston block slides along the suction direction of the nutrient solution so as to control the pressure in the inner cavity of the hard body; two sliding ribs extending along the suction direction are arranged in the inner cavity of the hard body, and the two sliding ribs are symmetrically arranged around the axis of the hard body; the two opposite ends of the piston block are respectively provided with a sliding groove, the sliding grooves correspond to the sliding ribs one by one, and the sliding grooves are embedded in the sliding ribs in a sliding mode.

2. The raw liquid capsule water dispenser of claim 1,

the nutrient solution mixing box comprises a spiral mixing pipe, one end of the spiral mixing pipe is communicated with the water outlet valve structure and the water outlet of the suction pump, and the other end of the spiral mixing pipe is connected with the water outlet device;

the nutrient solution pumped by the suction pump and the liquid discharged by the water outlet valve structure are mixed in the spiral mixing pipe and then discharged by the water outlet device.

3. The raw liquid capsule water dispenser of claim 2,

the water dispenser body comprises a water storage tank and a flow detection device;

a water storage cavity is formed in the water storage tank, and a water inlet is formed in the wall surface of the water storage tank and used for being externally connected with a water source and conveying the water source into the water storage cavity;

the water outlet valve structure is connected with the water storage tank and is used for discharging liquid in the water storage tank;

the flow detection device is in communication connection with the control board and is used for detecting the drainage flow in the water storage tank and transmitting a flow signal to the control board;

wherein, the control panel is according to the flow signal, control the time of suction pump work.

4. The raw liquid capsule water dispenser of claim 3,

the flow detection device is internally provided with a detection cavity, and the detection cavity is communicated with the water storage cavity;

the water outlet valve structure is connected with the water storage tank through the detection cavity;

the flow detection device comprises a flow detection pipe, a magnetic floater, a magnetic sensing device and a controller;

the detection cavity is formed inside the flow detection pipe;

the magnetic floater lifting along with the water level is arranged in the detection cavity, and the magnetic sensing device is arranged on the outer peripheral wall of the flow detection pipe;

the magnetic sensing device is used for sensing the position of the magnetic floater in the detection cavity and generating a water level signal, the magnetic sensing device transmits the water level signal to the controller, and the controller calculates the flow signal according to the water level signal and transmits the flow signal to the control panel.

5. The raw liquid capsule water dispenser of claim 4,

the water dispenser body comprises a heating box, and a heating cavity and a heater are arranged in the heating box;

the water outlet valve structure comprises a cold water outlet valve and a hot water outlet valve, and the cold water outlet valve is connected with the water storage tank;

the inlet of the heating box is connected with the water storage tank, and the outlet of the heating box is connected with the hot water outlet valve;

the heater is used for heating liquid in the heating cavity.

6. The raw liquid capsule water dispenser of claim 5,

the nutrient solution in the stock solution capsule is mixed with a flavoring liquid.

Images