CN114747939A - Soft packaged water drinking machine - Google Patents

Abstract

The application provides a soft package water drinking machine, which comprises a machine body, wherein a water outlet is formed in the machine body, a water pump and a water receiving pipe are arranged in the machine body, the soft package water drinking machine further comprises a drawer, a containing cavity for the drawer to be inserted in a sliding mode is formed in the machine body, a communicating mechanism used for being connected with a soft package is arranged in the drawer, and the water receiving pipe is communicated with the communicating mechanism. According to the soft package water dispenser, the accommodating cavity is formed in the machine body, the drawer is arranged in the accommodating cavity in a sliding mode, and the communicating mechanism is arranged in the drawer so as to be connected with a soft package, so that the soft package water can be placed in the drawer when the soft package water dispenser is used, and the soft package of the soft package water is connected with the communicating mechanism; the soft package water does not need to be lifted to the top of the machine body, so that the labor intensity is reduced; the drawer supports the soft package water, a pot body is not needed, the structure is simplified, and the cost is reduced; through the push-and-pull of drawer to arrange soft package water in the organism, light, laborsaving, soft package water gets puts the convenience.

Description

Soft packaged water drinking machine

Technical Field

The application belongs to the technical field of drinking equipment, and more particularly relates to a soft package water dispenser.

Background

Along with the common application of soft packaged water dispensers, besides traditional barreled drinking water, the packaging mode of drinking water is more and more diversified. The existing soft package water drinking machine is basically matched with barreled water for use, but when the barreled water is used, external air can enter a water barrel, and once the water barrel is used for a long time, water deterioration can be caused. In the process of using the water contained in the soft packages such as the bagged water, the boxed water and the like (the soft package water for short), the volume of the soft package can be reduced along with the reduction of drinking water in the soft package, so that the water is prevented from being contacted with air to breed bacteria, and the water is more and more popular with people.

The current soft package water drinking machine is generally provided with a pot body on the top of the soft package water drinking machine and a needle on the bottom of the pot body. When the device is used, the soft package water with the interface needs to be lifted to the upper part of the pot body, the interface of the soft package water faces downwards and is opposite to the acupuncture point, then the soft package water is placed in the pot body, and the acupuncture point is inserted into the soft package interface of the soft package water by pressing the soft package water, so that the soft package water is inconvenient to take and place, and certain trouble is brought to a user; in addition, the basin body with the acupuncture at the bottom is inconvenient to manufacture and install, and a complex structure is required to be arranged at the top of the machine body to stabilize and support the basin body.

Disclosure of Invention

An object of the embodiment of this application provides a soft package water dispenser to solve prior art's soft package water dispenser and need set up the basin body that the bottom took the acupuncture and support and acquire soft package water, lead to the structure complicacy, and soft package water gets puts inconvenient problem.

In order to achieve the above purpose, the embodiment of the present application adopts the following technical solutions: the soft package water drinking machine comprises a machine body, wherein a water outlet is formed in the machine body, a water pump and a water receiving pipe communicated with an inlet of the water pump are arranged in the machine body, the water pump is used for supplying water to the water outlet, the soft package water drinking machine further comprises a drawer, an accommodating cavity for the drawer to be inserted in a sliding mode is formed in the machine body, a communicating mechanism used for communicating a soft package with pre-stored drinking water is arranged in the drawer, and the water receiving pipe is communicated with the communicating mechanism.

In an optional embodiment, the flexible package is provided with a water outlet pipe head, the communication mechanism comprises a sleeve sleeved on the water outlet pipe head and a valve for controlling the on-off of the sleeve, the sleeve is communicated with the water receiving pipe, the valve is arranged in the sleeve, and the sleeve is fixed on the drawer.

In an optional embodiment, the valve comprises a first one-way valve for preventing water in the water receiving pipe from flowing backwards, or/and the valve comprises a first sealing valve which can be pushed to open by the water outlet pipe head.

In an optional embodiment, the valve includes a first sealing valve, the first sealing valve includes a first valve body fixed in the sleeve, a first sealing rubber cap for sealing the first valve body, a first valve core for pushing the water outlet pipe head so that the first sealing rubber cap opens the first valve body, and a first elastic member for elastically pushing the first valve core so that the first sealing rubber cap seals the first valve body, the first valve core and the first elastic member are installed in the first valve body, and the first sealing rubber cap is installed on the first valve core.

In an optional embodiment, the communication mechanism comprises a needle for puncturing the flexible package and a conduit in communication with the needle, and the water receiving tube is in communication with the conduit.

In an alternative embodiment, the pipeline is a hose, one end of the hose is connected with the acupuncture, and the other end of the hose extends out of the drawer and is connected with the water receiving pipe.

In an alternative embodiment, the duct is a runner tube integrally formed at the bottom of the drawer, and the needle pricks are arranged to protrude from the inner bottom surface of the drawer towards the inner side of the drawer.

In an alternative embodiment, a water tank is arranged on the top of the machine body, an outlet of the water pump is communicated with an inlet of the water tank, and an outlet of the water tank is communicated with the water outlet.

In an alternative embodiment, a heating structure is arranged in the machine body, an outlet of the heating structure is communicated with the water outlet, and an outlet of the water pump is communicated with an inlet of the heating structure.

In an alternative embodiment, the heating structure is a heating tank, an outlet of the heating tank is communicated with the water outlet, and an outlet of the water pump is communicated with an inlet of the heating tank;

or the heating structure is a heating kettle, an inlet of the heating kettle is communicated with an outlet of the water pump, and an outlet of the heating kettle forms the water outlet;

or the heating structure is a thick film heating body, an inlet of the thick film heating body is communicated with an outlet of the water pump, and an outlet of the thick film heating body is communicated with the water outlet.

In an alternative embodiment, a refrigeration module is arranged in the machine body, an outlet of the refrigeration module is communicated with the water outlet, and an outlet of the water pump is communicated with an inlet of the refrigeration module.

The embodiment of the application provides a soft package water dispenser's beneficial effect lies in: compared with the prior art, the soft package water drinking machine has the advantages that the accommodating cavity is formed in the machine body, the drawer is slidably arranged in the accommodating cavity, and the communicating mechanism is arranged in the drawer so as to be connected with the soft package, so that when the soft package water drinking machine is used, the soft package water can be placed in the drawer, and the soft package of the soft package water is connected with the communicating mechanism; the soft package water does not need to be lifted to the top of the machine body, so that the labor intensity is reduced; in addition, because the drawer supports the soft package water, the drawer can be accommodated only by arranging the accommodating cavity in the machine body without a basin body, the structure is simplified, and the cost is reduced; and the drawer is pushed and pulled to arrange the soft packaged water in the machine body, so that the machine is light and labor-saving, and the soft packaged water is convenient to take and place.

Drawings

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

Fig. 1 is a schematic front view structure diagram of a soft packaged water dispenser provided in an embodiment of the present application;

fig. 2 is a schematic view of an internal structure of a soft package water dispenser according to an embodiment of the present application;

fig. 3 is a schematic cross-sectional view of a water receiving pipe, a drawer, and a flexible package according to an embodiment of the present disclosure;

FIG. 4 is an enlarged schematic view of portion A of FIG. 3;

FIG. 5 is an enlarged schematic view of a portion of the first sealing valve of FIG. 4;

FIG. 6 is a schematic cross-sectional structural view of the flexible package of FIG. 3;

FIG. 7 is a schematic view of the flexible package of FIG. 6 in a collapsed configuration;

FIG. 8 is a cross-sectional view of a first check valve portion in accordance with a second embodiment of the present application;

FIG. 9 is a schematic sectional view of a combination of a connection device, a drawer, and a flexible package according to a third embodiment of the present application;

FIG. 10 is a schematic sectional view of a combination of a connecting mechanism, a drawer and a flexible package according to a fourth embodiment of the present application;

fig. 11 is a schematic cross-sectional view of a combination of a water receiving pipe, a pipe joint and a second check valve according to a fifth embodiment of the present disclosure;

FIG. 12 is a schematic cross-sectional view of a telescopic tube according to a sixth embodiment of the present application;

FIG. 13 is a schematic cross-sectional view of the sealant sleeve of FIG. 12;

FIG. 14 is a schematic view of the combination of the inner tube and the outer tube of FIG. 12;

fig. 15 is a schematic structural view of a flexible tube according to a seventh embodiment of the present application;

FIG. 16 is a schematic view of the structure of FIG. 15 during the straightening of the flexible tube;

fig. 17 is a schematic view of an internal structure of a soft package water dispenser provided in an eighth embodiment of the present application.

Wherein, in the figures, the various reference numbers are given by way of example only:

100-soft package water drinking machine;

11-a machine body; 111-an accommodating cavity; 12-a guide rail; 13-water outlet; 14-a water pump; 15-a water tank; 16-a heating structure; 17-a refrigeration module;

20-a drawer; 21-an outer end; 22-inner end;

30-a communication mechanism;

31-a sleeve; 32-a valve; 321-a first sealing valve; 3211-a first valve body; 3212-first sealing rubber cap; 3213-a first spool; 3214-a first resilient member; 322-a first one-way valve;

33-a cannula; 331-a second sealing ring; 34-a second sealing valve; 341-second valve body; 342-a second sealing rubber cap; 343-a second spool; 344-a second elastic member;

35-needling; 36-a conduit; 361-a hose; 362-flow channel tube;

40-a water receiving pipe; 41-joint structure; 411-connectors; 412-looping; 42-a second one-way valve;

50-connecting pipe; 51-a telescopic tube; 511-inner tube; 5111-outward flanging; 512-outer tube; 5121-ribbing; 513-sealing rubber sleeve; 5131-annular ribs; 52-soft tube;

90-flexible packaging; 91-water outlet pipe head; 92-first sealing ring.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present application clearer, the present application is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of and not restrictive on the broad application.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element.

In the description of the present application, "a plurality" means two or more unless specifically limited otherwise. The meaning of "a number" is one or more unless specifically limited otherwise. The terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or to implicitly indicate the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. The terms "center," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in an orientation or positional relationship indicated in the drawings for convenience in describing the application and for simplicity in description, and are not intended to indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus are not to be considered limiting of the application.

In the description of the present application, it should be noted that, unless otherwise explicitly stated or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, a fixed connection, a detachable connection, or an integral connection; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or may be connected through the use of two elements or the interaction of two elements. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as the case may be.

Reference throughout this specification to "one embodiment," "some embodiments," or "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment is included in one or more embodiments of the present application. Thus, appearances of the phrases "in one embodiment," "in some embodiments," "in other embodiments," or the like, in various places throughout this specification are not necessarily all referring to the same embodiment, but rather mean "one or more but not all embodiments" unless specifically stated otherwise. Furthermore, the particular features, structures, or characteristics may be combined in any suitable manner in one or more embodiments.

Referring to fig. 1, fig. 2 and fig. 3, a soft package water dispenser 100 provided by the present application will now be described. The soft package water dispenser 100 comprises a body 11, a water pump 14, a water receiving pipe 40, a drawer 20 and a communicating mechanism 30, wherein:

the main body 11 is a main structure of the soft-packaged water dispenser 100, and plays a main supporting role, and also protects various components installed in the main body 11. The body 11 has an accommodating cavity 111 therein. The body 11 is provided with a water outlet 13 so that the soft package water dispenser 100 can receive water from the water outlet 13 when in use.

The drawer 20 is slidably installed in the accommodating cavity 111 so that the drawer 20 can be pulled out of the machine body 11, and the drawer 20 can be pushed into the accommodating cavity 111 so that the drawer 20 is supported in the machine body 11. For convenience of description, an end of the drawer 20 exposed to the accommodating cavity 111 is defined as an outer end 21, and an end of the drawer 20 opposite to the outer end 21 is defined as an inner end 22. When the outer end 21 of the drawer 20 is pulled, the drawer 20 can be pulled out of the accommodating cavity 111, and the inner end 22 of the drawer 20 is pulled out finally; when the drawer 20 is pushed into the accommodating cavity 111, the inner end 22 of the drawer 20 firstly extends into the accommodating cavity 111, and the inner side of the accommodating cavity 111 moves.

The water pump 14 is installed in the body 11, and the water pump 14 is supported and protected by the body 11. The outlet of the water pump 14 is communicated with the water outlet 13, so that the water pump 14 can pump water to the water outlet 13 for the user to use.

The water receiving pipe 40 is installed in the machine body 11, and the water receiving pipe 40 is supported and protected by the machine body 11. The water receiving pipe 40 is communicated with the inlet of the water pump 14. The communicating mechanism 30 is disposed on the drawer 20, the communicating mechanism 30 is communicated with the water receiving pipe 40, and the communicating mechanism 30 is used for connecting a flexible package 90 of flexible package water, that is, the communicating mechanism 30 is used for connecting the flexible package 90 containing drinking water, so that the water pump 14 can draw water from the flexible package water through the water receiving pipe 40 and the communicating mechanism 30 to supply water to the water outlet 13 for use.

Because the communicating mechanism 30 is established on drawer 20, and drawer 20 slidable mounting is in holding chamber 111, and can pull out drawer 20, arrange soft-packaged water in drawer 20, communicate communicating mechanism 30 and soft-packaged water's soft-packing 90, push drawer 20 into holding chamber 111 again, accomplish soft-packaged water's installation promptly, simple to operate, and lightly, laborsaving, need not to lift soft-packaged water 11 tops of organism, can reduce the intensity of labour that soft-packaged water changed, it is more convenient to use. And use drawer 20 to support the soft packaged water, the structure is simpler, can also reduce cost. When not in use, the drawer 20 can be placed in the accommodating cavity 111, so that impurities can be prevented from entering the drawer 20 and the communication mechanism 30.

Referring to fig. 6 and 7, when the soft package water is installed in the drawer 20, the water pump 14 pumps the water out of the soft package 90 during the use process, and since the soft package 90 is made of a flexible material, the soft package 90 shrinks after the water is pumped out, so that the external air can be better prevented from entering the soft package 90, the water in the soft package 90 is prevented from contacting with the external air to breed bacteria, and the freshness and quality of the drinking water are ensured.

Compared with the prior art, the flexible package water dispenser 100 provided by the embodiment of the application has the advantages that the accommodating cavity 111 is formed in the machine body 11, the drawer 20 is slidably arranged in the accommodating cavity 111, and the communicating mechanism 30 is arranged in the drawer 20 so as to be connected with the flexible package 90, so that when the flexible package water dispenser 100 is used, the flexible package water can be placed in the drawer 20, and the flexible package 90 of the flexible package water is connected with the communicating mechanism 30; soft package water does not need to be lifted to the top of the machine body 11, so that the labor intensity is reduced; the drawer 20 supports the soft package water, a basin body is not needed, the structure is simplified, and the cost is reduced; push-and-pull through drawer 20 to arrange flexible package water in organism 11, lightly, laborsaving, flexible package water gets puts the convenience.

In one embodiment, referring to fig. 1 and 2, the soft water package 100 further includes a water tank 15, and the water tank 15 is disposed on the top of the body 11 to support and protect the water tank 15 through the body 11. The outlet of the water pump 14 is communicated with the inlet of the water tank 15, and the outlet of the water tank 15 is communicated with the water outlet 13, so that the water pump 14 in the flexible package 90 can be temporarily stored in the water tank 15 through the water pump 14 and then flows out of the water outlet 13 when in use, thereby being convenient to use. It will be appreciated that it is also possible to connect the outlet of the water pump 14 directly to the water outlet 13, and the water pump 14 is used to pump water directly.

In one embodiment, referring to fig. 1 and 2, the heating structure 16 is disposed in the body 11 to support and protect the heating structure 16 through the body 11. The outlet of the heating structure 16 is communicated with the water outlet 13, and the outlet of the water pump 14 is communicated with the inlet of the heating structure 16, so that the water pump 14 in the flexible package 90 can be heated to the heating structure 16 through the water pump 14, and hot water can flow out from the water outlet 13, and the use is convenient.

In one embodiment, referring to fig. 1 and 2, the soft package water dispenser 100 includes a water tank 15 and a heating structure 16, an outlet of a water pump 14 is communicated with an inlet of the water tank 15, an outlet of the water tank 15 is communicated with an inlet of the heating structure 16, and an outlet of the heating structure 16 is communicated with a water outlet 13, so that the water pump 14 temporarily stores the water pump 14 in the soft package 90 in the water tank 15, and supplies water to the heating structure 16 through the water tank 15 in time, so as to facilitate a user to take hot water. It will be appreciated that the outlet of the water pump 14 may also be connected directly to the inlet of the heating structure 16 to pump water directly to the heating structure 16 by the water pump 14.

In one embodiment, the body 11 is provided with a plurality of water outlets 13, at least one of the water outlets 13 being connectable to an outlet of the heating structure 16 for taking hot water. At least one water outlet 13 may be connected to an outlet of the water tank 15 in order to take unheated water directly from the water tank 15. It will be appreciated that when the water tank 15 is not installed in the body 11, a diverter valve may also be installed in the body 11, with the outlet of the water pump 14 communicating with the inlet of the diverter valve, and at least one outlet of the diverter valve being connected to the inlet of the heating structure 16, and at least one outlet of the diverter valve being connected to the water outlet 13, so that water is directly pumped for use by the water pump 14.

In one embodiment, referring to fig. 1 and 2, a refrigeration module 17 is disposed in the machine body 11, so that the refrigeration module 17 is supported and protected by the machine body 11. The outlet of the refrigeration module 17 is communicated with the water outlet 13, and the outlet of the water pump 14 is communicated with the inlet of the refrigeration module 17, so that the water pump 14 in the flexible package 90 can be heated to the refrigeration module 17 through the water pump 14, cold water can flow out of the water outlet 13, and the use is convenient.

In one embodiment, referring to fig. 1 and 2, the soft package water dispenser 100 includes a water tank 15 and a refrigeration module 17, an outlet of a water pump 14 is communicated with an inlet of the water tank 15, an outlet of the water tank 15 is communicated with an inlet of the refrigeration module 17, and an outlet of the refrigeration module 17 is communicated with a water outlet 13, so that the water pump 14 temporarily stores the water pump 14 in the soft package 90 in the water tank 15, and supplies water to the refrigeration module 17 through the water tank 15 in time, so as to facilitate a user to take cold water. It will be appreciated that it is also possible to connect the outlet of the water pump 14 directly to the inlet of the refrigeration module 17, in order to pump water directly to the refrigeration module 17 via the water pump 14.

In one embodiment, the body 11 is provided with a plurality of water outlets 13, and at least one water outlet 13 can be connected to an outlet of the refrigeration module 17 so as to take cold water. At least one water outlet 13 may be connected to an outlet of the water tank 15 in order to take uncooled water directly from the water tank 15. It will be appreciated that when the water tank 15 is not installed in the body 11, a reversing valve may also be installed in the body 11, with the outlet of the water pump 14 communicating with the inlet of the reversing valve, and at least one outlet of the reversing valve being connected to the inlet of the refrigeration module 17, and at least one outlet of the reversing valve being connected to the water outlet 13, so that water is directly pumped for use by the water pump 14.

In one embodiment, referring to fig. 1 and 2, the soft package water dispenser 100 includes a water tank 15, a heating structure 16 and a cooling module 17, an outlet of a water pump 14 is communicated with an inlet of the water tank 15, an outlet of the water tank 15 is communicated with an inlet of the cooling module 17, an outlet of the water tank 15 is communicated with an inlet of the heating structure 16, and an outlet of the cooling module 17 and an outlet of the heating structure 16 are respectively communicated with a water outlet 13, so that the water pump 14 temporarily stores the water pump 14 in the soft package 90 into the water tank 15, and water is timely supplied to the cooling module 17 and the heating structure 16 through the water tank 15, so as to facilitate users to take cold water and hot water. It will be appreciated that it is also possible to connect the outlet of the water pump 14 directly to the inlet of the refrigeration module 17 and to the inlet of the heating structure 16, so as to pump water directly to the refrigeration module 17 and to the heating structure 16 by means of the water pump 14.

In one embodiment, the body 11 is provided with a plurality of water outlets 13, and at least one water outlet 13 can be connected to an outlet of the refrigeration module 17 so as to take cold water. At least one water outlet 13 may be connected to an outlet of the heating structure 16 for taking hot water.

In one embodiment, referring to fig. 1 and 2, the heating structure 16 is a heating tank, an outlet of the heating tank is communicated with the water outlet 13, and an outlet of the water pump 14 is communicated with an inlet of the heating tank, so that the heating tank is used for heating water to facilitate a user to take hot water.

It will be appreciated that the heating structure 16 may also be a heating kettle, the inlet of which is in communication with the outlet of the pump 14, and the outlet of which forms the water outlet 13, so as to heat water by heating the kettle for convenient use. In addition, the heating kettle is used for heating water, and the water in the heating kettle can be conveniently moved for use.

Of course, the heating structure 16 may also be a thick film heating body, an inlet of the thick film heating body is communicated with an outlet of the water pump 14, and an outlet of the thick film heating body is communicated with the water outlet 13, so that water is heated in real time through the thick film heating body, and a user can take the hot water more conveniently.

In one embodiment, the receiving cavity 111 is provided with a rail 12 therein, the drawer 20 is slidably mounted on the rail 12, the drawer 20 is supported by the rail 12, and the drawer 20 is guided to move, so that the drawer 20 flexibly and smoothly slides in the receiving cavity 111, and the drawer 20 is conveniently drawn out or pushed in.

In one embodiment, referring to fig. 3 and 6, the flexible package 90 is provided with a water outlet nozzle 91 so that the water in the flexible package 90 can be pumped out or poured out through the water outlet nozzle 91 when in use, thereby facilitating the use of taking water.

In one embodiment, referring to fig. 3, 4 and 5, the connection mechanism 30 includes a sleeve 31, the sleeve 31 is fixed on the drawer 20, and the sleeve 31 is supported by the drawer 20. When in use, the sleeve 31 is used for being sleeved on the water outlet pipe head 91 of the flexible package 90 so as to be conveniently communicated with the flexible package 90, and the connection is convenient. The water receiving tube 40 is in communication with the sleeve 31 so as to communicate with the flexible package 90 through the sleeve 31.

In one embodiment, referring to fig. 2, 4 and 5, the communicating mechanism 30 further comprises a valve 32, the valve 32 is installed in the sleeve 31, and the opening and closing of the sleeve 31 is controlled by the valve 32, such that when the sleeve 31 is connected to the outlet head 91 of the flexible package 90, the valve 32 is kept open to take water. Of course, the valve 32 may be opened to draw water from the flexible package 90 when the water pump 14 is pumping water. Therefore, when the flexible package 90 is disassembled, the water in the water receiving pipe 40 can be prevented from flowing backwards by closing the valve 32. In addition, the valve 32 can be closed to prevent external impurities from entering the water receiving pipe 40 when the flexible package 90 is not installed.

In one embodiment, referring to fig. 4 and 5, the valve 32 includes a first sealing valve 321, and the first sealing valve 321 can be pushed open by a water outlet pipe head 91 of the flexible package 90, that is, when the water outlet pipe head 91 of the flexible package 90 is inserted into the sleeve 31, the water outlet pipe head 91 pushes the first sealing valve 321 to open the first sealing valve 321, so that the water in the flexible package 90 can flow to the water receiving pipe 40 through the sleeve 31.

In one embodiment, the first sealing valve 321 includes a first valve body 3211, a first rubber sealing cap 3212, a first valve spool 3213, and a first elastic member 3214, the first valve body 3211 is cylindrical, the first valve spool 3213 and the first elastic member 3214 are installed in the first valve body 3211, the first rubber sealing cap 3212 is installed on the first valve spool 3213, and the first valve body 3211 is fixed in the sleeve 31. The first elastic element 3214 elastically pushes the first valve element 3213, and the pushing direction is from the direction of the first rubber sealing cap 3212 to the direction of one end of the first valve element 3213 away from the first rubber sealing cap 3212, that is, the first rubber sealing cap 3212 is installed at one end of the first valve element 3213, so the elastic pushing direction of the first elastic element 3214 is from one end of the first valve element 3213 to the other end. The first elastic element 3214 elastically pushes the first valve element 3213, and the first valve element 3213 can drive the first rubber sealing cap 3212 to move, so that the first rubber sealing cap 3212 seals the first valve body 3211, thereby closing the sleeve 31. When the water outlet pipe head 91 of the flexible package 90 is inserted into the sleeve 31, the water outlet pipe head 91 pushes the first valve element 3213, and the pushing direction of the water outlet pipe head 91 is opposite to the pushing direction of the first elastic element 3214, so that the first valve element 3213 can drive the first sealing rubber cap 3212 to be away from the first valve body 3211 to open the first valve body 3211, and further the sleeve 31 is conducted, so that water in the flexible package 90 can enter the water receiving pipe 40 through the sleeve 31. The first sealing valve 321 has a simple structure and good sealing performance. It will be appreciated that other valve configurations for the first sealing valve 321 may be used, as long as the first sealing valve can be pushed open by the outlet tube head 91 of the flexible package 90.

In one embodiment, the first sealing ring 92 is installed on the water outlet tube head 91 of the soft package 90, so that when the water outlet tube head 91 is inserted into the sleeve 31, a better sealing effect can be achieved, and a gap between the sleeve 31 and the water outlet tube head 91 is prevented from leaking water. It will be appreciated that the first sealing ring 92 may also be provided in the sleeve 31, and that a good sealing is also achieved when the outlet nipple 91 is inserted into the sleeve 31.

In one embodiment, the first valve body 3211 may be integrally formed with the sleeve 31 for easy manufacturing. It is understood that the first valve body 3211 may be manufactured separately from the sleeve 31 and the first sealing ring 92 may be fixed in the sleeve 31.

In one embodiment, the first elastic element 3214 is a spring, the spring is sleeved on the first valve element 3213, one end of the spring pushes the first valve element 3213, and the other end of the spring pushes the first valve element 3211, so the installation is convenient and the cost is low. It is understood that the first elastic element 3214 may also be other elastic structures, such as an elastic sheet, an elastic pad, and the like.

In one embodiment, referring to fig. 8, the valve 32 includes a first check valve 322, and the first check valve 322 is used for preventing the water in the water receiving pipe 40 from flowing backwards. Thus, when the outlet stub 91 of the flexible package 90 is separated from the sleeve 31, the first check valve 322 closes the sleeve 31 to prevent the water in the water pipe 40 from flowing back out of the sleeve 31. Referring to fig. 4, in addition, when the first check valve 322 is used, the water outlet head 91 of the soft package 90 is connected to the sleeve 31, so that the water in the soft package 90 can flow from the first check valve 322 to the water receiving pipe 40.

In one embodiment, referring to fig. 9, the connection mechanism 30 includes a needle 35 and a tube 36, and referring to fig. 3, a water receiving tube 40 is connected to the tube 36. The needle 35 is used to pierce the flexible package 90 to communicate with the flexible package 90, and further communicate the flexible package 90 with the water receiving tube 40 via the tube 36. The communicating mechanism 30 is formed by the acupuncture 35 and the pipeline 36, and has simple structure, convenient manufacture and low cost, and is also conveniently connected with the flexible package 90.

In one embodiment, the tube 36 includes a hose 361, that is, the hose 361 is used as the tube 36, one end of the hose 361 is connected to the needle 35, and the other end of the hose 361 extends out of the drawer 20 and is communicated with the water receiving pipe 40. By using the hose 361, the acupuncture 35 can be conveniently moved so as to insert the acupuncture 35 into the flexible package 90, and the acupuncture 35 can be conveniently pulled out, thereby facilitating the replacement and use of the flexible package water.

In one embodiment, referring to fig. 10, the duct 36 includes a flow channel tube 362 disposed at the bottom of the drawer 20, that is, the flow channel tube 362 is integrally formed at the bottom of the drawer 20 to form the duct 36, and the needle 35 is connected to the flow channel tube 362, so that the needle 35 protrudes upward from the bottom of the drawer 20, that is, the needle 35 protrudes from the inner bottom of the drawer 20 toward the inside of the drawer 20, so that when the soft package is installed, the soft package can be placed in the drawer 20, and then the soft package 90 is pressed to insert the needle 35 into the soft package 90, so that the connection is convenient, and after the water in the soft package 90 is used up, the soft package 90 can be separated from the needle 35 only by pulling out the soft package 90, and the assembly and disassembly are convenient.

In one embodiment, the needle 35 and the drawer 20 may be integrally formed, so as to facilitate manufacturing and ensure the connection strength between the needle 35 and the drawer 20. It is understood that the pin 35 may be separately fixed to the bottom of the drawer 20, such as by welding to the bottom of the drawer 20, or a threaded hole may be formed in the bottom of the drawer 20 to communicate with the runner pipe 362, and the pin 35 may be threadedly mounted in the threaded hole to fix the pin 35 to the bottom of the drawer 20.

It is understood that the duct 36 may include a flexible tube 361 and a channel tube 362, the channel tube 362 is connected in series with the flexible tube 361, one of the flexible tube 361 and the channel tube 362 is connected to the acupuncture 35, and the other of the flexible tube 361 and the channel tube 362 is connected to the water receiving tube 40, so that the length of the duct 36 is increased by the flexible tube 361 and the channel tube 362, and the installation layout is also facilitated.

In one embodiment, referring to fig. 2, 3 and 4, a joint structure 41 is disposed on the water receiving pipe 40, the joint structure 41 includes a pipe joint 411, and the pipe joint 411 is disposed on the water receiving pipe 40. A connector 411 is provided on the water receiving pipe 40 to facilitate connection with the communication mechanism 30.

In one embodiment, referring to fig. 1-4, the communication mechanism 30 includes an insertion tube 33, and the insertion tube 33 is disposed at the inner end 22 of the drawer 20. A cannula 33 is provided to facilitate connection to a water receiving tube 40.

In one embodiment, the connector structure 41 further comprises a sleeve head 412, the connector 411 is disposed in the sleeve head 412, and the sleeve head 412 is fixedly connected to the connector 411. The hub 412 is removably coupled to the cannula 33 to connect the cannula 33 to the connector 411. This configuration allows, in use, the cannula 33 to be inserted into the hub 412 to connect to the connector 411 when the drawer 20 is pushed into the receiving cavity 111. And when the drawer 20 is pulled outwardly, the cannula 33 is withdrawn from the socket 412 to be separated from the socket 412, so that the drawer 20 can be pulled out for replacing the soft package water.

In one embodiment, when the communication mechanism 30 includes a sleeve 31 and a cannula 33, the sleeve 31 can be disposed at the inner end 22 of the drawer 20 such that the sleeve 31 is in communication with the cannula 33.

In one embodiment, the sleeve 31 and the insertion tube 33 are integrally formed, i.e., a tube is formed at the inner end 22 of the drawer 20, and two ends of the tube are respectively used as the sleeve 31 and the insertion tube 33.

It will be appreciated that the sleeve 31 may be provided separately from the cannula 33, and the sleeve 31 may be connected to the cannula 33 by a conduit. This facilitates the placement of the sleeve 31, such as by locating the sleeve 31 at the inner end 22 of the drawer 20, or at a side edge of the drawer 20.

It will be appreciated that when the connection mechanism 30 includes a flexible tube 361, the flexible tube 361 can be directly connected to the connector 411 of the water receiving tube 40, which also facilitates pulling the drawer 20.

In one embodiment, referring to fig. 4, a second sealing valve 34 is installed in the insertion tube 33, the second sealing valve 34 includes a second valve body 341, a second sealing rubber cap 342, a second valve spool 343, and a second elastic member 344, the second valve body 341 is cylindrical, the second valve spool 343 and the second elastic member 344 are installed in the second valve body 341, the second sealing rubber cap 342 is installed on the second valve spool 343, and the second valve body 341 is fixed in the insertion tube 33. The second elastic element 344 elastically pushes the second valve spool 343 from the second sealing rubber cap 342 to the end of the second valve spool 343 far away from the second sealing rubber cap 342, that is, the second sealing rubber cap 342 is installed at one end of the second valve spool 343, and then the elastic pushing direction of the second elastic element 344 is from one end of the second valve spool 343 to the other end. The second elastic element 344 elastically pushes against the second valve core 343, and the second valve core 343 can bring the second sealing rubber cap 342 into movement, so that the second sealing rubber cap 342 closes the second valve body 341, thereby closing the cannula 33. When the sleeve 412 is sleeved on the insertion tube 33, the connector 411 pushes against the second valve plug 343, and the pushing direction of the connector 411 is opposite to the pushing direction of the second elastic member 344, so that the second valve plug 343 can drive the second sealing rubber cap 342 to move away from the second valve body 341 to open the second valve body 341, and further the insertion tube 33 is conducted, so that water in the flexible package 90 can enter the water receiving tube 40 through the insertion tube 33. The second sealing valve 34 has a simple structure and good sealing performance. It will be appreciated that other valve configurations for the second sealing valve 34 may be used, as long as they are pushed open by the nipple 411.

In one embodiment, the second sealing ring 331 is installed on the insertion tube 33, so that when the sleeve 412 is sleeved on the insertion tube 33, better sealing can be achieved, and water leakage from the gap between the insertion tube 33 and the sleeve 412 can be prevented. It will be appreciated that the second sealing ring 331 may also be provided in the hub 412, and that a good seal may also be achieved when the cannula 33 is inserted into the hub 412.

In one embodiment, the second valve body 341 may be integrally formed with the cannula 33 for ease of manufacturing. It is understood that the second valve body 341 may be formed separately from the cannula 33 and the second sealing ring 331 may be secured in the cannula 33.

In one embodiment, the second elastic element 344 is a spring, the spring is sleeved on the second valve spool 343, one end of the spring pushes against the second valve spool 343, and the other end of the spring pushes against the second valve body 341, so that the installation is convenient and the cost is low. It is understood that the second elastic element 344 may also be other elastic structures, such as a spring, an elastic pad, etc.

In one embodiment, referring to fig. 11, a second check valve 42 is disposed in the connector 411 for preventing the water in the water receiving pipe 40 from flowing backwards. Referring to fig. 4, the second check valve 42 is disposed in the water receiving pipe 40, so that when the water receiving pipe 40 is separated from the drawer 20 or the soft packing water is removed, the backflow in the connector 411 can be prevented, and impurities can be prevented from entering the water receiving pipe 40.

In one embodiment, a second one-way valve 42 may be provided in the connector 411 and a second sealing valve 34 may be installed in the cannula 33 to better seal the cannula 33 to the water receiving pipe 40 when the drawer 20 is separated from the water receiving pipe 40.

It will be appreciated that when a valve 32 is provided in the sleeve 31, a second check valve 42 may be provided only in the connector 411 to prevent the reverse flow of water in the connector 411. Of course, since there is relatively little water in the connector 411, especially when changing soft-packed water, there is typically no water in the connector 411, so that the second one-way valve 42 may not be provided in the connector 411.

In one embodiment, referring to fig. 12, the soft packing water dispenser 100 further includes a connection tube 50, the connection tube 50 has a variable length along the drawing direction of the drawer 20, one end of the connection tube 50 is connected to the connector 411, and the other end of the connection tube 50 is connected to the connection mechanism 30. Referring to fig. 1 and 2 together, when the drawer 20 is pulled out, the connection tube 50 is lengthened to replace the soft package water in the drawer 20, and when the drawer 20 is pushed into the accommodating cavity 111, the connection tube 50 is contracted to ensure that the connection mechanism 30 is always connected to the water receiving tube 40 through the connection tube 50.

In one embodiment, referring to fig. 2, 4 and 12, when the communication means 30 includes the sleeve 31, the connection pipe 50 may be directly connected to the sleeve 31. Of course, when the communication mechanism 30 includes the cannula 33, the connection tube 50 may be directly connected to the cannula 33. It is to be understood that, referring to fig. 9, 10 and 12, when the communication means 30 includes the pipe 36, the connection pipe 50 may be directly connected to the pipe 36.

In one embodiment, referring to fig. 12, 13 and 14, the connection tube 50 includes a telescopic tube 51, and the telescopic tube 51 includes an outer tube 512, an inner tube 511 and a sealing rubber sleeve 513, wherein one end of the inner tube 511 is inserted into the outer tube 512 for expansion and contraction, and the sealing rubber sleeve 513 is sleeved on the connection between the inner tube 511 and the outer tube 512 for sealing the connection between the inner tube 511 and the outer tube 512, thereby forming the telescopic tube 51. The telescopic tube 51 has the advantages of simple structure, convenient manufacture and low cost. In use, the inner tube 511 may be connected to the nipple 411 and the outer tube 512 connected to the communication mechanism 30. It will be appreciated that the outer tube 512 may also be connected to the nipple 411 and the inner tube 511 connected to the communication mechanism 30. Of course, the connection tube 50 may also be provided with other structures of the extension tube 51, such as a structure in which the inner tube 511 is provided in the middle, the outer tubes 512 are provided at both ends, and the sealing rubber cover 513 is provided at the connection part of the inner tube 511 and each outer tube 512. A multi-layer tube sleeving structure can also be used, and a sealing sleeve or a sealing ring structure is arranged at the joint of two adjacent layers, and the like.

In one embodiment, referring to fig. 14, an outward flange 5111 is provided at one end of the inner tube 511, a pressing rib 5121 is provided on the outer tube 512, and the pressing rib 5121 is protruded from the side surface of the outer tube 512, so that the end of the inner tube 511 is inserted into the outer tube 512, and when the inner tube 511 is pulled out, the pressing rib 5121 on the outer tube 512 can stop the outward flange 5111 of the inner tube 511 to prevent the inner tube 511 from being separated, thereby limiting the inner tube 511.

In one embodiment, a plurality of annular ribs 5131 are protruded inwards on the sealing rubber sleeve 513, and when the sealing rubber sleeve 513 is installed at the joint of the inner tube 511 and the outer tube 512, at least one annular rib 5131 is attached to the outer peripheral surface of the outer tube 512, so that the sealing rubber sleeve 513 and the outer tube 512 are well sealed; at least one annular rib 5131 is attached to the outer peripheral surface of the inner tube 511 to provide a good seal between the sealing rubber sleeve 513 and the inner tube 511, thereby ensuring a good seal of the telescopic tube 51.

In one embodiment, the sealing rubber sleeve 513 has a plurality of annular ribs 5131 pressed against the outer peripheral surface of the outer tube 512, so as to ensure better sealing between the sealing rubber sleeve 513 and the outer tube 512 and improve the sealing effect.

In one embodiment, the sealing rubber sleeve 513 has a plurality of annular ribs 5131 pressed against the outer peripheral surface of the inner tube 511, so as to ensure better sealing between the sealing rubber sleeve 513 and the inner tube 511 and improve the sealing effect.

In one embodiment, referring to fig. 2, 15 and 16, the connection tube 50 includes a flexible tube 52, and the flexible tube 52 is used so that when the drawer 20 is pulled out, the flexible tube 52 can be stretched and straightened, and when the drawer 20 is pushed into the body 11, the flexible tube 52 can be bent and contracted. The soft tube 52 is used, so that the structure is simple and the cost is low.

It should be understood that, referring to fig. 9, when the connection mechanism 30 includes the flexible tube 361, the flexible tube 52 and the flexible tube 361 can be manufactured as a single tube, so as to reduce the manufacturing cost.

It will be appreciated that the connection tube 50 may comprise both a flexible tube 52 and a bellows 51, the flexible tube 52 being connected in series with the bellows 51, one of the flexible tube 52 and the bellows 51 being connected to the connector 411, the other of the flexible tube 52 and the bellows 51 being connected to the connection mechanism 30, such that the length of the connection tube 50 may be increased by connecting the flexible tube 52 in series with the bellows 51.

It will be appreciated that flexible tubing may also be used for the water hose 40, and thus be connected directly to the drawer 20, such that the flexible tubing moves with the drawer 20 as the drawer 20 is pushed or pulled.

In one embodiment, referring to fig. 17, the soft packing water dispenser 100 includes a plurality of drawers 20, and the body 11 is provided with a plurality of accommodating cavities 111, and each accommodating cavity 111 is provided with a drawer 20. So that a soft package of water can be installed in one or several of the drawers 20 to set the water volume as desired. If the drawer is used at home, the soft package water can be arranged in one drawer 20, so that the service life of the soft package water is shortened, water deterioration is better prevented, and fresh and safe drinking water is ensured. And when public occasions such as offices, or when more family personnel exist, the soft packaged water can be arranged in the drawers 20, so that the soft packaged water is prevented from being frequently replaced, and the use in both the household and public occasions is realized.

It is understood that the number of the drawers 20 corresponds to the number of the accommodating cavities 111, and the number of the drawers 20 can be set according to the requirement, for example, the drawers can be set to be one, two, three, four, etc., and the specific number is not limited herein.

In one embodiment, the plurality of receiving cavities 111 are arranged in a vertical direction, so that the area occupied by the soft packing water dispenser 100 can be reduced, and the installation and use are convenient.

The above description is intended only to serve as an alternative embodiment of the present application, and should not be taken as limiting the present application, and any modifications, equivalents, improvements, etc. made within the spirit and principle of the present application should be included in the scope of the present application.

Claims (11)

1. A soft package water drinking machine comprises a machine body, wherein a water outlet is arranged on the machine body, a water pump and a water receiving pipe communicated with an inlet of the water pump are arranged in the machine body, the water pump is used for supplying water to the water outlet, and the soft package water drinking machine is characterized in that: the soft package water dispenser also comprises a drawer, wherein the machine body is internally provided with an accommodating cavity for the drawer to be inserted in a sliding way, the drawer is internally provided with a communicating mechanism for communicating a soft package pre-stored with drinking water, and the water receiving pipe is communicated with the communicating mechanism.

2. The flexible package water dispenser of claim 1, wherein: the flexible package is provided with a water outlet pipe head, the communicating mechanism comprises a sleeve sleeved on the water outlet pipe head and a valve for controlling the on-off of the sleeve, the sleeve is communicated with the water receiving pipe, the valve is installed in the sleeve, and the sleeve is fixed on the drawer.

3. The flexible package water dispenser of claim 2, wherein: the valve comprises a first one-way valve for preventing water in the water receiving pipe from flowing backwards, or/and the valve comprises a first sealing valve which can be pushed to open by the water outlet pipe head.

4. The flexible package water dispenser of claim 2, wherein: the valve comprises a first sealing valve, the first sealing valve comprises a first valve body fixed in the sleeve, a first sealing rubber cap used for sealing the first valve body, a first valve core capable of pushing the water outlet pipe head to open the first valve body by the first sealing rubber cap, and a first elastic piece capable of elastically pushing the first valve core to seal the first valve body by the first sealing rubber cap, the first valve core and the first elastic piece are arranged in the first valve body, and the first sealing rubber cap is arranged on the first valve core.

5. The flexible package water dispenser of claim 1, wherein: the communicating mechanism comprises a needle used for puncturing the flexible package and a pipeline communicated with the needle, and the water receiving pipe is communicated with the pipeline.

6. The flexible package water dispenser of claim 5, wherein: the pipeline is a hose, one end of the hose is connected with the acupuncture, and the other end of the hose extends out of the drawer and is connected with the water receiving pipe.

7. The flexible package water dispenser of claim 5, wherein: the pipeline is a runner pipe which is integrally formed at the bottom of the drawer, and the acupuncture is arranged from the inner bottom surface of the drawer to the inner part of the drawer in a protruding way.

8. The soft-packaged water dispenser of any one of claims 1-7, wherein: the top of the machine body is provided with a water tank, the outlet of the water pump is communicated with the inlet of the water tank, and the outlet of the water tank is communicated with the water outlet.

9. The soft-packaged water dispenser of any one of claims 1-7, wherein: the machine body is internally provided with a heating structure, an outlet of the heating structure is communicated with the water outlet, and an outlet of the water pump is communicated with an inlet of the heating structure.

10. The flexible package water dispenser of claim 9, wherein: the heating structure is a heating tank, an outlet of the heating tank is communicated with the water outlet, and an outlet of the water pump is communicated with an inlet of the heating tank;

or the heating structure is a heating kettle, an inlet of the heating kettle is communicated with an outlet of the water pump, and an outlet of the heating kettle forms the water outlet;

or the heating structure is a thick film heating body, an inlet of the thick film heating body is communicated with an outlet of the water pump, and an outlet of the thick film heating body is communicated with the water outlet.

11. The flexible package water dispenser of any one of claims 1 to 7, wherein: and a refrigerating module is arranged in the machine body, an outlet of the refrigerating module is communicated with the water outlet, and an outlet of the water pump is communicated with an inlet of the refrigerating module.

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