CN217959703U - Automatic measurement control water receiving device - Google Patents

Abstract

The utility model discloses an automatic measurement and control water receiving device, which comprises a water injection seat and a water kettle, wherein the water injection seat is provided with a water injection port for injecting water into the water kettle; a water injection measuring sleeve is arranged in the kettle along the vertical direction, and at least one magnetic floater capable of moving up and down is arranged in the water injection measuring sleeve; at least two reed switches corresponding to the magnetic floaters are arranged in the water injection seat along the vertical direction. The water filling seat is used for filling water into the kettle, and the water filling seat is used for filling water into the kettle to realize automatic water filling; when the liquid level of the kettle reaches the position of the first induction reed pipe, the water can be injected into the kettle in a stopped mode or continuously injected into the kettle until the liquid level of the kettle reaches the position of the second induction reed pipe.

Description

Automatic measurement control water receiving device

Technical Field

The utility model relates to a purifier field especially relates to an automatic measurement control water receiving device.

Background

In daily life, people use the purifier to filter city running water usually to use supporting kettle water receiving, when the water receiving, need the artifical water switch that presses the purifier to make the purifier flow the water purification, for further convenience of customers water receiving, it is very necessary how to make purifier auto-induction kettle and carry out the water injection according to predetermined water injection volume.

SUMMERY OF THE UTILITY MODEL

The utility model provides an automatic measurement control water receiving device solves and how to make purifier auto-induction kettle and carry out the water injection according to predetermined water injection volume.

In order to solve the technical problems, the utility model adopts a technical scheme that an automatic measurement control water receiving device is provided, which comprises a water injection seat and a water kettle, wherein the water injection seat is provided with a water injection port for injecting water into the water kettle; a water injection measuring sleeve is arranged in the kettle along the vertical direction, and at least one magnetic floater capable of floating by water injection is arranged in the water injection measuring sleeve; the inside of the water injection seat is at least provided with two reed switches corresponding to the magnetic floats along the vertical direction, the reed switches are used for being electrically connected with a controller, the magnetic floats are close to or separated from the reed switches, and the controller controls the start or stop of water injection to the kettle.

Preferably, the number of the magnetic floats is one, the number of the reed switches is two, the two reed switches are respectively a first induction reed switch and a second induction reed switch, and the first induction reed switch is positioned below the second induction reed switch; when the kettle is placed on the water injection seat, the magnetic floater is close to the first induction reed pipe.

Preferably, the number of the magnetic floats is two, namely a first magnetic float and a second magnetic float, a first accommodating cavity for accommodating the first magnetic float and a second accommodating cavity for accommodating the second magnetic float are arranged in the water injection measuring sleeve, and the first accommodating cavity is located below the second accommodating cavity and communicated with the second accommodating cavity; the reed switch is provided with two reed switches, namely a first induction reed switch and a second induction reed switch, the first induction reed switch is positioned below the second induction reed switch, when the kettle is placed on the water injection seat, the first magnetic floater is close to the first induction reed pipe, and the second magnetic floater is close to the second induction reed pipe.

Preferably, the kettle comprises a kettle body and a kettle cover, and the water injection measuring sleeve is arranged at the bottom of the kettle cover and vertically extends towards the bottom surface of the kettle body.

Preferably, the side wall of the kettle body close to the water injection seat is provided with a spout protruding outwards, and when the kettle is placed on the water injection seat, the water injection port is just positioned right above the spout.

Preferably, the kettle cover comprises a top cover and an annular cylinder arranged below the top cover, and the annular cylinder can be inserted in the kettle body.

Preferably, one side of the kettle cover corresponding to the kettle mouth is provided with a protruding part protruding outwards, the other side of the kettle cover away from the protruding part is provided with a limiting groove, and the top surface of the kettle body is correspondingly provided with a limiting block corresponding to the limiting groove.

Preferably, the bottom of the water injection measuring sleeve is provided with a bottom water passing hole, a first lateral water passing hole communicated with the first accommodating cavity and a second lateral water passing hole communicated with the second accommodating cavity are formed in the side wall of the water injection measuring sleeve.

Preferably, the side wall of the annular cylinder body is provided with an exhaust hole.

Preferably, the top cover is combined with the water injection measuring sleeve in a clamping mode.

The beneficial effects of the utility model are that: the utility model discloses an automatic measurement and control water receiving device, which comprises a water injection seat and a water kettle, wherein the water injection seat is provided with a water injection port for injecting water into the water kettle; a water injection measuring sleeve is arranged in the kettle along the vertical direction, and at least one magnetic floater capable of moving up and down is arranged in the water injection measuring sleeve; at least two reed pipes corresponding to the magnetic floaters are arranged in the water injection seat along the vertical direction. The reed switch comprises two reed switches, namely a first induction reed switch and a second induction reed switch, when the kettle is placed on the water injection seat, the magnetic floater is close to the first induction reed switch, the reed inside the first induction reed switch is closed under the magnetic action of the magnetic floater, and the water injection seat starts to inject water into the kettle, so that automatic water injection is realized; when the liquid level of the kettle reaches the position of the first induction reed pipe, the water can be injected into the kettle or continuously injected into the kettle until the liquid level of the kettle reaches the position of the second induction reed pipe.

Drawings

FIG. 1 is a schematic diagram of a water purifier according to the present invention;

FIG. 2 is a schematic view of the automatic measurement and control water receiving device according to the present invention;

FIG. 3 is an exploded view of a water filling stand of an automatic measurement and control water receiving device according to the present invention;

fig. 4 is an exploded view of a water filling part of an automatic measurement and control water receiving device according to the present invention;

fig. 5 is a schematic view of a rear housing of an automatic measurement control water receiving device according to the present invention;

fig. 6 is a schematic view of a front housing of an automatic measurement control water receiving device according to the present invention;

fig. 7 is a schematic view of a base in an automatic measurement control water receiving device according to the present invention;

FIG. 8 is a schematic view of the water container of the automatic measuring and controlling water receiving apparatus according to the present invention;

FIG. 9 is an exploded view of a water bottle of an automatic measurement and control water receiving device according to the present invention;

fig. 10 is a cross-sectional view of an embodiment of an automatic measurement control water receiving device according to the present invention;

fig. 11 is a schematic view of a magnetic float in an automatic measurement and control water receiving device according to the present invention;

fig. 12 is a cross-sectional view of another embodiment of an automatic measurement control water receiving device according to the present invention;

fig. 13 is a cross-sectional view of a water injection measuring sleeve in an automatic measuring and controlling water receiving device according to the present invention;

fig. 14 is a partially enlarged schematic view of a water bottle in an automatic measurement and control water receiving device according to the present invention;

FIG. 15 is another enlarged view of a portion of a water bottle of an automatic measuring and controlling water receiving apparatus according to the present invention;

fig. 16 is a schematic view of a pot lid in an automatic measurement and control water receiving device according to the present invention.

Detailed Description

To facilitate understanding of the present invention, the present invention will be described in more detail with reference to the accompanying drawings and specific embodiments. Preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It is to be noted that, unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

As shown in fig. 1, the water purifier includes a water purifier body 100 and an automatic measuring control water receiving device. The water purifier body 100 has a water inlet 180 and a water outlet 190, the water inlet 180 being for inputting a water source, which may be city tap water; the water outlet 190 is used for connecting an automatic measurement control water receiving device through the water pipe 170.

The water purifier main body 100 is provided therein with a filter 120, and the filter 120 is used to filter an input water source and output purified water through a water outlet 190.

The controller 110 and the water outlet valve 130 are further disposed inside the water purifier main body 100, the controller 110 is electrically connected to the water outlet valve 130 and is used for controlling the water outlet valve 130 to open or close, the water outlet valve 130 is disposed on the water outlet pipe 200 connected to the water outlet 190, and after the controller 110 controls the water outlet valve 130 to open, purified water flows to the automatic measurement control water receiving device through the water pipe 170.

The automatic measurement and control water receiving device comprises a water injection seat 1 and a water kettle 2, wherein the water injection seat 1 is used for injecting water into the water kettle 2.

Specifically, the water purifier main body 100 is further provided with a signal interface 210, the water injection seat 1 is internally provided with a first reed pipe 18, a second reed pipe 19 and a prompting lamp 115, and the controller 110 is electrically connected with the first reed pipe 18, the second reed pipe 19 and the prompting lamp 115 through the signal interface 210. Specifically, the signal interface 210 electrically connects the first and second reed switches 18 and 19 and the notification light 115 via a main signal cable 220. The total signal cable 220 includes a first signal cable 140 to a third signal cable 160, the controller 110 is electrically connected to the first dry reed pipe 18 through the first signal cable 140, the second dry reed pipe 19 through the second signal cable 150, and the controller 110 is electrically connected to the notification lamp 115 through the third signal cable 160. The first and second reed switches 18 and 19 and the indicator light 115 will be described in detail later.

The utility model discloses in, the purifier includes two parts of water purifier main part 100 and automatic measurement control water receiving device, and water purifier main part 100 can set up inside the cupboard in family kitchen, and automatic measurement control water receiving device can set up on the outside top surface of cupboard, can freely adjust the position of automatic measurement control water receiving device through the length of carrying adjustment outlet pipe 170 and total signal cable 210, increases flexibility and the portability that the purifier used.

Preferably, in the utility model discloses in, the purifier can only include two parts of water purifier main part 100 and water injection seat 1, and water injection seat 1 can carry out the water injection to the utensil of various flourishing waters, for example drinking cup, kettle, pan etc..

Further, referring to fig. 2 to 9, the water filling base 1 includes a base 8 for placing the water bottle 2 and a water filling column 9 disposed on the base 8, and the water filling base 1 has a water filling opening 12 for filling water into the water bottle 2 and a water inlet connected to the water pipe 170.

The top of the water injection upright post 9 is provided with a water injection part 11, and a water injection port 12 is arranged at the bottom of the water injection part 11; the water inlet is arranged on the base 8 and is connected with the water filling port 12 through a water conduit 15 inside the water filling upright post 9.

Kettle 2 includes the kettle body 3 and pot lid 4, is provided with outside outstanding hu zui 5 on the lateral wall that the kettle body 3 is close to water injection seat 1, still is provided with the side direction holding tank 29 corresponding with hu zui 5 on the lateral wall of water injection seat 1, and when hu zui 5 stretched into side direction holding tank 29, the water filling port just in time was located hu zui 5 directly over, and water filling port 12 can carry out the water injection to kettle 2 in.

It can be seen that the spout 5 serves as a water outlet and a water inlet for pouring water out of the kettle 2, and the kettle cover 4 can be used for injecting water into the kettle 2 without being opened, so that external dust can be prevented from entering the kettle 2.

In addition, the lateral accommodating grooves 29 also provide convenience for installing the water injection part 11.

Further, as shown in fig. 3 and 4, a first adapter 13 is arranged in the base 8, a water injection part 11 is arranged at the top of the water injection upright post 9, and a second adapter 14 is connected in the water injection part 11; a first end of the first adapter 13 is connected to the water purifier body 100 through a water outlet pipe 170 as a water inlet, a second end of the first adapter 13 is connected to a first end of the second adapter 14 through a water conduit 15, and a second end of the second adapter 14 is communicated with a water filling port 12 formed at the bottom of the water filling portion 11.

Preferably, the water injection part 11 includes a water injection barrel 111 and a water injection bottom wall 113 arranged at the bottom of the water injection barrel 111, the water injection port 12 is arranged at the lower surface of the water injection bottom wall 113, the upper surface of the water injection bottom wall 113 is further provided with a water guide pipe 114, and the second end of the second adapter 14 is communicated with the water injection port 12 through the water guide pipe 114.

Preferably, a warning light 115 is further disposed on the top of the water filling part 11, and the warning light 115 is further covered by a transparent lamp cover 116. When the water filling base 1 fills the water bottle 2, the controller 110 in fig. 1 supplies power to the indicator light 115 through the third signal cable 160, and the indicator light 115 gives a light-emitting indication indicating that water filling is being performed.

Preferably, a connecting plate 112 is further disposed on the sidewall of the water injection cylinder 111, and the connecting plate 112 is fixed to the top of the water injection column 9 in a snap-fit manner.

Further, as shown in fig. 5 and 6, the water filling column 9 includes a front case 16 and a rear case 17. The edge of the inner side surface of the rear shell 17 is provided with a plurality of buckling parts 21, the edge of the inner side surface of the front shell 16 is correspondingly provided with a plurality of receiving parts 22, and the buckling parts 21 can be buckled in the receiving parts 22 to realize the connection of the rear shell 17 and the front shell 16. The smooth and complete outer surface of the water injection upright post 9 is ensured by the clamping mode without screw holes.

Further, the connection plate 112 is fixed to the top of the front housing 16 by a snap-fit method.

Further, in fig. 6, the bottom of the front housing 16 is provided with a plurality of mounting posts 25. Referring to fig. 7, the base 8 is provided with a fixing groove 81, and a plurality of mounting holes 82 corresponding to the plurality of mounting posts 25 are formed at the bottom of the fixing groove 81. The mounting columns 25 can be inserted into the corresponding mounting holes 82, and the base 8 is fixedly connected with the mounting columns 25 through screws, so that the base 8 and the water injection upright post 9 are fixed.

Preferably, a suction cup 20 is arranged below the base 8, and the suction cup 20 can be sucked on a plane to provide better stability for the water injection seat 1.

Further, as shown in fig. 8 and 9, the kettle 2 includes a kettle body 3 and a kettle cover 4, a spout 5 protruding outwards is disposed on a side wall (left side wall of the kettle body 3) of the kettle body 3 close to the water injection seat 1, and a handle 6 is disposed on another side wall (right side wall of the kettle body 3) of the kettle body 4 far from the spout 5.

Preferably, the kettle body 3 is made of transparent material or semitransparent material, and the front side wall of the kettle body 3 is also provided with water volume scale marks.

Preferably, a water injection measuring sleeve 7 is arranged in the kettle 2 along the vertical height direction, and the water injection measuring sleeve 7 is arranged at the bottom of the kettle cover 3 and vertically extends towards the bottom surface of the kettle body 3. The water injection measuring sleeve 7 is communicated with the kettle 2, and at least one magnetic floater which can float by water injection is arranged in the water injection measuring sleeve 7.

Along with the increase of the water injection amount in the kettle 2, the purified water in the kettle 2 can flow to the water injection measuring sleeve 7, the liquid level of the purified water can be contacted with the magnetic floater, and the magnetic floater moves upwards in the water injection measuring sleeve 7 under the action of buoyancy.

Referring to fig. 3 and 6, a liquid level sensing portion 10 is disposed on a side wall of the water injection seat 1 close to the water injection measuring sleeve 7, the liquid level sensing portion 10 is disposed on a side wall of the water injection upright post 9, and specifically, the liquid level sensing portion 10 is disposed on an outer side surface of the front housing 16. At least two reed switches are arranged in the liquid level sensing part 10 along the vertical height direction, the reed switches are used for being electrically connected with the controller 110, the magnetic floater approaches or leaves the reed switches, and the controller 110 controls the water to be injected into the kettle 2 to be started or stopped.

The reed switch has at least two, namely a first reed switch 18 and a second reed switch 19, and the inner side surface of the front housing 16 is provided with a first mounting groove 23 for mounting the first reed switch 18 and a second mounting groove 24 for mounting the second reed switch 19.

As shown in fig. 10 and 11, as a first embodiment of the present invention, the magnetic float 26 has one, and the number of the dry reed pipes is two, that is, the first inductive dry reed pipe 18 and the second inductive dry reed pipe 19, and the first inductive dry reed pipe 18 is located below the second inductive dry reed pipe 19. In the utility model, when the water kettle 2 is empty and has no water, the magnetic floater 26 is positioned at the bottom of the water injection measuring sleeve 7, and the position is close to the middle part of the kettle body 3. The first induction dry reed pipe 18 is positioned on the same horizontal line with the middle part of the kettle body 3, and the second induction dry reed pipe 19 is positioned on the same horizontal line with the top part of the kettle body 3.

When the water kettle 2 is placed on the water injection seat 1, the magnetic floater 26 is close to the first induction reed pipe 18, the reed inside the first induction reed pipe 18 is closed under the magnetic force action of the magnetic floater 26, and after the controller 110 detects a closing signal of the first induction reed pipe 18, the water outlet valve 130 is controlled to be opened, and the water injection seat 1 starts to inject water into the water kettle 2, so that automatic water injection is realized. When the water injection amount reaches the middle position of the kettle body 3, namely when half of kettle water is filled, the magnetic floater 26 floats upwards, the reed inside the first induction reed pipe 18 is switched from a closed state to an open state, at the moment, the controller 110 detects an opening and closing signal of the first induction reed pipe 18, the water outlet valve 130 can be selectively controlled to be closed, and the water injection seat 1 stops injecting water into the kettle 2. In this way, when the liquid level of the kettle 2 reaches the position of the first induction reed pipe 18, the water is stopped from being filled into the kettle 2.

Preferably, when the liquid level reaches the position of the first sensing reed pipe 18, the magnetic floater 26 floats upwards, the reed inside the first sensing reed pipe 18 is switched from the closed state to the open state, at this time, the controller 110 detects an opening and closing signal of the first sensing reed pipe 18, and can selectively control the water outlet valve 130 to continue to open, and the water injection seat 1 still injects water into the kettle 2; when the magnetic floater 26 floats upwards to the second induction reed pipe 19, the reed inside the second induction reed pipe 19 is closed under the magnetic force of the magnetic floater 26, and after the controller 110 detects a closing signal of the second induction reed pipe 19, the outlet valve 130 is controlled to be closed, and the water filling seat 1 stops filling water into the kettle 2. In the mode, after the liquid level of the kettle 2 reaches the position of the second induction reed pipe 19, the water is stopped being injected into the kettle 2.

It can be seen that the above two ways of selectively filling the two levels of the kettle 2, i.e. filling different amounts of water, can be controlled by the setting controller 110. The main body 100 of the water purifier is provided with a corresponding selection control button, a half-kettle water button and a full-kettle water button which respectively correspond to the liquid level of the first induction reed pipe 18 and the liquid level of the second induction reed pipe 19. The inside of the water purifier main body 100 is also provided with a wireless communication module, and a mobile device (for example, a smart phone) can be connected with the controller 110 through the wireless communication module, so as to select the amount of water injection.

Preferably, an induction dry reed pipe can be additionally arranged between the first induction dry reed pipe 18 and the second induction dry reed pipe 19 to indicate other liquid levels of the kettle.

As a second embodiment of the present invention, as shown in fig. 12 and 13, the number of the magnetic floats is two, which are respectively the first magnetic float 27 and the second magnetic float 28, a first accommodating cavity 71 for accommodating the first magnetic float 27 and a second accommodating cavity 72 for accommodating the second magnetic float 28 are provided in the water injection measuring sleeve 7, and the first accommodating cavity 71 is located below the second accommodating cavity 72 and is communicated with the second accommodating cavity 72; the reed switch is provided with two reed switches, namely a first induction reed switch 18 and a second induction reed switch 19, and the first induction reed switch 18 is positioned below the second induction reed switch 19.

When the kettle 2 is placed on the water filling seat 8, the first magnetic floater 27 is close to the first induction reed pipe 18, and the second magnetic floater 28 is close to the second induction reed pipe 19; under the magnetic force of the first magnetic floater 27, the reed inside the first sensing reed pipe 18 is closed, and the controller 110 detects a closing signal of the first sensing reed pipe 18; meanwhile, under the magnetic action of the second magnetic floater 28, the reed inside the second sensing reed pipe 19 is closed, the controller 110 detects a closing signal of the second sensing reed pipe 18, the controller 110 controls the water outlet valve 130 to be opened, and the water injection seat 1 starts to inject water into the kettle 2, so that automatic water injection is realized.

When the water injection amount reaches the middle position of the kettle body 3, namely when half kettle of water is filled, the first magnetic floater 27 floats upwards, the reed inside the first induction reed pipe 18 is switched from a closed state to an open state, at the moment, the controller 110 receives an opening and closing signal of the first induction reed pipe 18, the water outlet valve 130 is controlled to be closed, the water outlet valve 130 can be selectively controlled to be closed, and the water injection seat 1 stops injecting water into the kettle 2. In this way, when the liquid level of the kettle 2 reaches the position of the first induction reed switch 18, the water is stopped from being filled into the kettle 2.

Preferably, when the liquid level reaches the position of the first sensing reed pipe 18, the first magnetic floater 27 floats upwards, the reed inside the first sensing reed pipe 18 is switched from the closed state to the open state, at this time, the controller 110 detects an opening and closing signal of the first sensing reed pipe 18, the outlet valve 130 can be selectively controlled to be continuously opened, the water filling base 1 still fills water into the kettle 2, and the first magnetic floater 27 floats to the top of the cavity of the first accommodating cavity 71.

Along with the rise of the liquid level, the second magnetic floater 28 floats upwards, the reed inside the second sensing reed pipe 19 is switched to be in an open state from a closed state under the action of the magnetic force of the second magnetic floater 28, and after the controller 110 receives an opening signal of the second sensing reed pipe 19, the outlet valve 130 is controlled to be closed, and the water filling seat 1 stops filling water into the kettle 2. In this way, after half of the kettle is filled with water, water is still filled into the kettle 2 until the kettle 2 is filled with water.

As in the first embodiment, the present embodiment can also select to fill two liquid levels of the kettle 2, i.e. different water amounts can be filled, and can be controlled by the setting controller 110. The main body 100 of the water purifier is provided with corresponding selection control keys, a half kettle water key and a full kettle water key, which correspond to the liquid level of the first induction reed pipe 18 and the liquid level of the second induction reed pipe 19 respectively. The inside of the water purifier main body 100 is also provided with a wireless communication module, and a mobile device (for example, a smart phone) can be connected with the controller 110 through the wireless communication module, so as to select the amount of water injection.

Preferably, a sensing reed switch may be added between the first sensing reed switch 18 and the second sensing reed switch 19 to indicate the other level of the kettle 2.

Preferably, the bottom of the water injection measuring sleeve 7 is provided with a bottom water through hole 73, and the side wall of the water injection measuring sleeve 7 is also provided with a first lateral water through hole 75 and a second lateral water through hole 74 correspondingly communicated with the first accommodating cavity 71 and the second accommodating cavity 72. The bottom water through hole 73, the first lateral water through hole 75 and the second lateral water through hole 74 are arranged to enable purified water in the kettle body 3 to rapidly enter the water injection measuring sleeve 7, so that the magnetic floater can float conveniently.

Further, as shown in fig. 14 and 15, the pot lid 4 includes a top cover 41 and an annular cylinder 42 disposed below the top cover 41, and the annular cylinder 42 can be inserted into the pot body 3.

Preferably, a protruding portion 412 protruding outwards is disposed on one side of the lid 4 corresponding to the spout 5, a limiting groove 411 is disposed on the other side away from the protruding portion 412, and a limiting block 301 corresponding to the limiting groove 411 is disposed on the top surface of the pot body 3. When placing pot lid 4, need with the protruding portion 412 and the hu zui 5 adaptation on the pot lid 4, the spacing groove 411 on the pot lid 4 and the spacing block 301 adaptation on the kettle body 3, just so can cover pot lid 4, this mode has restricted the direction that pot lid 4 placed, can not reverse pot lid 4 of placing. This is also because the water injection measuring sleeve 7 is disposed on the side of the annular cylinder 42 close to the spout 5, so that the water injection measuring sleeve 7 needs to be disposed close to the water injection seat 1 when the lid 4 is disposed.

Preferably, the side wall of the annular cylinder 42 is provided with vent holes 413, the vent holes 413 are preferably arranged on the side wall of the annular cylinder 42 corresponding to the spout 5, and the vent holes 413 are designed to ensure smooth water flow when the kettle 2 pours water outwards.

Preferably, as shown in fig. 16, a ferrule 421 adapted to the water injection measuring sleeve 7 is provided on the side wall of the annular cylinder 42. The water injection measuring sleeve 7 can be inserted in the ferrule 421. The top cover 41 is combined with the water injection measuring sleeve 7 in a clamping mode, a fixture block 422 connected with the water injection measuring sleeve 7 is arranged on the bottom surface of the top cover 41, a fixture hole 76 is correspondingly arranged on the side wall of the water injection measuring sleeve 7 in fig. 13, and the fixture block 422 and the fixture hole 76 can be clamped together in a matching mode to fix the water injection measuring sleeve 7.

Therefore, the utility model discloses an automatic measurement and control water receiving device, which comprises a water injection seat and a water kettle, wherein the water injection seat is provided with a water injection port for injecting water into the water kettle; a water injection measuring sleeve is arranged in the kettle along the vertical direction, and at least one magnetic floater capable of moving up and down is arranged in the water injection measuring sleeve; at least two reed pipes corresponding to the magnetic floaters are arranged in the water injection seat along the vertical direction. The water filling seat is used for filling water into the kettle, and the water filling seat is used for filling water into the kettle to realize automatic water filling; when the liquid level of the kettle reaches the position of the first induction reed pipe, the water can be injected into the kettle or continuously injected into the kettle until the liquid level of the kettle reaches the position of the second induction reed pipe.

The above-mentioned only be the embodiment of the present invention, not consequently the restriction of the patent scope of the present invention, all utilize the equivalent structure transform made in the content of the specification and the drawings, or directly or indirectly use in other relevant technical fields, all including in the same way the patent protection scope of the present invention.

Claims (10)

1. The utility model provides an automatic measurement control water receiving device which characterized in that: the water injection device comprises a water injection seat and a water kettle, wherein the water injection seat is provided with a water injection port for injecting water into the water kettle; a water injection measuring sleeve is arranged in the kettle along the vertical direction, and at least one magnetic floater capable of floating by injected water is arranged in the water injection measuring sleeve; the inside of the water injection seat is at least provided with two reed switches corresponding to the magnetic floats along the vertical direction, the reed switches are used for being electrically connected with a controller, the magnetic floats are close to or separated from the reed switches, and the controller controls the start or stop of water injection to the kettle.

2. The automatic measurement control water receiving device of claim 1, wherein: the magnetic floater is provided with one magnetic floater, the number of the reed pipes is two, the two magnetic floater are respectively a first induction reed pipe and a second induction reed pipe, and the first induction reed pipe is positioned below the second induction reed pipe; when the kettle is placed on the water injection seat, the magnetic floater is close to the first induction reed pipe.

3. The automatic measurement control water receiving device of claim 1, wherein: the water injection measuring sleeve is internally provided with a first accommodating cavity for accommodating the first magnetic floater and a second accommodating cavity for accommodating the second magnetic floater, and the first accommodating cavity is positioned below the second accommodating cavity and communicated with the second accommodating cavity; the water kettle is characterized in that the number of the reed switches is two, namely a first induction reed switch and a second induction reed switch, the first induction reed switch is located below the second induction reed switch, when the water kettle is placed on the water injection seat, the first magnetic floater is close to the first induction reed switch, and the second magnetic floater is close to the second induction reed switch.

4. The automatic measurement control water receiving device of claim 3, wherein: the water kettle comprises a kettle body and a kettle cover, wherein the water injection measuring sleeve is arranged at the bottom of the kettle cover and vertically extends towards the bottom surface of the kettle body.

5. The automatic measurement control water receiving device of claim 4, wherein: the side wall of the kettle body close to the water injection seat is provided with a spout protruding outwards, and when the kettle is placed on the water injection seat, the water injection port is just positioned right above the spout.

6. The automatic measurement control water receiving device of claim 5, wherein: the kettle cover comprises a top cover and an annular cylinder body arranged below the top cover, and the annular cylinder body can be inserted into the kettle body.

7. The automatic measurement control water receiving device of claim 6, wherein: the kettle cover is provided with a protruding part protruding outwards at one side corresponding to the kettle mouth, a limiting groove is arranged at the other side far away from the protruding part, and a limiting block corresponding to the limiting groove is correspondingly arranged on the top surface of the kettle body.

8. The automatic measurement control water receiving device of claim 4, wherein: the bottom of the water injection measuring sleeve is provided with a bottom water passing hole, a first lateral water passing hole communicated with the first accommodating cavity and a second lateral water passing hole communicated with the second accommodating cavity are formed in the lateral wall of the water injection measuring sleeve.

9. The automatic measurement control water receiving device of claim 6, wherein: and the side wall of the annular cylinder body is provided with an exhaust hole.

10. The automatic measurement control water receiving device of claim 6, wherein: the top cover is connected with the water injection measuring sleeve in a clamping mode.

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