CN216946265U - Water purifier - Google Patents

Abstract

The utility model particularly relates to a water purifier which comprises a host, a water tank and a self-resetting buckle; the main machine is provided with a water tank mounting groove, and the water tank can be inserted into the water tank mounting groove; a self-reset buckle is installed on the wall of the water tank installation groove, a buckle groove is formed in the water tank and used for allowing the self-reset buckle to be popped in, and a buckle detector is arranged on the water tank installation groove and used for detecting whether the self-reset buckle is popped in towards the direction in the water tank installation groove or not; a high water level and a low water level are preset in the water tank, and two water level detection mechanisms are arranged on the host machine and respectively correspond to the high water level and the low water level and are used for detecting whether the liquid level in the water tank reaches the high water level or the low water level. The self-reset buckle can detect the buckling state and the high and low water level states, judge whether the water tank is completely installed in the water tank installation groove and judge the state of the water level in the water tank, thereby being convenient for the control operation of a water purifier main machine, and can effectively fix the water tank by the self-reset buckle, thereby preventing the water tank from being separated from the water tank installation groove due to the vibration generated by the work of the water purifier.

Description

Water purifier

Technical Field

The utility model relates to the technical field of water purifiers, in particular to a water purifier.

Background

Along with the improvement of living standard of people, people pay more and more attention to water quality sanitation, and the trend that a family is provided with drinking equipment is developed; part of the pure water tank of the water purifier is externally arranged and can be taken out, so that the pure water tank is convenient to clean and pour water, but when the water tank is not arranged in place, a machine cannot normally supplement water to the water tank, and water in the water tank cannot be taken out, so that a water inlet pipeline of the water tank of the machine is blocked or a water outlet pipeline of the water tank is pumped dry, and the like, and faults such as component damage and the like are caused; on the other hand, the purifier often can be followed to vibrations at the operation in-process, leads to the water tank to break away from normal operating position easily during the purifier vibrations, leads to the water purifier mistake to report the trouble and influence the use.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides a water purifier, which is used for solving the problems that a water tank in the prior art cannot detect whether the water tank is installed in place, so that water cannot be normally supplied and taken, and the water tank is easy to separate from a normal working position due to vibration in the operation process of the water purifier.

In order to achieve one or a part of or all of the purposes or other purposes, the utility model provides a water purifier, which comprises a main machine, a water tank and a self-resetting buckle;

the main machine is provided with a water tank mounting groove, and the water tank can be inserted into the water tank mounting groove;

a self-resetting buckle is installed on the wall of the water tank installation groove, a buckle groove is formed in the water tank and used for allowing the self-resetting buckle to be popped in, and a buckle detector is arranged on the water tank installation groove and used for detecting whether the self-resetting buckle is popped in towards the direction in the water tank installation groove or not;

a high water level and a low water level are preset in the water tank, and two water level detection mechanisms are arranged on the host machine and respectively correspond to the high water level and the low water level and are used for detecting whether the liquid level in the water tank reaches the high water level or the low water level.

Furthermore, the high liquid level position and the low liquid level position of the water tank are both provided with a floating ball assembly, the floating ball assembly comprises a vertical cavity and a floating ball, the vertical cavity is communicated with the inside of the water tank, the floating ball floats up and down in the vertical cavity, and when the floating ball is close to the water level detection mechanism, the floating ball can be detected by the water level detection mechanism.

Furthermore, an induction magnet is arranged in the floating ball.

Further, the water level detection mechanism is a circuit with a magnetic switch and is used for sensing the induction magnet.

Furthermore, the floating ball assembly at the high water level is a floating ball assembly, the floating ball assembly at the low water level is a lower floating ball assembly, and the two water level detection mechanisms are respectively a high water level detector and a low water level detector and are respectively used for detecting whether floating balls in the floating ball assembly and the lower floating ball assembly are close to each other or not;

the high water level detector is arranged in the host and close to the lower end of the floating ball assembly, and when a floating ball in the floating ball assembly is in a sinking position, the high water level detector can detect the floating ball;

the low water level detector is arranged in the main machine and close to the upper end position of the lower floating ball component, and when a floating ball in the lower floating ball component is at an upper floating position, the low water level detector can detect the low water level.

The water purifier further comprises a water replenishing device and a water taking device, wherein the water replenishing device and the water taking device are both communicated with the water tank, water is added into the water tank when the water replenishing device is opened, and water is pumped out from the water tank when the water taking device is opened;

when the buckle detector detects that the self-reset buckle is not bounced, the water replenishing device and the water taking device cannot be started;

when the buckle detector detects that the self-resetting buckle is popped in, and the high water level detector and the low water level detector do not detect the floating ball, the water replenishing device and the water taking device cannot be started;

when the buckle detector detects that the self-reset buckle is bounced in, the high water level detector detects a floating ball, and the low water level detector does not detect the floating ball, the water replenishing device is in an opening-allowed state, and the water taking device cannot be opened;

when the buckle detector detects that the self-resetting buckle is popped in, and the high water level detector and the low water level detector detect the floating ball, the water replenishing device and the water taking device are both in an opening allowing state;

when the buckle detector detects that the self-resetting buckle is popped in, the high water level detector does not detect the floating ball, and the low water level detector detects the floating ball, the water replenishing device cannot be started, and the water taking device is in an opening allowing state.

Further, the water purifier still includes filter equipment, filter equipment with moisturizing device intercommunication, water process filter equipment filters the back by the moisturizing device is defeated to the water tank.

Furthermore, a through hole is formed in the wall of the water tank mounting groove, and the self-resetting buckle is mounted at the through hole;

the self-resetting buckle bounces into the water tank mounting groove in the direction without external force;

the self-resetting buckle receives the thrust from the inside of the water tank mounting groove towards the outside direction, and the water tank mounting groove is popped up towards the outside direction.

Further, the buckle detector is arranged on the outer side of the wall of the water tank mounting groove and located at the bottom end of the through hole, and when the self-resetting buckle is ejected outwards to be close to the buckle detector, the buckle detector can detect the buckle.

Furthermore, the top of the part, which is bounced into the water tank mounting groove, of the buckle detector is provided with an inclined surface.

The embodiment of the utility model has the following beneficial effects:

the self-reset buckle, the buckle detector and the two water level detection mechanisms are arranged, so that the buckle state, the high water level state and the low water level state can be detected, whether the water tank is completely installed in the water tank installation groove or not and the state of the water level in the water tank are judged, and the control operation of a water purifier main machine is facilitated; on the other hand can effectively fix the water tank from the buckle that restores to the throne, stops that the water tank leads to the water tank to deviate from the water tank mounting groove because of the water purifier work produces vibrations. The problem of among the prior art the water tank can't detect whether the installation targets in place and lead to unable normal moisturizing and water intaking, purifier operation in-process vibrations make the water tank break away from normal operating position easily is solved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Wherein:

FIG. 1 is a schematic view of a water purifier;

FIG. 2 is a schematic view of a water tank of a water purifier completely separated from a main unit;

FIG. 3 is a schematic diagram of a water tank of a water purifier partially separated from a main unit;

FIG. 4 is a schematic view of a water purifier with water in the water tank but in a state of being less than full;

fig. 5 is a schematic structural view of the water purifier in a state that the water tank is full of water.

The reference numerals are explained below: 1-a host; 11-a water tank mounting groove; 12-high water level detector; 13-low water level detector; 14-a snap detector; 2-a water tank; 21-a snap groove; 3-a float ball assembly; 3 a-a floating ball assembly; 3 b-a lower float ball assembly; 5-self-reset buckle.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The pure water tank of the existing partial water purifier can be taken out, so that the pure water tank is convenient to clean and pour water, but when the water tank is not installed in place, a machine cannot normally supplement water to the water tank, water in the water tank cannot be taken out, so that a water inlet pipeline of the water tank of the machine is blocked or a water outlet pipeline of the water tank is pumped dry, and the like, so that faults such as component damage and the like are caused; on the other hand, the purifier often can be followed vibrations at the operation in-process, leads to the water tank to break away from normal operating position easily during the purifier vibrations, leads to the purifier mistake to report the trouble and influence the use.

Therefore, need a scheme to judge water tank position, water level state in the water tank, come supplementary purifier and control and carry out moisturizing, water intaking, in addition, need effectively to fix the water tank simultaneously and prevent that it leads to breaking away from the water tank mounting groove because of following purifier work vibrations.

Referring to fig. 1 and fig. 2, a water purifier according to a preferred embodiment of the present invention includes a main unit 1, a water tank 2, and a self-resetting buckle 5.

The main unit 1 is provided with a water tank mounting groove 11, and the water tank 2 can be inserted into the water tank mounting groove 11. Install on the cell wall of water tank mounting groove 11 from reset buckle 5, be equipped with buckle groove 21 on water tank 2 and supply from reset buckle 5 to spring into, be provided with buckle detector 14 on the water tank mounting groove 11 for detect whether from reset buckle 5 toward the inslot direction of water tank mounting groove 11 springs into.

A high water level and a low water level are preset in the water tank 2, and two water level detection mechanisms are arranged on the host 1, respectively corresponding to the high water level and the low water level, and used for detecting whether the liquid level in the water tank 2 reaches the high water level or the low water level.

More specifically, the high liquid level and the low liquid level of the water tank 2 are both provided with a floating ball assembly, the floating ball assembly comprises a vertical cavity and a floating ball, the vertical cavity is communicated with the inside of the water tank 2, the floating ball floats up and down in the vertical cavity, and when the floating ball is close to the water level detection mechanism, the floating ball can be detected by the water level detection mechanism. As a preferred scheme, an induction magnet is installed in the floating ball, the water level detection mechanism is a circuit with a magnetic switch and used for inducing the induction magnet, when the induction magnet is close to the magnetic switch, the magnetic switch is connected, and when the induction magnet is far away from the magnetic switch, the magnetic switch is disconnected.

More specifically, the floating ball assembly at the high water level is a floating ball assembly 3a, the floating ball assembly at the low water level is a lower floating ball assembly 3b, and the two water level detection mechanisms are respectively a high water level detector 12 and a low water level detector 13, and are respectively used for detecting whether floating balls in the floating ball assembly 3a and the lower floating ball assembly 3b are close to each other.

The high water level detector 12 is installed in the main machine 1 and near the lower end of the floating ball assembly 3a, and when the floating ball in the floating ball assembly 3a is in the sinking position, the high water level detector 12 can detect the floating ball.

The low water level detector 13 is installed in the main body 1 and near the upper end of the lower float ball assembly 3b, and the low water level detector 13 can detect when the float ball in the lower float ball assembly 3b is at the floating position.

A through hole is formed in the wall of the water tank installation groove 11, and the self-resetting buckle 5 is installed at the through hole; the self-resetting buckle 5 bounces into the water tank installation groove 11 in the direction without external force; the self-resetting buckle 5 is pushed from the inside of the water tank installation groove 11 to the outside, and then is ejected to the outside of the water tank installation groove 11. The buckle detector 14 is disposed outside a wall of the tank mounting groove 11 and at a bottom end of the through hole, and when the self-resetting buckle 5 is ejected outward to be close to the buckle detector 14, the buckle detector 14 can detect the buckle. Preferably, the top of the spring portion of the snap detector 14 toward the tank installation groove 11 is formed as an inclined surface so as to be pressed by the outer wall of the water tank 2, thereby providing a guiding function so that the water tank 2 can be more smoothly installed in the tank installation groove 11.

The water purifier further comprises a water supplementing device and a water taking device, wherein the water supplementing device and the water taking device are communicated with the water tank 2, the water supplementing device adds water into the water tank 2 when opened, and the water taking device draws water from the water tank 2 outwards when opened. More specifically, the purifier still includes filter equipment, filter equipment with moisturizing device intercommunication, water is through filter equipment filters back by moisturizing device is defeated to water tank 2.

As shown in fig. 3, when the buckle detector 14 detects that the self-reset buckle 5 is not inserted, it is determined that the water tank 2 is not installed in place, and at this time, the water replenishing device and the water taking device cannot be started regardless of the detection signals of the high water level detector 12 and the low water level detector 13;

as shown in fig. 2, when the buckle detector 14 detects that the self-resetting buckle 5 has been popped in, and neither the high water level detector 12 nor the low water level detector 13 detects a floating ball, it is determined that the water tank 2 is not installed, and the water replenishing device and the water taking device cannot be opened in the state of no water tank 2;

as shown in fig. 1, when the buckle detector 14 detects that the self-resetting buckle 5 has bounced, the high water level detector 12 detects a floating ball, and the low water level detector 13 does not detect a floating ball, it is determined that the water tank 2 is installed, but the water in the water tank 2 is lack of water, the water replenishing device is in an opening-allowed state, and the water taking device cannot be opened;

as shown in fig. 4, when the buckle detector 14 detects that the self-resetting buckle 5 has bounced in, and the high water level detector 12 and the low water level detector 13 both detect the floating ball, it is determined that the water tank 2 is installed, and the water tank 2 is full, and both the water replenishing device and the water taking device are in the opening permission state;

as shown in fig. 5, when the latch detector 14 detects that the self-reset latch 5 has bounced in, the high water level detector 12 does not detect the floating ball, and the low water level detector 13 detects the floating ball, it is determined that the water tank 2 is installed, the water in the water tank is full, the water replenishing device cannot be started, and the water intake device is in an opening-allowed state.

In summary, the self-reset buckle 5, the buckle detector and the two water level detection mechanisms are arranged, so that the buckling state, the high water level state and the low water level state can be detected, whether the water tank 2 is completely installed in the water tank installation groove 11 or not and the state of the water level in the water tank 2 are judged, and the control operation of the main machine 1 of the water purifier is facilitated; on the other hand can effectively fix water tank 2 from reset buckle 5, stop water tank 2 and lead to water tank 2 to deviate from water tank mounting groove 11 because of the water purifier work produces vibrations. The problem of 2 unable detection of water tanks among the prior art whether install in place and lead to unable normal moisturizing and water intaking, water purifier operation in-process vibrations make the water tank break away from normal operating position easily is solved.

Although the present invention has been described with reference to the preferred embodiments, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the scope of the present invention.

Claims (10)

1. A water purifier, which is characterized in that: comprises a host (1), a water tank (2) and a self-resetting buckle (5);

the main machine (1) is provided with a water tank mounting groove (11), and the water tank (2) can be inserted into the water tank mounting groove (11);

a self-resetting buckle (5) is mounted on the wall of the water tank mounting groove (11), a buckle groove (21) is formed in the water tank (2) and used for allowing the self-resetting buckle (5) to spring in, and a buckle detector (14) is arranged on the water tank mounting groove (11) and used for detecting whether the self-resetting buckle (5) springs in the direction of the inside of the water tank mounting groove (11);

a high water level and a low water level are preset in the water tank (2), and two water level detection mechanisms are arranged on the host (1) and respectively correspond to the high water level and the low water level and are used for detecting whether the liquid level in the water tank (2) reaches the high water level or the low water level.

2. The water purifier of claim 1, wherein: the floating ball assembly is arranged at the high liquid level position and the low liquid level position of the water tank (2) and comprises a vertical cavity and a floating ball, the vertical cavity is communicated with the inside of the water tank (2), the floating ball floats up and down in the vertical cavity, and when the floating ball is close to the water level detection mechanism, the floating ball can be detected by the water level detection mechanism.

3. The water purifier of claim 2, wherein: and an induction magnet is arranged in the floating ball.

4. A water purification machine according to claim 3, wherein: the water level detection mechanism is a circuit with a magnetic switch and is used for sensing the induction magnet.

5. The water purifier according to any one of claims 2 to 4, wherein: the floating ball component at the high water level is a floating ball component (3a), the floating ball component at the low water level is a lower floating ball component (3b), and the two water level detection mechanisms are respectively a high water level detector (12) and a low water level detector (13) which are respectively used for detecting whether floating balls in the floating ball component (3a) and the lower floating ball component (3b) are close to each other or not;

the high water level detector (12) is arranged in the main machine (1) and close to the lower end position of the floating ball assembly (3a), and can be detected by the high water level detector (12) when a floating ball in the floating ball assembly (3a) is at a sinking position;

the low water level detector (13) is arranged in the main machine (1) and close to the upper end position of the lower floating ball assembly (3b), and when a floating ball in the lower floating ball assembly (3b) is at an upper floating position, the low water level detector (13) can detect the low water level.

6. The water purifier of claim 5, wherein: the water purifier also comprises a water supplementing device and a water taking device, wherein the water supplementing device and the water taking device are both communicated with the water tank (2), water is added into the water tank (2) when the water supplementing device is opened, and water is pumped out from the water tank (2) when the water taking device is opened;

when the buckle detector (14) detects that the self-reset buckle (5) is not bounced, the water replenishing device and the water taking device cannot be started;

when the buckle detector (14) detects that the self-resetting buckle (5) is popped in and the floating ball is not detected by the high water level detector (12) and the low water level detector (13), the water replenishing device and the water taking device cannot be started;

when the buckle detector (14) detects that the self-resetting buckle (5) is bounced in, the high water level detector (12) detects a floating ball, and the low water level detector (13) does not detect the floating ball, the water replenishing device is in an opening permission state, and the water taking device cannot be opened;

when the buckle detector (14) detects that the self-resetting buckle (5) is bounced in, and the high water level detector (12) and the low water level detector (13) detect floating balls, the water replenishing device and the water taking device are both in an opening permission state;

when the buckle detector (14) detects that the self-reset buckle (5) is bounced in, the high water level detector (12) does not detect the floating ball and the low water level detector (13) detects the floating ball, the water replenishing device cannot be started, and the water taking device is in a state of allowing to be started.

7. The water purifier of claim 6, wherein: the water purifier further comprises a filtering device, the filtering device is communicated with the water supplementing device, and water is conveyed to the water tank (2) through the water supplementing device after being filtered by the filtering device.

8. The water purifier of claim 2, wherein: a through hole is formed in the wall of the water tank mounting groove (11), and the self-resetting buckle (5) is mounted at the through hole;

the self-resetting buckle (5) is bounced into the water tank mounting groove (11) in the direction without external force;

the self-resetting buckle (5) is pushed downwards from the inside of the water tank installation groove (11) to the outside, and the water tank installation groove (11) is ejected outwards.

9. The water purifier of claim 8, wherein: the buckle detector (14) is arranged on the outer side of the wall of the water tank mounting groove (11) and is positioned at the bottom end of the through hole, and when the self-resetting buckle (5) is ejected outwards to be close to the buckle detector (14), the buckle detector (14) can detect the buckle.

10. The water purifier of claim 9, wherein: the top of the part, which is bounced into the water tank mounting groove (11), of the buckle detector (14) is provided with an inclined surface.

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