CN111675270B - Water Purifier - Google Patents

Abstract

The present disclosure relates to water purifiers. The water purifier includes: the water inlet of the filter element is connected with tap water through a raw water inlet pipe, and the water outlet of the filter element is connected with the other end of the float switch water inlet pipe through a purified water outlet pipe; the float switch water inlet pipe is located in the bowl cover, and the float switch is located the bowl cover below, and when the water storage cup was placed on the base and the bowl cover lid was established to water storage cup top, the float switch was located water storage cup inside, and the one end of float switch water inlet pipe switches on in with the water storage cup, and the float switch opens or closes the one end of float switch water inlet pipe along with the lift of the water level in the water storage cup to the water purification volume of control entering water storage cup inside. Due to the fact that the floating ball switch assembly is arranged, a user does not need to manually receive water, and user experience is effectively improved.

Description

Water purifier

Technical Field

The present disclosure relates to the field of water purification, and more particularly, to a water purifier.

Background

With the improvement of living standard, the water purifier is widely applied to places such as families, companies and the like. In order to realize the filtration of tap water by the water purifier and the storage of filtered water, namely purified water, as shown in fig. 1, a general water purifying kettle is composed of a kettle body, an inner container arranged in the kettle body and a filter element fixed in the inner container, wherein a water purifying cavity for containing purified water is enclosed between the kettle body and the inner container, and a raw water cavity for containing raw water is enclosed between the inner container and the filter element. Therefore, when in use, a user only needs to pour raw water into the inner container along the kettle mouth of the kettle body, and the raw water entering the inner container is filtered by the filter element under the influence of self gravity, and then purified water is formed and stored in the purified water cavity. When a user needs to drink the purified water, the user only needs to pour the kettle body to enable the purified water to flow out of the kettle mouth.

However, the existing water purifying kettle is filtered by passing through the filter element through tap water gravity, so that the water pressure is low, the filtering is slow, manual operation is required by a user, and the user experience is poor.

Disclosure of Invention

To overcome the problems in the related art, embodiments of the present disclosure provide a water purifier. The technical scheme is as follows:

according to a first aspect of embodiments of the present disclosure, there is provided a water purifier, comprising: the machine body and the water storage cup;

the fuselage comprises: raw water inlet pipe, purified water outlet pipe, filter element, cup cover, base component and float switch component;

the base assembly includes: the base is connected with the base and is used for placing the filter element barrel of the filter element;

the float switch assembly includes: a float switch water inlet pipe and a float switch positioned at one end of the float switch water inlet pipe;

the filter cartridge includes: a filter element water inlet and a filter element purified water outlet;

the filter element water inlet is connected with tap water through the raw water inlet pipe, and the filter element water purifying outlet is connected with the other end of the float switch water inlet pipe through the purified water outlet pipe;

the float switch water inlet pipe is located in the cup cover, the float switch is located below the cup cover, when the water storage cup is placed on the base and the cup cover is arranged above the water storage cup, the float switch is located inside the water storage cup, one end of the float switch water inlet pipe is communicated with the water storage cup, and the float switch is opened or closed along with the lifting of the water level in the water storage cup, so that the water purification amount entering the water storage cup is controlled.

The water purifier in the present disclosure includes: the machine body and the water storage cup; the fuselage includes: raw water inlet pipe, purified water outlet pipe, filter element, cup cover, base component and float switch component; the base assembly includes: the base is connected with the base and is used for placing the filter element barrel of the filter element; the float switch assembly includes: a float switch water inlet pipe and a float switch positioned at one end of the float switch water inlet pipe; the filter element comprises: a filter element water inlet and a filter element purified water outlet; wherein, the water inlet of the filter element is connected with tap water through a raw water inlet pipe, and the water outlet of the filter element is connected with the other end of the float switch water inlet pipe through a water purifying outlet pipe; the float switch water inlet pipe is located in the bowl cover, and the float switch is located the bowl cover below, and when the water storage cup was placed on the base and the bowl cover lid was established to water storage cup top, the float switch was located water storage cup inside, and the one end of float switch water inlet pipe switches on in with the water storage cup, and the float switch opens or closes the one end of float switch water inlet pipe along with the lift of the water level in the water storage cup to the water purification volume of control entering water storage cup inside. Because the tap water is directly introduced into the water purifier disclosed by the disclosure, the pressure of the tap water is far greater than the gravity of the tap water in the related technology, so that the filtering speed of the filter element is increased, and the user experience is effectively improved. And the floating ball switch assembly is arranged, so that a user does not need to manually receive water, and the user experience is effectively improved.

In one embodiment, the float switch water inlet pipe is in an inverted L shape, the end part of one end of the float switch water inlet pipe is in a closed state, and a side wall, close to the end part, of one end of the float switch water inlet pipe is provided with a purified water inlet;

the end part of one end of the floating ball switch water inlet pipe is provided with a fixing part;

the float switch includes: a floating ball rotating rod, a floating ball and a water stopping part;

one end of the floating ball rotating rod is connected with the floating ball, and the side wall of the floating ball rotating rod is connected with the water stopping part;

the floating ball rotating rod is connected with the fixing part through a rotating shaft, so that the floating ball rotating rod can rotate around the rotating shaft, and the water stopping part is driven to open or close the purified water inlet.

In one embodiment, the fuselage further comprises: a waterway switch assembly;

the waterway switch assembly includes: the water purification device comprises a water channel switch water inlet pipe, a water channel switch and a water channel switch water outlet pipe, wherein a water purification runner controlled by a water purification switch valve core is arranged in the water channel switch;

one end of the water channel switch water inlet pipe is connected with the other end of the water purifying water outlet, the other end of the water channel switch water inlet pipe is connected with the inlet of the water purifying flow channel, one end of the water channel switch water outlet pipe is connected with the outlet of the water purifying flow channel, and the other end of the water channel switch water outlet pipe is connected with the other end of the floating ball switch water inlet pipe;

when the cup cover is opened or covered, the water outlet pipe of the waterway switch can rotate around the waterway switch, and when the cup cover is opened, the water purifying switch valve core in the waterway switch closes the water purifying flow passage, and when the cup cover is covered above the water storage cup, the water purifying switch valve core in the waterway switch opens the water purifying flow passage.

In one embodiment, a sealing ring is arranged at the water inlet of the purified water.

In one embodiment, the base is inverted T-shaped or L-shaped;

the cup cover is movably connected with the top of the base.

In one embodiment, the cup cover is movably connected with the upper portion of the cartridge barrel sidewall.

In one embodiment, the fuselage further comprises: a waste water outlet pipe; the filter cartridge includes: a filter element waste water port;

the filter element waste water port is connected with one end of the waste water outlet pipe.

In one embodiment, an inner cavity is formed in the cup cover, and the float switch water inlet pipe is located in the inner cavity.

In one embodiment, a floating ball switch limiting part is arranged below the cup cover;

the floating ball switch is positioned in the floating ball limiting part;

the floating ball switch limiting part is of a hollow structure, so that purified water in the water storage cup can enter the floating ball switch limiting part.

In one embodiment, the longitudinal center axis of the water storage cup is parallel to the longitudinal center axis of the cartridge barrel when the water storage cup is placed on the base.

In one embodiment, the base is provided with a water storage cup clamping groove for placing the water storage cup.

In one embodiment, further comprising: a heating assembly;

the heating assembly is located within the base.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the disclosure.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the disclosure and together with the description, serve to explain the principles of the disclosure.

Fig. 1 is a schematic view showing a structure of a related art water purifier according to an exemplary embodiment.

Fig. 2 is a schematic view illustrating a structure of a water purifier according to an exemplary embodiment.

Fig. 3 is a schematic view illustrating a structure of a water purifier according to an exemplary embodiment.

Fig. 4 is a schematic view illustrating a structure of a water purifier according to an exemplary embodiment.

Fig. 5 is a schematic view illustrating a structure of a water purifier according to an exemplary embodiment.

Fig. 6 is a schematic view illustrating a structure of a water purifier according to an exemplary embodiment.

Fig. 7 is a schematic view illustrating a structure of a water purifier according to an exemplary embodiment.

Fig. 8 is a schematic structural view of a float switch according to an exemplary embodiment.

Detailed Description

Reference will now be made in detail to exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, the same numbers in different drawings refer to the same or similar elements, unless otherwise indicated. The implementations described in the following exemplary examples are not representative of all implementations consistent with the present disclosure. Rather, they are merely examples of apparatus and methods consistent with some aspects of the present disclosure as detailed in the accompanying claims.

Fig. 2 to 7 are schematic structural views of a water purifier according to an exemplary embodiment, as shown in fig. 2 to 7: the water purifier includes: a machine body 1 and a water storage cup 2;

the fuselage 1 comprises: raw water inlet pipe 11, purified water outlet pipe 12, filter element 13, cup cover 14, base component 15 and float switch component 16;

the base assembly 15 includes: a base 151, a cartridge barrel 152 connected to the base 151 for receiving the cartridge 13; wherein, base 151 can support retaining cup 2, can hold the water purification after filter core 13 filters in the retaining cup 2. The filter element 13 can be inserted into the filter element gun barrel 152 or removed from the filter element gun barrel 152, so that quick core replacement is realized. The number of the cartridge barrels 152 may be 1 or more, and 1 cartridge 13 is installed in one cartridge barrel 152, so that the number of the cartridges 13 may be 1 or more.

The float switch assembly 16 includes: a float switch water inlet pipe 161 and a float switch 162 positioned at one end of the float switch water inlet pipe 161;

the filter element 13 includes: a cartridge water inlet 131 and a cartridge purified water outlet 132; wherein, the filter element 13 can filter tap water, and has at least one filter element water inlet 131 and one filter element water outlet 132, tap water enters the filter element 13 from the filter element water inlet 131, and the filter element 13 discharges the purified water through the filter element water outlet 132 after filtering.

Wherein, the filter element water inlet 131 is connected with tap water through the raw water inlet pipe 11, and the filter element water outlet 132 is connected with the other end of the float switch water inlet pipe 161 through the water outlet pipe 12; tap water can enter the filter element 13 through the raw water inlet pipe 11.

The float switch water inlet pipe 161 is positioned in the cup cover 14, the float switch 162 is positioned below the cup cover 14, when the water storage cup 2 is placed on the base 151 and the cup cover 14 is covered above the water storage cup 2, the float switch 162 is positioned inside the water storage cup 2, one end of the float switch water inlet pipe 161 is communicated with the water storage cup 2, and the float switch 162 opens or closes one end of the float switch water inlet pipe 161 along with the lifting of the water level in the water storage cup 2 so as to control the purified water amount entering the water storage cup 2.

A mounting structure can be further arranged in the cup cover 14 and can be used for being installed in the float switch water inlet pipe 161, and the position of the float switch 162 in the cup cover 14 is communicated with the water storage cup 2 so that the liquid level at the position of the float switch 162 is consistent with the liquid level in the water storage cup 2.

Because one end of the float switch water inlet pipe 161 is communicated with the inside of the water storage cup 2, and the float switch 162 is positioned in the water storage cup 2, the float switch 162 can float along with the rising of the water level in the water storage cup 2, and the water level is lowered to drop; when the float switch 162 floats to the highest position, one end of the float switch water inlet pipe 161 is closed, and the purified water filtered by the filter element 13 can not flow into the water storage cup 2; when the float switch 162 falls from the highest position, one end of the float switch water inlet pipe 161 is immediately opened, and the purified water filtered by the filter element 13 flows into the water storage cup 2.

Specifically, when the water in the water storage cup 2 is full, the float switch 162 floats due to the buoyancy of the water in the water storage cup 2, and the float switch 162 closes one end of the float switch water inlet pipe 161, so that purified water is prevented from entering the water storage cup 2 through the float switch water inlet pipe 161; when the water in the water storage cup 2 is not full, the float switch 162 does not have the buoyancy of the water and can descend, and the float switch 162 can be far away from one end of the float switch water inlet pipe 161, so that one end of the float switch water inlet pipe 161 is opened, and purified water can enter the water storage cup 2 through the float switch water inlet pipe 161.

However, the existing water purifying kettle filters through the filter element 13 by tap water gravity, and the water pressure is low, the filtering is slow, and the effect is poor.

When the water purifier in the disclosure performs the filtering task, as shown in fig. 5, a user may place the water storage cup 2 on the base 151, then cover the cup cover 14, then open the tap of tap water, tap water will enter the filter core water inlet 131 through the raw water inlet pipe 11, then enter the purified water outlet pipe 12 through the purified water outlet of the filter core 13 after being filtered by the filter core 13, then enter the float switch water inlet pipe 161 through the purified water outlet pipe 12, and enter the water storage cup 2 through the float switch water inlet pipe 161, because tap water is directly introduced into the water purifier in the disclosure, the pressure of tap water is far greater than the gravity of tap water in the related art, thereby accelerating the filtering speed of the filter core 13 and effectively improving the user experience; further, as shown in fig. 5, when the water in the water storage cup 2 is not full, the float switch does not close the float switch water inlet pipe 161, and as shown in fig. 6, when the purified water in the water storage cup 2 is full, the float switch 162 rises to close the float switch water inlet pipe 161, so that the aim of stopping immediately after full water is achieved, and therefore, the user can avoid inconvenience of manually receiving water and waiting by the user, and the user experience is greatly improved.

The water purifier in the present disclosure includes: the machine body and the water storage cup; the fuselage includes: raw water inlet pipe, purified water outlet pipe, filter element, cup cover, base component and float switch component; the base assembly includes: the base is connected with the base and is used for placing the filter element barrel of the filter element; the float switch assembly includes: a float switch water inlet pipe and a float switch positioned at one end of the float switch water inlet pipe; the filter element comprises: a filter element water inlet and a filter element purified water outlet; wherein, the water inlet of the filter element is connected with tap water through a raw water inlet pipe, and the water outlet of the filter element is connected with the other end of the float switch water inlet pipe through a water purifying outlet pipe; the float switch water inlet pipe is located in the bowl cover, and the float switch is located the bowl cover below, and when the water storage cup was placed on the base and the bowl cover lid was established to water storage cup top, the float switch was located water storage cup inside, and the one end of float switch water inlet pipe switches on in with the water storage cup, and the float switch opens or closes the one end of float switch water inlet pipe along with the lift of the water level in the water storage cup to the water purification volume of control entering water storage cup inside. Because the tap water is directly introduced into the water purifier disclosed by the disclosure, the pressure of the tap water is far greater than the gravity of the tap water in the related technology, so that the filtering speed of the filter element is increased, and the user experience is effectively improved. And the floating ball switch assembly is arranged, so that a user does not need to manually receive water, and the user experience is effectively improved.

In one embodiment, as shown in fig. 4-7, the float switch water inlet pipe 161 is in an inverted L shape, the end of one end of the float switch water inlet pipe 161 is in a closed state, and a side wall, close to the end, of one end of the float switch water inlet pipe 161 is provided with a purified water inlet 1611;

the end of one end of the float switch water inlet pipe 161 is provided with a fixing part 1612;

float switch 162 includes: a float rotary rod 1621, a float 1622, and a water stop 1623;

one end of the floating ball rotary rod 1621 is connected with a floating ball 1622, and the side wall of the floating ball rotary rod 1621 is connected with a water stopping part 1623;

the floating ball rotating rod 1621 is connected with the fixing part 1612 through a rotating shaft, so that the floating ball rotating rod 1621 can rotate around the rotating shaft, and the water stopping part 1623 is driven to open or close the purified water inlet 1611.

Because the float rotary rod 1621 can rotate around the rotary shaft, thereby can drive the float 1622 and the water stopping portion 1623 to rotate, specifically, when the water in the water storage cup 2 is not full and water storage is needed, the float 1622 does not have the buoyancy of water, so that the float 1622 can descend, taking the direction in fig. 4-7 as an example, the float rotary rod 1621 can rotate downwards, thereby drive the water stopping portion 1623 positioned on the side wall of the float rotary rod 1621 to rotate rightwards, at this moment, the water stopping portion 1623 can be far away from the water purifying inlet 1611, thereby opening the water purifying inlet 1611, and enabling the purified water to enter the water storage cup 2 through the float switch water inlet pipe 161. In the process of water storage, the floating ball 1622 can rotate upwards around the floating ball rotary rod 1621 due to the buoyancy of the water in the water storage cup 2, so that the water stopping part 1623 positioned on the side wall of the floating ball rotary rod 1621 is driven to rotate leftwards, at the moment, the water stopping part 1623 can slowly approach the water purifying water inlet 1611, and when the water in the water storage cup 2 is full, the water stopping part 1623 can collide with the water purifying water inlet 1611, thereby achieving the purpose of closing the water purifying water inlet 1611, and preventing the water purifying water from entering the water storage cup 2 through the water purifying water inlet 1611.

In one embodiment, as shown in fig. 4-7, when the cup cover 14 is covered on the water storage cup 2, one section of the L-shaped float switch water inlet pipe 161 is horizontally arranged in the cup cover 14, and the other end extends out of the cup cover 14 in the direction of gravity, and at this time, the structure of the float switch 162 is the same as that of the above embodiment.

In another embodiment, when the lid 14 is covered on the water storage cup 2, one section of the L-shaped float switch water inlet pipe 161 is arranged in the lid 14 in the gravity direction, at this time, one end of the float switch water inlet pipe 161 arranged in the lid 14 in the gravity direction extends out of the lower part of the lid 14, at this time, the other end is arranged in the horizontal direction under the lid 14, at this time, the structure of the float switch 162 is as shown in fig. 8.

The end of one end of the float switch water inlet pipe 161 is in a closed state, the top side wall of one end of the float switch water inlet pipe 161 is provided with a purified water inlet 1611, and purified water filtered by the filter element 13 can enter the water storage cup 2 through the purified water inlet 1611.

At this time, the float switch 162 also includes: a float rotary rod 1621, a float 1622, and a water stop 1623;

the end of one end of the float switch water inlet pipe 161 is provided with a fixing part 1612; one end of the floating ball rotary rod 1621 is connected with a floating ball 1622, and the other end of the floating ball rotary rod 1621 is connected with a water stopping part 1623; the floating ball rotating rod 1621 is connected with the fixing part 1612 through a rotating shaft, so that the floating ball rotating rod 1621 can rotate around the rotating shaft, and the water stopping part 1623 is driven to open or close the purified water inlet 1611.

The purified water inlet 1611 is located in a top sidewall of one end of the float switch water inlet pipe 161, and thus, the water stopping part 1623 may open or close the purified water inlet 1611 in an axial direction of the purified water inlet 1611 during the rotation of the float rotary rod 1621 about the rotation shaft.

The float switch 162 is similar to a lever structure, when the water in the water storage cup 2 is stored, if the water level in the water storage cup 2 does not reach the position of the float 1622 (as shown in fig. 5), that is, the water in the water storage cup 2 does not float the float 1622, so the float 1622 at one end of the float rotary rod 1621 descends, the water stopping part 1623 at the other end of the float rotary rod 1621 ascends to be far away from the purified water outlet, so that purified water can enter the water storage cup 2 through the purified water outlet, and if the water level in the water storage cup 2 reaches the position of the float 1622, that is, the water in the water storage cup 2 has the buoyancy given to the float 1622, then the float 1622 at one end of the float rotary rod 1621 ascends along with the ascending of the water level in the water storage cup 2, at this moment, the water stopping part 1623 at the other end of the float rotary rod 1621 slowly approaches the purified water outlet, and when the water storage cup 2 is full, the water stopping part 1623 at the other end of the float rotary rod 1621 collides with the purified water outlet (as shown in fig. 6), so that the aim of closing the purified water outlet is achieved.

By way of example, the surface area of the water stop 1623 is larger than that of the purified water outlet, so as to achieve the purpose of closing the purified water outlet better.

Further, in order to achieve a better effect of closing the clean water inlet 1611, a sealing ring is arranged at the clean water inlet 1611.

In the present disclosure, for lifting buoyancy, the floating ball 1622 is a hollow structure, and the material of the floating ball 1622 may be plastic or metal, which is not limited in the present disclosure.

In one embodiment, the fuselage 1 further comprises: a waste water outlet pipe 17; the filter element 13 includes: a cartridge waste water port 133;

the filter element waste water port 133 is connected with one end of the waste water outlet pipe 17.

When the whole machine needs to discharge waste water, the machine body 1 also has a waste water outlet pipe 17, and the filter element 13 is also provided with a filter element waste water port 133.

Therefore, the water purifier in the present disclosure has the following advantages with respect to the reverse osmosis water purifier:

(1) The whole machine has simple structure and lower cost;

(2) The whole machine is small in size, no power is needed to be inserted, and the mounting position is limited little;

(3) The noise is low when the machine operates, and the user experience is good;

(4) The water storage cup 2 is arranged, so that the water is stopped when the water is full, and waiting is not needed; the water is directly poured when water is needed, and the user experience is good.

In one embodiment, the fuselage 1 further comprises: a waterway switch assembly 18;

waterway switch assembly 18 includes: a water channel switch water inlet pipe 181, a water channel switch 182 and a water channel switch water outlet pipe 183, wherein a water purifying flow channel controlled by a water purifying switch valve core is arranged in the water channel switch 182; wherein waterway switch 182 is similar to the remote of the faucet.

One end of the waterway switch water inlet pipe 181 is connected with the other end of the purified water outlet, the other end of the waterway switch water inlet pipe 181 is connected with an inlet of the purified water runner, one end of the waterway switch water outlet pipe 183 is connected with an outlet of the purified water runner, and the other end of the waterway switch water outlet pipe 183 is connected with the other end of the float switch water inlet pipe 161;

when the cup cover 14 is opened or closed, the water channel switch outlet pipe 183 can rotate around the water channel switch 182, and when the cup cover 14 arranged on the water storage cup 2 is opened, the water purifying switch valve core in the water channel switch 182 closes the water purifying flow channel, and when the cup cover 14 is arranged above the water storage cup 2, the water purifying switch valve core in the water channel switch 182 opens the water purifying flow channel.

The water purifier in the disclosure may further be provided with a water channel switch 182, the water channel switch 182 is internally provided with a water purification switch valve core and a water purification flow channel, the water purification switch valve core controls the opening or closing of the water purification flow channel, when the cup cover 14 is closed, the water channel switch water outlet pipe 183 rotates along with the cup cover 14, when the cup cover is closed in place, the water purification switch valve core is opened to open the water purification flow channel, so that purified water enters the water purification flow channel in the water channel switch 182 through the water channel switch water inlet pipe 181, and enters the water channel switch water outlet pipe 183 through the water purification flow channel; as shown in fig. 7, when the cover 14 is opened, the water switch outlet pipe 183 rotates together with the cover 14, and the water switch valve spool is closed to close the water flow passage, thereby preventing water from entering the water flow passage in the water switch 182 through the water switch inlet pipe 181, and then from entering the water switch outlet pipe 183 through the water flow passage.

Through the above-mentioned waterway switch 182, when the water cup 2 is internally connected with purified water, if the cup cover 14 is opened midway, the valve core of the purified water switch valve can immediately control the water purifying flow passage to be closed, thereby effectively preventing the purified water from overflowing.

In one embodiment, the base 151 is inverted T-shaped or L-shaped; the cup cover 14 is movably connected with the top of the base 151.

Illustratively, as shown in FIG. 4, lid 14 may be coupled to the top of base 151 via a pivot 153 such that lid 14 may be rotated about the pivot to either cover or uncover retaining cup 2.

In one embodiment, cap 14 is movably coupled to an upper portion of a sidewall of cartridge barrel 152.

Illustratively, the cap 14 may be pivotally connected to an upper portion of the sidewall of the cartridge barrel 152 such that the cap 14 may be rotated about the pivot to either cover the water reservoir 2 or to open.

In one embodiment, an interior cavity 141 is provided in cap 14 and float switch inlet tube 161 is positioned within interior cavity 141.

In one embodiment, a float switch 162 limit 142 is provided below the cap 14;

the float switch 162 is positioned in the float 1622 limiting part 142;

the limiting part 142 of the float switch 162 is in a hollow structure, so that purified water in the water storage cup 2 can enter the limiting part of the float switch 162.

By arranging the floating ball 1622 limiting part 142, the floating ball 1622 can be limited, and the damage caused by overlarge displacement of the floating ball 1622 is avoided.

In one embodiment, the longitudinal center axis of the water cup 2 is parallel to the longitudinal center axis of the cartridge barrel 152 when the water cup 2 is placed on the base 151.

By mounting the filter cartridge 13 to the side, side extraction is facilitated.

In one embodiment, in order to prevent the water storage cup 2 from being displaced when the water storage cup 2 is connected with water, a clamping groove of the water storage cup 2 for placing the water storage cup 2 is formed in the base 151.

In one embodiment, to enhance the user experience, so that the user gets the heated clean water, further comprising: a heating assembly;

the heating assembly is located within the base 151.

Other embodiments of the disclosure will be apparent to those skilled in the art from consideration of the specification and practice of the disclosure disclosed herein. This application is intended to cover any adaptations, uses, or adaptations of the disclosure following, in general, the principles of the disclosure and including such departures from the present disclosure as come within known or customary practice within the art to which the disclosure pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the disclosure being indicated by the following claims.

It is to be understood that the present disclosure is not limited to the precise arrangements and instrumentalities shown in the drawings, and that various modifications and changes may be effected without departing from the scope thereof. The scope of the present disclosure is limited only by the appended claims.

Claims (9)

1. A water purifier, comprising: the machine body and the water storage cup;

the fuselage comprises: raw water inlet pipe, purified water outlet pipe, filter element, cup cover, base component and float switch component;

the base assembly includes: the base is connected with the base and is used for placing the filter element barrel of the filter element;

the float switch assembly includes: a float switch water inlet pipe and a float switch positioned at one end of the float switch water inlet pipe;

the filter cartridge includes: a filter element water inlet and a filter element purified water outlet;

the filter element water inlet is connected with tap water through the raw water inlet pipe, and the filter element water purifying outlet is connected with the other end of the float switch water inlet pipe through the purified water outlet pipe;

the floating ball switch water inlet pipe is positioned in the cup cover, the floating ball switch is positioned below the cup cover, when the water storage cup is placed on the base and the cup cover is arranged above the water storage cup, the floating ball switch is positioned in the water storage cup, one end of the floating ball switch water inlet pipe is communicated with the water storage cup, and the floating ball switch is used for opening or closing one end of the floating ball switch water inlet pipe along with the lifting of the water level in the water storage cup so as to control the purified water amount entering the water storage cup;

the floating ball switch water inlet pipe is in an inverted L shape, the end part of one end of the floating ball switch water inlet pipe is in a closed state, and a side wall, close to the end part, of one end of the floating ball switch water inlet pipe is provided with a purified water inlet;

the end part of one end of the floating ball switch water inlet pipe is provided with a fixing part;

the float switch includes: a floating ball rotating rod, a floating ball and a water stopping part;

one end of the floating ball rotating rod is connected with the floating ball, and the side wall of the floating ball rotating rod is connected with the water stopping part;

the floating ball rotating rod is connected with the fixed part through a rotating shaft, so that the floating ball rotating rod can rotate around the rotating shaft, and the water stopping part is driven to open or close the purified water inlet;

the fuselage further comprises: a waterway switch assembly;

the waterway switch assembly includes: the water purification device comprises a water channel switch water inlet pipe, a water channel switch and a water channel switch water outlet pipe, wherein a water purification runner controlled by a water purification switch valve core is arranged in the water channel switch;

one end of the water channel switch water inlet pipe is connected with the other end of the water purifying water outlet, the other end of the water channel switch water inlet pipe is connected with the inlet of the water purifying flow channel, one end of the water channel switch water outlet pipe is connected with the outlet of the water purifying flow channel, and the other end of the water channel switch water outlet pipe is connected with the other end of the floating ball switch water inlet pipe;

when the cup cover is opened or covered, the water outlet pipe of the waterway switch can rotate around the waterway switch, and when the cup cover covered on the water storage cup is opened, the water purifying flow passage is closed by the water purifying switch valve core in the waterway switch, and when the cup cover is covered above the water storage cup, the water purifying flow passage is opened by the water purifying switch valve core in the waterway switch;

an inner cavity is formed in the cup cover, and the water inlet pipe of the float switch is located in the inner cavity.

2. The water purifier of claim 1, wherein a sealing ring is disposed at the purified water inlet.

3. The water purifier of claim 1, wherein the base is inverted T-shaped or L-shaped;

the cup cover is movably connected with the top of the base.

4. The water purifier of claim 1, wherein the cap is movably coupled to an upper portion of the cartridge sidewall.

5. The water purifier of claim 1, wherein the body further comprises: a waste water outlet pipe; the filter cartridge includes: a filter element waste water port;

the filter element waste water port is connected with one end of the waste water outlet pipe.

6. The water purifier of claim 1, wherein a float switch limit part is arranged below the cup cover;

the floating ball switch is positioned in the floating ball limiting part;

the floating ball switch limiting part is of a hollow structure, so that purified water in the water storage cup can enter the floating ball switch limiting part.

7. The water purifier of claim 1 wherein the longitudinal center axis of the water reservoir cup is parallel to the longitudinal center axis of the cartridge when the water reservoir cup is placed on the base.

8. The water purifier of claim 1, wherein the base is provided with a retaining cup slot for receiving the retaining cup.

9. The water purifier of claim 1, further comprising: a heating assembly;

the heating assembly is located within the base.