CN112851055A - Instant heating type reverse osmosis water purifier - Google Patents

Abstract

An instant heating type reverse osmosis water purifier comprises an outer water tank, a shell and a main body bracket arranged in the shell, wherein the outer water tank is detachably arranged at the rear side of the shell; the main part support includes rear platform, the front side platform that is used for the heating element installation and the upper end platform that is used for automatically controlled unit mount, the front side platform with the rear platform interval sets up, and both with the upper end platform forms the holding cavity jointly, be equipped with filter element subassembly and built-in water tank in the holding cavity. The layout scheme of the internal structure is provided for the mini-type water purifier, and the influence of pipeline water leakage on a circuit system is well isolated.

Description

Instant heating type reverse osmosis water purifier

Technical Field

The invention relates to the field of household machines, in particular to an instant reverse osmosis water purifier.

Background

In the water treatment field especially need all introduce the shell from external water tank in the water purification field, the rethread filter element group spare in the shell, heating element etc. are filtered water, are heated the processing back such as, connect out from the delivery port of purifier and drink. Due to the defects of layout scheme design and excessive pursuit of power and water capacity, the commercial instant heating water purifier generally has the problems of overlarge volume and high manufacturing cost, and the external water tank with overlarge capacity often exceeds the daily drinking of a common family, so that the problems of overlong storage period of water in the external water tank and easy breeding of bacteria are caused.

Disclosure of Invention

In view of the above-mentioned drawbacks of the prior art, the main object of the present invention is to provide a layout scheme of internal structure for a mini-type reverse osmosis water purifier.

In order to achieve the aim, the invention provides an instant reverse osmosis water purifier which comprises an outer water tank, a shell and a main body bracket arranged in the shell, wherein the outer water tank is detachably arranged at the rear side of the shell;

the main part support includes rear platform, the front side platform that is used for the heating element installation and the upper end platform that is used for automatically controlled unit mount, the front side platform with the rear side platform interval sets up, and both with the upper end platform forms the accommodation cavity jointly, be equipped with filter element subassembly, built-in water tank and RO pump in the accommodation cavity.

Preferably, a partition plate is arranged to divide the accommodating cavity into a front cavity and a rear cavity in a front-rear sequence, the filter element assembly is detachably arranged in the rear cavity, and the built-in water tank and the RO pump are arranged in the front cavity.

Preferably, the water channel plate assembly comprises a plate main body, a first water channel and a second water channel, wherein the first water channel and the second water channel are arranged in the plate main body;

the first water passage is used as a water inlet connecting pivot and is respectively communicated and connected with the filter element assembly, the outer water tank and the built-in water tank, and the RO pump is arranged on a connecting pipeline of the first water passage and the outer water tank;

and the second water passage is used as a water outlet connecting pivot and is respectively communicated and connected with the waste water outlet of the filter element assembly and the outer water tank.

Preferably, the RO pump is disposed at a side of the built-in water tank, and the waterway plate assembly is disposed above the built-in water tank.

Preferably, a waste water flushing valve is arranged on a pipeline connected with the waste water outlet of the filter element assembly and the outer water tank, and the waste water flushing valve is arranged above the built-in water tank.

Preferably, the heating assembly comprises a heating body and a heating water pump, the heating water pump is communicated with the built-in water tank and the heating body through pipelines respectively, purified water in the built-in water tank enters the heating body to provide power, and water heated by the heating body flows out of a water outlet of the water purifier through a pipeline.

Preferably, the air outlet of the built-in water tank is connected with an air exhaust/drainage pipe;

one end of the exhaust/drain pipe is communicated with the top or the upper end side part of the built-in water tank, and the other end of the exhaust/drain pipe is communicated with an external hole arranged on the shell so as to maintain the air pressure balance between the inside of the built-in water tank and the outside, and when the built-in water tank inclines or falls down along with the water purifier, the purified water overflowing and spilling from the built-in water tank is stored or discharged to the outside of the water purifier;

preferably, the outer connecting hole of the housing is arranged on the bottom end face of the housing.

Preferably, when the water amount in the outer water tank cannot continuously support the water purifier to work, the outer water tank needs to be removed from contact with the shell for a preset time, and then the outer water tank is assembled to the shell, so that the water purifier can start to work again.

Preferably, a microswitch is arranged at the position where the shell and the outer water tank are assembled and combined, and the microswitch is electrically connected with the control module of the water purifier so as to transmit a signal indicating whether the outer water tank and the shell are installed in place to the control module.

Preferably, the waste water outlet of the filter element assembly is directly or indirectly communicated with the outer water tank through a waste water pipe, and a one-way check valve is arranged on a connecting path of the waste water pipe and the outer water tank.

Preferably, the outer water tank is provided with a water outlet channel, the housing is provided with a water outlet diversion channel, when the outer water tank is assembled to the housing, the water outlet channel is communicated with the water outlet diversion channel, and a one-way check valve is arranged on a communication path between the water outlet channel and the water outlet diversion channel;

the water outlet flow guide channel is directly or indirectly communicated with the water inlet of the filter element component through a pipeline.

The invention provides a realizable internal structure layout scheme for a mini-type water purifier, and particularly, a main body support for dividing the internal space of the mini-type water purifier is arranged in a shell, a front side platform and a rear side platform filter external water inlet and temporarily store water for a short time, and a heating component and an electric control component of the water purifier which are more in circuit layout are arranged on the outer side of an accommodating cavity in an isolated mode, namely the electric control component is arranged on an upper end platform with the highest position in the shell, and the heating component is arranged on the front side platform which is closest to a water outlet of the water purifier, so that the influence of pipeline water leakage on a circuit system is well isolated.

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 structures shown in the drawings without creative efforts.

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

FIG. 2 is a schematic rear chamber layout of a water purifier according to an embodiment of the present invention;

FIG. 3 is a schematic view of an embodiment of the built-in water tank and the air/water discharge pipe according to the present invention;

FIG. 4 is a perspective view of an embodiment of the built-in water tank and the air/water discharge pipe of the present invention;

FIG. 5 is a schematic view of an installation structure of an embodiment of the outer water tank, the housing and the micro switch of the present invention;

FIG. 6 is a schematic view of an embodiment of a housing and a microswitch of the present invention;

FIG. 7 is a schematic view of the outer tank assembly of the present invention;

FIG. 8 is a schematic structural view of an embodiment of a female valve assembly and a flow directing assembly of the present invention;

fig. 9 is a schematic structural view of a first guide pillar according to an embodiment of the present invention;

fig. 10 is a schematic structural view of an embodiment of the fluid guide seat of the present invention.

The reference numbers illustrate:

an outer water tank 1; a housing 2, an external connection hole 21;

the main body support 3, a front cavity 301, a rear cavity 302, a rear side platform 31, a front side platform 32 and an upper end platform 33;

the heating component 4, the heating body 41 and the heating water pump 42; an electric control component 5 and a filter element component 6;

built-in water tank 7, air/water discharge pipe 71;

an RO pump 8, a waste water flushing valve 9 and a microswitch 10;

the main valve assembly 11, the main valve body 111, the water outlet passage 111a, the second elastic member 112, and the second guide column 113;

the flow guide assembly 12, the flow guide seat 121, the flow guide channel 121a, the assembly channel 121aa, the inclined channel 121ab, the flow guide seat cover 121b, the first flow guide pillar 122, the first pillar portion 122a, the inner groove portion 122b, the second pillar portion 122c, the rod portion 122d, and the first elastic member 123;

a diversion column sealing ring 13; a pilot valve base 14, a discharge passage 141, a guide groove 142;

a water tank diversion column sealing ring 15;

a housing inner seal ring 161, a housing outer seal ring 162, a seal ring wall 162a, a seal boss 162 b; a check valve gasket 17 and a waterway plate assembly 18.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

It should be noted that, if directional indications (such as up, down, left, right, front, and back … …) are involved in the embodiment of the present invention, the directional indications are only used to explain the relative positional relationship between the components, the movement situation, and the like in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indications are changed accordingly.

In addition, if there is a description of "first", "second", etc. in an embodiment of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

As shown in fig. 1 and 2, an instant reverse osmosis water purifier comprises an outer water tank 1, a housing 2 and a main body bracket 3 arranged in the housing 2, wherein the outer water tank 1 is detachably arranged at the rear side of the housing 2;

main part support 3 includes rear side platform 31, is used for the front side platform 32 of heating element 4 installation and is used for the upper end platform 33 of automatically controlled subassembly 5 installation, front side platform 32 with rear side platform 31 interval sets up, and both with upper end platform 33 forms the accommodation cavity jointly, be equipped with filter element subassembly 6, built-in water tank 7 and RO pump 8 in the accommodation cavity.

The invention provides a realizable internal structure layout scheme for a mini-type water purifier, and particularly, a main body support 3 for dividing the internal space of the mini-type water purifier is arranged in a shell 2, a front side platform 32 and a rear side platform 31 filter external water inlet and short-time water storage components, and a heating component 4 and an electric control component 5 of the water purifier which are more in circuit layout are arranged on the outer side of a containing cavity in an isolated mode, namely the electric control component 5 is arranged on an upper end platform 33 which is the highest in position in the shell 2, and the heating component 4 is arranged on the front side platform 32 which is closest to a water outlet of the water purifier, so that the influence of pipeline water leakage on a circuit system is well isolated.

Wherein, heating element 4, automatically controlled subassembly 5, filter element group spare 6, built-in water tank 7, RO pump 8 and water route board subassembly 18 are conventional technical characteristics in the reverse osmosis water purification machine, RO pump 8 provides power for water is sent into filter element group spare 6 from outer water tank 1, water obtains the water purification after filter element group spare 6 is handled and is sent into built-in water tank 7, when the user needs the hot water, water in the built-in water tank 7 is sent out after heating element 4, and all work content of whole reverse osmosis water purification machine send the instruction through automatically controlled subassembly 5 and accomplish for relevant part cooperation.

Preferably, it will to be equipped with the baffle it separates formation front chamber 301 and back chamber 302 to hold the cavity according to the front and back order, filter element group 6 detachably sets up back chamber 302, built-in water tank 7 with RO pump 8 sets up front chamber 301, will hold the cavity through the baffle in this embodiment and divide into front chamber 301 and back chamber 302, further separate built-in water tank 7, RO pump 8 and filter element group 6 and set up in two relatively independent cavities, provide good space for filter element group 6's swift change.

Preferably, the water way plate assembly 18 is further included, and the water way plate assembly 18 comprises a plate main body and a first water passage and a second water passage which are arranged in the plate main body;

the first water passage is used as a water inlet connecting pivot and is respectively communicated and connected with the filter element assembly 6, the outer water tank 1 and the built-in water tank 7, and the RO pump 8 is arranged on a connecting pipeline of the first water passage and the outer water tank 1;

the second water passage is used as a water outlet connecting pivot and is respectively communicated and connected with the waste water outlet of the filter element assembly 6 and the outer water tank 1.

In the embodiment, the waterway plate assembly 18 is arranged as a pivot part for connecting and communicating the waterways in the water purifier, so that the space utilization rate is improved, and the internal structural layout of the water purifier is compact; and the plate body with certain strength can well support and satisfy repeated disassembly and assembly between the filter element assembly 6 and the first water passage thereof. When the water purifier is used, the RO pump 8 provides power to enable water in the outer water tank 1 to enter the first water passage, purified water obtained through the filter element assembly 6 enters the built-in water tank 7, the filter element assembly 6 is generally formed by connecting a plurality of filter elements in series, and water entering from the outer water tank 1 sequentially passes through the plurality of filter elements and then is sent to the built-in water tank 7;

waste water generated by the operation of the filter element assembly 6 flows back to the outer water tank 1 through the second water passage, a waste water pipe can be communicated between the second water passage and the outer water tank 1, the waste water pipe is directly or indirectly communicated with the outer water tank 1, a one-way check valve is arranged on a connecting path of the waste water pipe and the outer water tank 1, the filtered waste water is directly sent back to the outer water tank 1 and is continuously and repeatedly filtered for use, a closed-loop type treatment use mode for treating the filtered waste water is established, the structure in the water purifying and drinking machine is simplified, the utilization rate of water resources is also improved, and the water purifying and drinking machine is environment-friendly and energy-saving.

Furthermore, the outer water tank 1 is provided with a water inlet channel, the water inlet channel is provided with a mother valve assembly 11 of the one-way check valve, and the water inlet channel is in a blocked state under the condition that the mother valve assembly 11 acts alone;

the shell 2 is provided with a water inlet flow guide channel, and the water inlet flow guide channel is provided with a flow guide assembly 12 of the one-way check valve; when the outer water tank is assembled to the shell 2, the water inlet channel corresponds to the water inlet diversion channel, and the diversion component 12 acts on the female valve component 11 to enable the water inlet channel to be communicated and communicated with the water inlet diversion channel;

the waste water pipe is directly or indirectly communicated with the water inlet flow guide channel.

Preferably, the RO pump 8 is arranged on the side surface of the built-in water tank 7, and the waterway plate assembly 18 is arranged above the built-in water tank 7, so that the structure is compact and the installation is convenient.

Furthermore, a waste water flushing valve 9 is arranged on a pipeline connecting a waste water outlet of the filter element assembly 6 and the outer water tank 1, and the waste water flushing valve 9 is arranged above the built-in water tank 7; the waste water flushing valve 9 is used for flushing the filter element assembly 6, the service life of the filter element assembly 6 is prolonged, the waste water flushing valve 9 generally at least comprises two states of allowing large flow to pass through and allowing small flow to pass through, when the waste water flushing valve is adjusted to allow small flow to pass through, the waste water of the filter element assembly 6 is normally in a state of entering the outer water tank 1 to be recovered through, when the waste water flushing valve is adjusted to allow large flow to pass through, the filter element is flushed due to overlarge water flow impact, the flushed water can directly enter the outer water tank 1 through the waste water pipe, and the use is convenient.

Preferably, as shown in fig. 3 and 4, the air outlet of the built-in water tank 7 is connected with an air exhaust/drainage pipe 71;

one end of the exhaust/drain pipe 71 is communicated with the top or upper end side portion of the built-in water tank 7, and the other end is communicated with the external connection hole 21 provided in the housing 2, so as to maintain the air pressure balance between the inside of the built-in water tank 7 and the outside, and to receive or discharge the clean water overflowing and spilling from the built-in water tank 7 to the outside of the water purifier when the built-in water tank 7 tilts and falls down along with the water purifier.

The product inside overall arrangement of purifier has a great deal of electrified parts, and the venthole of built-in water tank 7 is connected with exhaust/drain pipe 71's main effect in this technical scheme is when avoiding the purifier to take place to incline, askew in the removal process, and water spills over, spills out along the exhaust hole in built-in water tank 7, thereby wanders into the inside of product and influences or even destroys the normal use of electrified part, fundamentally guarantees the safe handling of purifier.

Specifically, the air exhaust/drainage pipe 71 is arranged in the embodiment to be communicated with the top or the upper end side part of the built-in water tank 7, so that on one hand, the air exhaust/drainage pipe is used for exhausting air of the built-in water tank 7 to maintain the balance between the internal air pressure of the built-in water tank 7 and the external air pressure, and the purified water can smoothly flow into the built-in water tank 7; on the other hand, the space and the way that water in the built-in water tank 7 overflows outwards when the built-in water tank 7 tilts and falls along with the water purifier are also provided.

One end of the exhaust/drainage pipe 71 is communicated with the top or upper end side of the built-in water tank 7, and the other end of the exhaust/drainage pipe can be communicated with the external connection hole 21 of the upper part of the shell of the water purifier, so that the pipe body of the exhaust/drainage pipe 71 only plays a role of temporarily storing external overflow water due to the fact that the built-in water tank 7 has little water overflowing outwards, and the first embodiment is realized;

another embodiment of the connection mode of the exhaust/drain pipe 71 and the shell of the water purifier is that the water purifier arranges the external connection hole 21 at the lower part of the shell, the optimal position is to arrange the external connection hole 21 on the bottom wall surface of the shell, and then the other end of the exhaust/drain pipe 71 is communicated and connected with the external connection hole 21, so that the water overflowing outwards from the built-in water tank 7 can be directly discharged to the outside of the water purifier along the pipe body of the exhaust/drain pipe 71 at a large probability, thereby avoiding the influence of water sprinkling in the water on the normal use of components; both of the above-mentioned connection modes shall fall within the protection scope of the present invention.

Preferably, the external connection hole 21 is arranged on the end surface of the bottom of the casing 2, so that water overflowing from the built-in water tank 7 is directly discharged from the bottom of the water purifier, the possibility that the internal components of the water purifier are affected by the external overflow is completely eliminated, and meanwhile, the water discharged from the water purifier is conveniently collected.

Preferably, the heating assembly 4 includes a heating element 41 and a heating water pump 42, the heating water pump 42 is respectively communicated with the built-in water tank 7 and the heating element 41 through a pipeline, for the purified water in the built-in water tank 7 enters the heating element 41 to provide power, and the water heated by the heating element 41 flows out from the water outlet of the water purifier through a pipeline.

In this embodiment, the RO pump 8 filters in going into filter element group spare 6 with the water pump in outer water tank 1, and filter element group spare 6 filters out water and passes through the pipeline and get into built-in water tank 7, and when the user need connect from the purifier and get hot water, then heat the water purification extraction of suction pump 42 in with built-in water tank 7 and heat the back in the heat-generating body 41, again from the delivery port outflow of purifier can.

Preferably, as shown in fig. 7, when the water amount in the outer water tank 1 cannot support the water purifier again, the outer water tank 1 needs to be removed from contact with the housing 2 for a preset time, and then the outer water tank 1 is assembled to the housing 2, so as to allow the water purifier to start operating again.

Preferably, as shown in fig. 5, 6 and 7, a micro switch 10 is installed at a position where the outer water tank 1 and the housing 2 are assembled, and the micro switch 10 is electrically connected to a control module of the water purifier, so as to transmit a signal indicating whether the outer water tank 1 and the housing 2 are installed in place to the control module.

The outer water tank 1 needs to be moved to the shell 2 due to reasons such as water adding and the like, when the outer water tank is moved back to be installed on the shell 2, the system can be operated safely only by ensuring that waterway channels such as a water inlet, a water outlet and the like of a combination part are accurately installed in place and are in a conduction state, and basically in the prior art, an infrared sensing element is arranged at the combination part for detecting whether the outer water tank is installed in place, and a signal capable of moving continuously is sent to a control module only when the outer water tank is detected to be installed in place; practice proves that the problem that the precision is not high often exists in the detection components related to the infrared induction principle at the present stage, two assembled components do not need to be assembled in place accurately, signal feedback can be sent out as long as a certain part of the component is sensed by infrared, and great safety problems are brought to the use of the water purifier, for example, a signal for installation in place can be sent out under the condition that the component is not completely in place, the equipment machine enters a state of continuous work, and the problem that water is sprinkled and even normal use of electronic components is influenced can occur under the condition that the water inlets of the outer water tank 1 and the shell 2 are not aligned; the waste water ports of the external water tank and the shell 2 are not communicated, the waste water pump starts to work along with the system instruction, the problem that the pressure of the waste water pipe is increased to cause the pipeline to burst is easily caused, and the like.

Set up micro-gap switch 10 in this embodiment and be used for detecting outer water tank 1 and whether install casing 2 accurately completely, start-up work under the condition that the system that probably brings does not possess continuation operating condition yet owing to not installing accurately completely, the inside water pressure increase scheduling problem that brings, if do not install because of outer water tank 1 and target in place, the spring that leads to the one-way check valve of waste water mouth department on outer water tank 1 after the machine function can't be opened, outer water tank 1 can't be flowed back to waste water, arouse the increase of waste pipe pressure, lead to the pipeline that explodes of dashing. The operating principle of the microswitch 10 determines that the elastic sheet is required to be pressed to generate position change on a physical distance so as to send a related sensing signal, whether the outer water tank 1 is accurately installed for signal detection is utilized, the pressing state of the elastic sheet can be used as a standard for sending a detection signal to the control module according to the accurate installation of the outer water tank 1 on the shell 2, only when the state of the elastic sheet reaches the standard during installation, a signal for installation in place is sent to the control module, otherwise, the signal is not sent, the physical space state change and the control of the physical position of the outer water tank 1 and the shell 2 during installation form a mapping relation, the detection accuracy is high, and the safe operation of the water purifier is ensured.

When the water tank is used, the outer water tank 1 is accurately and completely arranged on the shell 2, the micro switch 10 is triggered to transmit signals, and the control module can normally work when detecting that the micro switch 10 is closed; can install after 3 seconds after mentioning outer water tank 1 and trading water, if the water tank did not install in place this moment, this control module and whole internal system just can not carry out work, convenient to use, and the precision is high.

Preferably, the outer water tank 1 is provided with a water outlet channel, the housing 2 is provided with a water outlet diversion channel, when the outer water tank 1 is assembled to the housing 2, the water outlet channel is communicated with the water outlet diversion channel, and a one-way check valve is arranged on a communication path between the water outlet channel and the water outlet diversion channel;

the water outlet flow guide channel is directly or indirectly communicated with the water inlet of the filter element assembly 6 through a pipeline, and the water outlet flow guide channel is simple in structure and convenient to install.

As for the specific structure of the one-way check valve, there are various implementation structures, which generally include a main valve assembly 11 and a flow guide assembly 12, wherein the main valve assembly 11 is installed on the outer water tank 1, and the flow guide assembly 12 is installed on the housing 2, and is used for controlling the one-way water outlet path from the outer water tank 1 to the direction of the housing 2, or the one-way water inlet path from the housing 2 to the direction of the outer water tank 1 (mainly the blockage state of wastewater entering the outer water tank 1);

the following description will take the control of the one-way check valve for the one-way blocking state of the water outlet path from the outer water tank 1 to the housing 2 as an example, and the control principle of the one-way blocking state of the water inlet path from the housing 2 to the outer water tank 1 is the same, and will not be repeated.

In this embodiment, as shown in fig. 8, 9 and 10, the flow guiding assembly 12 includes a flow guiding seat 121, a first flow guiding pillar 122 and a first elastic member 123;

the flow guide seat 121 is provided with a flow guide channel 121a, the first flow guide column 122 is linearly and reciprocally disposed in the flow guide channel 121a through the first elastic member 123, so that when the outer water tank 1 is assembled to the housing 2, it can act on the female valve assembly 11 to change the female valve assembly 11 from a blocking state to a conducting state,

the flow guide channel 121a at least includes a section of assembly channel 121aa and a section of inclined channel 121ab, the first flow guide pillar 122 is adapted to be assembled in the assembly channel 121aa, and a water gap channel for water to flow through is formed between an outer side wall of the first flow guide pillar and an inner side wall of the assembly channel 121 aa; the inclined surface passage 121ab is engaged with the lower end of the assembling passage 121aa, and the inner diameter of the inclined surface passage is gradually increased in the direction away from the assembling passage 121 aa;

the outer side wall of the first guide column 122 is sleeved with a guide column sealing ring 13, and in the process that the guide column sealing ring 13 linearly reciprocates along with the first guide column 122, the blocking and conduction control of the water gap channel is realized by means of the inner wall surface of the inclined channel 121 ab.

The technical scheme of the invention is used for connecting the outer water tank 1 and the shell 2 of the water purifying dispenser, so as to solve the problem that the existing connecting component is easy to rub and age after being inserted and pulled for a long time, and then the water leakage phenomenon occurs.

When the technical scheme is used, the female valve assembly 11 is accurately assembled to the shell 2, the first diversion column 122 is pressed downwards and acts on the female valve assembly 11 to enable the female valve assembly 11 to be in a conduction state, meanwhile, the diversion channel 121a of the diversion assembly 12 is also in the conduction state, and the two are communicated to form a path for water to flow into the shell 2 from the outer water tank 1; when outer water tank 1 did not assemble casing 2, female valve unit spare 11 was in the shutoff state, avoided outer water tank 1 internal water to leak outward, and first water conservancy diversion post 122 upwards resets, with the shutoff of water conservancy diversion passageway 121a again, avoids the return water to spill over convenient to use from water conservancy diversion passageway 121 a.

Specifically, when the outer water tank 1 is not assembled to the housing 2, the first flow guiding column 122 of the flow guiding assembly 12 is not pressed downward, and the flow guiding column sealing ring 13 abuts against the inner wall surface of the small inner diameter end of the inclined channel 121ab, so as to block the path of the water gap channel communicated with the flow guiding channel 121a below the water gap channel; when the outer water tank 1 is assembled to the housing 2, the first guide pillar 122 is pressed downward, so that the first elastic member 123 is directly in a compressed state, and the guide pillar sealing ring 13 moves downward along with the first guide pillar 122 toward the direction in which the inner diameter of the inclined channel 121ab is gradually increased, and then gradually disengages from the inner wall surface of the inclined channel 121ab, so that the blocking of the water gap channel is removed, and the water gap channel is communicated with the guide channel 121a below the water gap channel; when the outer water tank 1 leaves the shell 2, under the action of the restoring force of the first elastic piece 123, the first diversion column 122 is reset upwards, the diversion column sealing ring 13 upwards blocks the water passage channel again, in the embodiment, the inclined surface is directly utilized to form a channel for blocking, the conversion control of blocking and conducting states of the diversion channel 121a can be realized by matching with the sealing ring and certain elastic extrusion force, meanwhile, the assembly requirement of linear reciprocating motion of the first diversion column 122 is met, the structure is simple and easy to realize, the maintenance is convenient (the diversion column sealing ring 13 can be replaced after being worn), and the service life of the whole product is long.

Preferably, the first guide pillar 122 is composed of a first pillar portion 122a, an inner groove portion 122b, a second pillar portion 122c and a rod portion 122d from top to bottom, and the outer diameter of the first pillar portion 122a is adapted to the inner diameter of the fitting channel 121 aa; the column seal ring 13 is disposed in the inner groove 122b, and the outer diameter of the first column portion 122a is larger than the outer diameter of the inner groove 122b, but smaller than the outer diameter of the second column portion 122 c;

the rod portion 122d has an outer diameter smaller than that of the second column portion 122c, an upper end of the first elastic member 123 abuts against an end surface of the second column portion 122c, and a lower end thereof abuts against the fitting passage 121aa or a member fixedly attached to the fitting passage 121 aa.

In this embodiment, an inner groove portion 122b is designed on the first guide pillar 122 for mounting the guide pillar sealing ring 13, so as to ensure the mounting stability; on the other hand, the outer diameter of the second column portion 122c is larger than the outer diameter of the first column portion 122a and also larger than the inner diameter of the assembly passage 121aa, so as to prevent the first guide column 122 from coming out of the upper end of the guide passage 121a, and the structure is simple and the installation is convenient.

Preferably, the assembling channel 121aa is installed on the guide valve base 14, and the guide valve base 14 is provided with a discharge channel 141 communicated with the guide channel 121 a;

the pilot valve base 14 is further provided with a guide groove 142 into which the lower end of the rod portion 122d is inserted in a reciprocating manner, and the lower end of the first elastic member 123 abuts against the upper end surface of the guide groove 142.

In this embodiment, the guiding groove 142 defines a linear movement path of the rod portion 122d, so as to improve the accuracy of the action on the female valve assembly 11.

As for the structure of the female valve assembly 11, a preferred implementation manner is to include a female valve body 111, a second elastic member 112 and a second diversion column 113, where the female valve body 111 is disposed in the outer water tank 1, and is provided with a water outlet channel 111a communicated with the outer water tank 1;

the second diversion column 113 is linearly and reciprocatingly arranged in the water outlet channel 111a through the second elastic member 112 to control the conduction and the blockage of the water outlet channel 111 a;

when the female valve assembly 11 and the guide assembly 12 are assembled, the water outlet passage 111a is communicated with the guide passage 121a, and the second guide column 113 is opposite to the first guide column 122, so that the structure is simple and the use is convenient.

In this embodiment, the outer water tank 1 is accurately assembled to the housing 2, the first diversion column 122 acts on the second diversion column 113 to move upward, so as to leave the blocking position, the water outlet channel 111a is conducted, and the second elastic member 112 is in a compressed state; when the outer water tank 1 is removed from the housing 2, the upward acting force of the first guide pillar 122 on the second guide pillar 113 disappears, the second guide pillar 113 moves downward under the restoring force of the second elastic member 112, and returns to the blocking position again, and the water outlet passage 111a is blocked. There are many configurations of the female valve assembly 11 that can achieve the above function in the prior art, and the following embodiments are preferred:

a water outlet is formed in the upper end of the water outlet channel 111a, the second flow guide column 113 penetrates out of the water outlet upwards, and a water outlet gap channel is formed between the wall of the water outlet and the outer side wall of the second flow guide column 113;

the outer side wall of the second guide column 113 penetrating out of the water outlet hole part is sleeved with a water tank guide column sealing ring 15, and when the water tank guide column sealing ring 15 is attached to the upper end surface of the water outlet channel 111a, the water outlet channel is blocked; when the water tank diversion column sealing ring 15 moves upwards along with the second diversion column 113 to leave the upper end surface of the water outlet channel 111a, the water outlet gap channel is blocked and communicated, the structure is simple, and the installation is convenient.

For the assembly structure of the female valve assembly 11 and the flow guide assembly 12, the preferable implementation form is that the inner diameter of the water outlet channel 111a is equivalent to the outer diameter of the flow guide channel 121a, so that the flow guide channel 121a can be adaptively inserted into the water outlet channel 111a, the problem of water leakage to the outside in the process that water in the outer water tank 1 flows into the flow guide channel 121a along the water outlet channel 111a is avoided, and the water leakage prevention effect is obvious.

Preferably, a casing inner sealing ring 161 is disposed between the inner wall surface of the diversion channel 121a and the outer wall surface of the water outlet channel 111a, so as to block a water leakage channel which may be formed between the outer wall surface of the diversion channel 121a and the inner wall surface of the water outlet channel 111a, thereby enhancing the above-mentioned water leakage prevention effect.

Further, a casing outer sealing ring 162 is arranged to be sleeved on the outer wall surface of the flow guide channel 121a simultaneously or separately, the casing outer sealing ring 162 is provided with a sealing ring wall 162a extending vertically and upwardly, when the female valve assembly 11 and the flow guide assembly 12 are assembled, the wall surface of the water outlet channel 111a is limited between the sealing ring wall 162a and the outer wall surface of the flow guide channel 121a, and a water leakage channel possibly formed by the outer wall surface of the water outlet channel 111a is blocked, so that the water leakage effect is enhanced, and the assembling structure of the sealing ring wall 162a and the outer wall surface of the flow guide channel 121a can be directly and tightly attached, so that the water leakage effect is optimal; the inner wall surface of the seal ring wall 162a may be provided with a seal protrusion 162b protruding toward one side of the water guide channel 121a, and the seal protrusion 162b blocks a water leakage channel plug which may be formed on the outer wall surface of the water outlet channel 111a, so that the water leakage prevention effect can be achieved, the water guide channel 121a can be more conveniently and adaptively inserted into the water outlet channel 111a (the contact area is reduced, the friction is reduced), and various flexible modes are provided.

Preferably, the flow guide seat 121 further includes a flow guide seat cover 121b for installation and positioning, the flow guide seat cover 121b is connected with the flow guide channel 121a to form a T-shaped structural member, the housing outer sealing ring 162 is received by the upper end face of the flow guide seat cover 121b, and the upper end of the sealing ring wall 162a is limited by the housing 2, so that the structure is simple and the installation is convenient.

Preferably, the guide seat 121 is mounted on the guide valve base 14 through the guide seat cover 121b, and the guide valve base 14 is provided with a discharge passage 141 communicated with the guide passage 121 a;

and a stop valve sealing gasket 17 is arranged between the end surfaces of the flow guide seat cover 121b and the flow guide valve base 14 in mounting contact, so that the structure is simple, and the mounting is stable and convenient.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, and all modifications and equivalents of the present invention, which are made by the contents of the present specification and the accompanying drawings, or directly/indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (12)

1. The utility model provides an instant heating type reverse osmosis water purification machine which characterized in that: the water tank comprises an outer water tank, a shell and a main body bracket arranged in the shell, wherein the outer water tank is detachably arranged at the rear side of the shell;

the main part support includes rear platform, the front side platform that is used for the heating element installation and the upper end platform that is used for automatically controlled unit mount, the front side platform with the rear side platform interval sets up, and both with the upper end platform forms the accommodation cavity jointly, be equipped with filter element subassembly, built-in water tank and RO pump in the accommodation cavity.

2. The tankless reverse osmosis water purifier of claim 1, further comprising: be equipped with the baffle will it separates according to the front and back order and forms front chamber and back chamber to hold the cavity, filter element group spare detachably sets up the back chamber, built-in water tank with the RO pump sets up the front chamber.

3. The instant heating type reverse osmosis water purifier of claim 1 or 2, further comprising: the water channel plate assembly comprises a plate main body, a first water channel and a second water channel, wherein the first water channel and the second water channel are arranged in the plate main body;

the first water passage is used as a water inlet connecting pivot and is respectively communicated and connected with the filter element assembly, the outer water tank and the built-in water tank, and the RO pump is arranged on a connecting pipeline of the first water passage and the outer water tank;

and the second water passage is used as a water outlet connecting pivot and is respectively communicated and connected with the waste water outlet of the filter element assembly and the outer water tank.

4. The tankless reverse osmosis water purifier of claim 3, further comprising: the RO pump is arranged on the side face of the built-in water tank, and the waterway plate component is arranged above the built-in water tank.

5. The tankless reverse osmosis water purifier of claim 3, further comprising: and a wastewater flushing valve is arranged on a pipeline connected with the wastewater outlet of the filter element assembly and the outer water tank and is arranged above the built-in water tank.

6. The tankless reverse osmosis water purifier of claim 1, further comprising: the heating assembly comprises a heating body and a heating water pump, the heating water pump is communicated with the built-in water tank and the heating body through pipelines respectively, and water purified in the built-in water tank enters the heating body to provide power, and the water heated by the heating body flows out of a water outlet of the water purifier through the pipelines.

7. The instant heating type reverse osmosis water purifier of claim 1 or 2, further comprising: the air outlet of the built-in water tank is connected with an exhaust/drain pipe;

one end of the exhaust/drain pipe is communicated with the top or the upper end side part of the built-in water tank, the other end of the exhaust/drain pipe is communicated with an external hole arranged on the shell, so that the air pressure balance between the inside of the built-in water tank and the outside is maintained, and when the built-in water tank inclines or falls down along with the water purifier, the purified water overflowing and spilling from the built-in water tank is stored or discharged to the outside of the water purifier.

8. The tankless reverse osmosis water purifier of claim 7, further comprising: the shell is provided with the outer connecting hole in the bottom end face of the shell.

9. The tankless reverse osmosis water purifier of claim 1, further comprising: when the water quantity in the outer water tank cannot continuously support the water purifier to work, the outer water tank needs to be removed from contact with the shell for a preset time, and then the water purifier can be restarted when the outer water tank is assembled to the shell.

10. The tankless reverse osmosis water purifier of claim 9, further comprising: the water purifier is characterized in that a microswitch is arranged at the position where the shell and the outer water tank are assembled and combined, and the microswitch is electrically connected with the control module of the water purifier so as to transmit a signal indicating whether the outer water tank and the shell are installed in place to the control module.

11. The tankless reverse osmosis water purifier of claim 1, further comprising: and a waste water outlet of the filter element assembly is directly or indirectly communicated with the outer water tank through a waste water pipe, and a one-way check valve is arranged on a connecting path of the waste water pipe and the outer water tank.

12. The tankless reverse osmosis water purifier of claim 1, further comprising: the outer water tank is provided with a water outlet channel, the shell is provided with a water outlet flow guide channel, when the outer water tank is assembled to the shell, the water outlet channel is communicated with the water outlet flow guide channel, and a one-way check valve is arranged on a communication path of the water outlet channel and the water outlet flow guide channel;

the water outlet flow guide channel is directly or indirectly communicated with the water inlet of the filter element component through a pipeline.

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