CN115159758B

CN115159758B - Energy-saving water purifier with sterilization and disinfection functions

Info

Publication number: CN115159758B
Application number: CN202210849844.8A
Authority: CN
Inventors: 何世勇
Original assignee: Guangdong Shunde 100 Energy Saving Equipment Co ltd
Current assignee: Guangdong Shunde 100 Energy Saving Equipment Co ltd
Priority date: 2022-07-20
Filing date: 2022-07-20
Publication date: 2022-11-15
Anticipated expiration: 2042-07-20
Also published as: CN115159758A

Abstract

The invention relates to the field of water purifiers, in particular to an energy-saving water purifier with sterilization and disinfection functions. The technical problem is as follows: when the filter element of the existing water purifier is replaced, because clear water is always arranged in the filter cabin, the phenomenon of clear water overflow and the phenomenon of butt joint offset can occur in the replacement process. The technical scheme is as follows: an energy-saving water purifier with sterilization and disinfection functions comprises a lower frame, a filtering mechanism and the like; the middle part of the inner side of the lower frame is connected with a filtering mechanism. During the use, realized when opening the push-and-pull door, through the sixth pipeline upward movement of push-and-pull door linkage, thereby discharge the inside clear water of drum, and then avoid influencing the change operation of filter core, change the in-process, support new second connecting plate through the third ring, make the pressure conduction that the second sealing washer received to the third ring on, thereby avoid extrudeing new filter core and lead to the fact the damage to it, do benefit to the extrusion force that improves the third pipe to the second sealing washer simultaneously, and then improve sealed effect.

Description

Energy-saving water purifier with sterilization and disinfection functions

Technical Field

The invention relates to the field of water purifiers, in particular to an energy-saving water purifier with sterilization and disinfection functions.

Background

Along with the improvement of people's living standard, more and more people begin to pay close attention to the water health, can set up a plurality of filter cores in the current purifier usually and carry out filtration purification to the clear water, when the live time is longer, impurity in the clear water can be attached to on the filter core, consequently need regularly change the filter core, during the renew cartridge, because there is the clear water all the time in the filter chamber, lead to changing the in-process clear water and spill over the phenomenon, and simultaneously, new filter core has great buoyancy before not steeping, the manual work is difficult to insert the new filter core that buoyancy is big to the water inlet department of the surface of water below, thereby the problem of butt joint skew appears, and then reduce the leakproofness of water inlet and filter core kneck, lead to appearing the problem that the filter effect is low after the installation is accomplished.

Disclosure of Invention

The invention provides an energy-saving water purifier with sterilization and disinfection functions, aiming at overcoming the defect that when a filter element of the existing water purifier is replaced, as clear water is always arranged in a filter cabin, the phenomenon of clear water overflow and the phenomenon of butt joint and offset can occur in the replacement process, so that the filtering effect is low.

The technical scheme of the invention is as follows: an energy-saving water purifier with sterilization and disinfection functions comprises a lower frame, an upper frame, a control switch, a water collector, a first connecting plate, a limiting block, a sixth pipeline, a filtering mechanism, a drainage mechanism and a disinfection mechanism; the upper frame is fixedly connected with the rear part of the upper side of the lower frame; the front part of the upper side of the lower frame is fixedly connected with a water collector; two control switches are arranged at the front part of the upper side of the upper frame; the middle part of the inner side of the lower frame is connected with a filtering mechanism for self-protecting multiple filtering of clear water; the lower part of the filtering mechanism is provided with three first connecting plates; a plurality of limiting blocks are arranged at the lower part of the filtering mechanism and are averagely divided into three groups, and each group of limiting blocks is respectively positioned above one adjacent first connecting plate; the filter mechanism is subjected to cut-off type force application sealing through the matching of the limiting block and the first connecting plate; the lower frame is connected with a drainage mechanism which is positioned at the lower side of the filtering mechanism; three sixth pipelines are arranged at the upper part of the drainage mechanism; the drainage mechanism is matched with the sixth pipeline to drain the clean water in the filtering mechanism; a disinfection mechanism for disinfecting and disinfecting the clear water is connected between the inner sides of the lower frame and the upper frame; the disinfection mechanism is connected with the filtering mechanism.

As a preferred technical scheme of the invention, the filtering mechanism comprises a supporting frame, a first pipeline, a first electromagnetic valve, a second pipeline, a third pipeline, a fourth pipeline and a purifying assembly; a support frame is fixedly connected to the lower part of the inner front side of the lower frame; the middle part of the support frame is connected with three purification components which are equidistantly distributed in the left and right directions; the lower part of the purification component positioned on the left side is communicated with a first pipeline; a first electromagnetic valve is arranged at the left part of the first pipeline; the upper part of the right side of the purification component positioned on the left side is connected with a second pipeline; the second pipeline is fixedly connected with the support frame; the lower part of the second pipeline is connected with a purification component positioned in the middle part; the upper part of the right side of the purification component in the middle is connected with a third pipeline; the third pipeline is fixedly connected with the support frame; the lower part of the third pipeline is connected with a purification component positioned on the right; the upper part of the rear side of the purification component positioned on the right side is connected with a fourth pipeline.

As a preferred technical solution of the present invention, the purification assembly located at the right side includes a cylinder, a bottom plate, a fifth pipeline, a first circular tube, a first circular ring, a first sealing ring, a filter element, a second connecting plate, a second circular tube, a second circular ring, a second sealing ring, a first sealing assembly and a second sealing assembly; a cylinder is fixedly connected to the right part of the supporting frame; a bottom plate is fixedly connected to the lower side of the cylinder; a fifth pipeline penetrates through the middle part of the bottom plate; the fifth pipeline is communicated with the third pipeline; a first sealing ring is received on the upper side of the fifth pipeline; a first ring is connected to the upper side of the first sealing ring; the first circular ring is in contact with the fifth pipeline; a first circular pipe is fixedly connected to the outer side of the first circular ring; the first circular pipe is in contact with the fifth pipeline; the lower part of the outer side of the first circular tube is fixedly connected with the adjacent first connecting plate; the filter element is fixedly connected to the upper side of the first connecting plate positioned on the right side; the filter element is fixedly connected with the first circular tube; the upper side of the filter element is fixedly connected with a second connecting plate; a second round pipe is fixedly connected to the inner side of the second connecting plate; a second circular ring is fixedly connected to the middle part of the inner side of the second circular pipe; a second sealing ring is arranged at the upper part of the gap between the second circular ring and the second circular pipe; the upper part of the cylinder is connected with a first sealing set; the outside of the cylinder is connected with a second sealing set.

As a preferred technical solution of the present invention, the first sealing assembly includes a top cover, a third sealing ring, a third circular tube, a third circular ring and a fourth sealing ring; the upper part of the outer side of the cylinder is screwed with a top cover; a third sealing ring is clamped at the top of the inner side of the top cover; the third sealing ring is contacted with the cylinder; a third circular pipe is fixedly connected to the middle position of the top of the inner side of the top cover; the third round pipe is in contact with the second round pipe; the third circular pipe is in contact with the second circular ring; the lower side of the third round pipe is contacted with the second sealing ring; the upper part of the inner side of the cylinder is fixedly connected with a third ring; a fourth sealing ring is clamped on the upper side of the third ring; the third ring is in contact with the second connecting plate; the fourth sealing ring is in contact with the second connecting plate.

As a preferred technical solution of the present invention, the second sealing assembly includes a first round rod, a fourth round ring, a fifth round ring, a first spring and a second round rod; the right part of the support frame is connected with four first round rods in a sliding manner; a fourth circular ring is fixedly connected between the upper ends of the four first circular rods; the upper side of the fourth ring is in contact with the top cover; a fifth circular ring is fixedly connected between the lower ends of the four first circular rods; the upper side of the fifth ring is fixedly connected with a plurality of first springs, and the upper ends of the first springs are fixedly connected with the bottom plate; a plurality of second round rods are fixedly connected to the upper side of the fifth ring, penetrate through the bottom plate and are connected with the bottom plate in a sliding mode; the upper ends of the second round rods are fixedly connected with an adjacent limiting block respectively, and the lower sides of the limiting blocks are in contact with the first connecting plate.

As a preferred technical scheme of the invention, the drainage mechanism comprises a sliding door, a support plate, a limiting rod, a linkage block, a rope, a guide block, a linkage plate, a second spring, a seventh pipeline, a storage box and an eighth pipeline; the front side of the lower rack is connected with two sliding doors which are symmetrical up and down in a damping sliding manner, and the two sliding doors are in contact; the lower part of the inner side of the lower frame is fixedly connected with a supporting plate; two limiting rods are fixedly connected to the front part of the lower side of the supporting plate; the two limiting rods are connected with a linkage block in a sliding mode; the upper side of the linkage block is contacted with the supporting plate; two ropes are fixedly connected to the upper side of the linkage block; the front part of the upper side of the supporting plate is fixedly connected with four guide blocks; each rope is connected with two adjacent guide blocks in a sliding manner; the rear ends of the two ropes penetrate through the supporting plate, and a linkage plate is fixedly connected to the rear ends of the two ropes; two second springs are fixedly connected to the linkage plate, and the upper ends of the second springs are fixedly connected with the supporting plate; the linkage plate is fixedly connected with the three sixth pipelines; the lower parts of the first pipeline, the second pipeline and the third pipeline are communicated with a seventh pipeline, and the seventh pipeline is fixedly connected with the support plate; the three seventh pipelines are respectively connected with one adjacent sixth pipeline in a sliding manner; a storage box is fixedly connected to the lower part of the inner side of the lower rack and is positioned below the supporting plate; the front part of the right side of the storage box is communicated with an eighth pipeline.

As a preferred technical scheme of the invention, the disinfection mechanism comprises a first water tank, a heater, a ninth pipeline, a water pump, a filter cover and a water discharging assembly; a first water tank is fixedly connected to the upper side of the supporting plate, and a heat-insulating layer is arranged on the outer side of the first water tank; the heater is arranged at the bottom of the inner side of the first water tank; a ninth pipeline is fixedly connected to the rear part of the lower frame; the right part of the inner side of the lower frame is provided with a water pump; the water pump is communicated with the ninth pipeline; the lower part of the ninth pipeline is fixedly connected with a filter cover; the upper part of the inner side of the upper frame is connected with a water discharging component.

As a preferred technical scheme of the invention, the water discharging assembly comprises a second water tank, a tenth pipeline and a second electromagnetic valve; a second water tank is fixedly connected to the upper part of the inner side of the upper frame; the second water tank is fixedly connected with the ninth pipeline; the lower part of the front side of the second water tank is communicated with two tenth pipelines; the two tenth pipelines penetrate through the upper rack; and a second electromagnetic valve is arranged at the upper parts of the two tenth pipelines.

As a preferred technical scheme of the invention, the first connecting plate is provided with a plurality of first grooves which are arranged in an annular array, each first groove consists of an arc-shaped groove and a circular groove, and the inner diameter of each circular groove is larger than the width of each arc-shaped groove.

As a preferable technical scheme of the invention, the upper part of the sixth pipeline is provided with two second grooves, and the upper end of the sixth pipeline is closed.

The invention has the following advantages: when the filter element is used, the sliding door is opened, and the sixth pipeline is linked through the sliding door to move upwards, so that clear water in the cylinder is discharged, and the filter element replacement operation is prevented from being influenced;

in the replacement process, the third circular ring supports the new second connecting plate, so that the pressure applied to the second sealing ring is transmitted to the third circular ring, the new filter element is prevented from being damaged due to extrusion, the extrusion force of the third circular tube on the second sealing ring is improved, and the sealing effect is improved;

the top cover is linked with the first sealing ring to move upwards, so that the first sealing ring is pressed on the fifth pipeline, and the filter element does not need to be stressed in the process, so that the problem that the extrusion force is too small due to the fact that the first sealing ring is directly pushed to press the fifth pipeline through the filter element is avoided, and the problem that the sealing effect is low is further avoided;

the upper part of the cylinder is further sealed through the third sealing ring and the fourth sealing ring, so that the sealing property is greatly improved;

the clear water is boiled by the heater, so that the effects of sterilization and disinfection are achieved.

Drawings

FIG. 1 is a schematic view of a first structure of an energy-saving water purifier with sterilization and disinfection functions according to the present invention;

FIG. 2 is a schematic diagram of a second structure of the energy-saving water purifier with sterilization and disinfection functions according to the present invention;

FIG. 3 is a schematic view of the construction of the filter mechanism of the present invention;

FIG. 4 is a front view of a portion of the filter mechanism of the present invention;

FIG. 5 is a schematic view of a first partial configuration of the filter mechanism of the present invention;

FIG. 6 is an enlarged schematic view of the invention at A in FIG. 5;

FIG. 7 is a schematic view of a second partial configuration of the filter mechanism of the present invention;

FIG. 8 is an enlarged view of the invention at B in FIG. 7;

FIG. 9 is a third schematic construction of the filter mechanism of the present invention;

FIG. 10 is a schematic view of the structure of the drain mechanism of the present invention;

FIG. 11 is a schematic view of a first partial configuration of the drainage mechanism of the present invention;

FIG. 12 is a schematic view of a second partial configuration of the drainage mechanism of the present invention;

FIG. 13 is a schematic view of the sterilization mechanism of the present invention;

FIG. 14 is a right side view of the disinfecting mechanism of the present invention.

Wherein: 1-lower frame, 2-upper frame, 3-control switch, 4-water collector, 201-support frame, 202-first pipe, 203-first solenoid valve, 204-second pipe, 205-third pipe, 206-fourth pipe, 207-cylinder, 208-bottom plate, 209-fifth pipe, 2010-first connecting plate, 2011-first round tube, 2012-first round ring, 2013-first packing ring, 2014-filter cartridge, 2015-second connecting plate, 2016-second round tube, 2017-second round ring, 2018-second packing ring, 2019-top cover, 2020-third packing ring, 2021-third round tube, 2022-third round ring, 2023-fourth packing ring, 2024-a first round rod, 2025-a fourth round ring, 2026-a fifth round ring, 2027-a first spring, 2028-a second round rod, 2029-a limiting block, 301-a sliding door, 302-a supporting plate, 303-a limiting rod, 304-a linkage block, 305-a rope, 306-a guide block, 307-a linkage plate, 308-a second spring, 309-a sixth pipeline, 3010-a seventh pipeline, 3011-a storage box, 3012-an eighth pipeline, 401-a first water tank, 402-a heater, 403-a ninth pipeline, 404-a water pump, 405-a filter cover, 406-a second water tank, 407-a tenth pipeline, 408-a second electromagnetic valve, 91-a first groove, and 92-a second groove.

Detailed Description

The invention is further described in the following examples, which are intended to illustrate, unless otherwise explicitly stated or limited, terms such as: the arrangement, installation, connection are to be understood broadly, for example, they may be fixed, detachable, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1

An energy-saving water purifier with sterilization and disinfection functions is shown in figures 1-12 and comprises a lower frame 1, an upper frame 2, a control switch 3, a water collector 4, a first connecting plate 2010, a limiting block 2029, a sixth pipeline 309, a filtering mechanism, a drainage mechanism and a disinfection mechanism; the rear part of the upper side of the lower frame 1 is connected with an upper frame 2 through a bolt; the front part of the upper side of the lower frame 1 is connected with a water collector 4 through a bolt; the front part of the upper side of the upper frame 2 is provided with two control switches 3; the middle part of the inner side of the lower frame 1 is connected with a filtering mechanism; the lower part of the filtering mechanism is provided with three first connecting plates 2010; the lower part of the filtering mechanism is provided with a plurality of limiting blocks 2029, the limiting blocks 2029 are divided into three groups on average, and each group of limiting blocks 2029 is positioned above the adjacent first connecting plate 2010; the lower frame 1 is connected with a drainage mechanism which is positioned at the lower side of the filtering mechanism; three sixth pipes 309 are installed at the upper part of the drainage mechanism; a disinfection mechanism is connected between the inner sides of the lower frame 1 and the upper frame 2; the disinfection mechanism is connected with the filtering mechanism.

First connecting plate 2010 is provided with a plurality of first grooves 91, and a plurality of first grooves 91 are arranged in an annular array, and first groove 91 comprises an arc-shaped groove and a circular groove, the inner diameter of the circular groove is larger than the size of stopper 2029, and the width of the arc-shaped groove is smaller than the size of stopper 2029.

The filtering mechanism comprises a supporting frame 201, a first pipeline 202, a first electromagnetic valve 203, a second pipeline 204, a third pipeline 205, a fourth pipeline 206 and a purifying assembly; a support frame 201 is welded at the lower part of the inner front side of the lower frame 1; the middle part of the supporting frame 201 is connected with three purification components which are equidistantly distributed in the left and right direction; the lower part of the purification component positioned on the left is communicated with a first pipeline 202; a first electromagnetic valve 203 is arranged at the left part of the first pipeline 202; the upper part of the right side of the purification component positioned on the left side is connected with a second pipeline 204; the second pipeline 204 is fixedly connected with the support frame 201; the lower part of the second pipeline 204 is connected with a purification component positioned in the middle; the upper part of the right side of the purification component positioned in the middle is connected with a third pipeline 205; the third pipeline 205 is fixedly connected with the support frame 201; the lower part of the third pipeline 205 is connected with a purification component positioned at the right side; the upper part of the rear side of the right purification unit is connected with a fourth pipe 206.

Two second grooves 92 are formed in the upper portion of the sixth pipeline 309, the second grooves 92 are used for communicating the sixth pipeline 309 with the third pipeline 205, and the upper end of the sixth pipeline 309 is closed.

The purification assembly positioned at the right comprises a cylinder 207, a bottom plate 208, a fifth pipeline 209, a first round pipe 2011, a first round ring 2012, a first sealing ring 2013, a filter element 2014, a second connecting plate 2015, a second round pipe 2016, a second round ring 2017, a second sealing ring 2018, a first sealing set and a second sealing set; a cylinder 207 is fixedly connected to the right part of the supporting frame 201; a bottom plate 208 is welded on the lower side of the cylinder 207; a fifth pipeline 209 penetrates through the middle part of the bottom plate 208; the fifth conduit 209 communicates with the third conduit 205; a first sealing ring 2013 is connected to the upper side of the fifth pipeline 209; a first ring 2012 is received on the upper side of the first seal ring 2013; the first ring 2012 is in contact with the fifth conduit 209; a first round pipe 2011 is welded on the outer side of the first round ring 2012; the first round tube 2011 is in contact with the fifth conduit 209; the lower part of the outer side of the first circular tube 2011 is fixedly connected with the adjacent first connecting plate 2010; a filter element 2014 is fixedly connected to the upper side of the first connecting plate 2010 on the right; the filter element 2014 is fixedly connected with the first round tube 2011; a second connecting plate 2015 is fixedly connected to the upper side of the filter element 2014; a second round pipe 2016 is welded on the inner side of the second connecting plate 2015; a second circular ring 2017 is welded in the middle of the inner side of the second circular pipe 2016; a second sealing ring 2018 is arranged on the upper portion of the gap between the second circular ring 2017 and the second circular pipe 2016; the upper part of the cylinder 207 is connected with a first sealing set; a second seal set is attached to the outside of cylinder 207.

The first seal 2013 is a rubber ring.

The inner edge of the upper side of the second round tube 2016 is chamfered.

The outer edge of the upper side of the second ring 2017 is provided with a chamfer.

The second seal ring 2018 is a rubber ring.

The first sealing set comprises a top cover 2019, a third sealing ring 2020, a third round pipe 2021, a third round ring 2022 and a fourth sealing ring 2023; a top cover 2019 is screwed on the upper part of the outer side of the cylinder 207; a third sealing ring 2020 is clamped at the top of the inner side of the top cover 2019; third seal 2020 contacts cylinder 207; a third round pipe 2021 is welded in the middle of the top of the inner side of the top cover 2019; the third round tube 2021 is in contact with the second round tube 2016; the third round pipe 2021 is in contact with the second ring 2017; the lower side of the third round pipe 2021 is in contact with the second sealing ring 2018; the upper part of the inner side of the cylinder 207 is welded with a third ring 2022; a fourth sealing ring 2023 is clamped on the upper side of the third ring 2022; the third ring 2022 contacts the second connecting plate 2015; the fourth seal 2023 is in contact with the second connecting plate 2015.

The second sealing set comprises a first round rod 2024, a fourth round ring 2025, a fifth round ring 2026, a first spring 2027 and a second round rod 2028; the right part of the supporting frame 201 is slidably connected with four first round bars 2024; a fourth circular ring 2025 is welded between the upper ends of the four first circular rods 2024; the upper side of the fourth ring 2025 is in contact with the top cover 2019; a fifth circular ring 2026 is welded between the lower ends of the four first circular rods 2024; a plurality of first springs 2027 are welded on the upper side of the fifth ring 2026, and the upper ends of the first springs 2027 are welded with the bottom plate 208; a plurality of second round bars 2028 are welded on the upper side of the fifth round ring 2026, the second round bars 2028 penetrate through the bottom plate 208, and the second round bars 2028 are connected with the bottom plate 208 in a sliding manner; the upper ends of the second round rods 2028 are respectively welded with an adjacent limiting block 2029, and the lower sides of the limiting blocks 2029 are in contact with the first connecting plate 2010.

The drainage mechanism comprises a sliding door 301, a supporting plate 302, a limiting rod 303, a linkage block 304, a rope 305, a guide block 306, a linkage plate 307, a second spring 308, a seventh pipeline 3010, a storage box 3011 and an eighth pipeline 3012; the front side of the lower rack 1 is connected with two vertically symmetrical sliding doors 301 in a damping sliding manner, and the two sliding doors 301 are in contact; a supporting plate 302 is welded at the lower part of the inner side of the lower frame 1; two limiting rods 303 are welded at the front part of the lower side of the supporting plate 302; the two limiting rods 303 are connected with a linkage block 304 together in a sliding manner; the upper side of the linkage block 304 is contacted with the support plate 302; two ropes 305 are fixedly connected to the upper side of the linkage block 304; four guide blocks 306 are welded at the front part of the upper side of the support plate 302; each rope 305 is slidably connected with two adjacent guide blocks 306; the rear ends of the two ropes 305 penetrate through the supporting plate 302, and the rear ends of the two ropes 305 are fixedly connected with a linkage plate 307; two second springs 308 are fixedly connected to the linkage plate 307, and the upper ends of the second springs 308 are welded to the support plate 302; the linkage plate 307 is fixedly connected with three sixth pipelines 309; the lower parts of the first pipeline 202, the second pipeline 204 and the third pipeline 205 are all communicated with a seventh pipeline 3010, and the seventh pipeline 3010 is fixedly connected with the support plate 302; the three seventh pipelines 3010 are slidably connected to one adjacent sixth pipeline 309 respectively; a storage box 3011 is fixedly connected to the lower portion of the inner side of the lower frame 1, and the storage box 3011 is located below the support plate 302; an eighth pipeline 3012 is communicated with the front portion of the right side of the storage box 3011.

During preparation, an external water inlet pipe is manually communicated to the first pipeline 202, an external waste water pipe is communicated to the water collector 4 and the eighth pipeline 3012, during normal work, the first electromagnetic valve 203 is opened, the external water inlet pipe conveys clean water to the first pipeline 202, the clean water sequentially flows through the left purifying assembly, the second pipeline 204, the middle purifying assembly, the third pipeline 205 and the right purifying assembly through the first pipeline 202 and finally flows into the disinfection mechanism, and multiple purification of the clean water through the three purifying assemblies is realized; taking the purification component positioned at the right side as an example, the specific purification process is as follows: the clean water flows in from the third pipeline 205, then flows through the fifth pipeline 209 and the filter element 2014 in sequence, and finally flows into the disinfection mechanism through the fourth pipeline 206, and the filter element 2014 filters impurities in the clean water; when the filter element 2014 needs to be replaced, the first electromagnetic valve 203 is closed, then the two sliding doors 301 are manually pulled to move back and forth, the front side of the lower rack 1 is opened, the sliding doors 301 located below contact the upper sides of the linkage blocks 304 when moving downwards, the sliding doors 301 push the linkage blocks 304 to slide downwards on the two limiting rods 303, the linkage blocks 304 pull the ropes 305 to move, under the guiding action of the guide blocks 306 and the support plate 302, the ropes 305 pull the linkage plates 307 to move upwards, the linkage plates 307 compress the second springs 308, the linkage plates 307 drive the sixth pipeline 309 to move upwards in the seventh pipeline 3010, the upper end of the sixth pipeline 309 is inserted into the third pipeline 205, at the moment, the sixth pipeline 309 is communicated with the third pipeline 205 through the second groove 92, so that clean water in the filter element 2014 and the cylinder 207 flows out through the fifth pipeline 209, and flows through the third pipeline 205, the sixth pipeline 309, the storage box 3011 and the eighth pipeline 205, and finally is discharged into the external pipeline 3012, and the clean water in the external filter element 2014 is discharged to further avoid the operation of replacing the external waste water cylinder 207, and the filter element is further prevented from being discharged from affecting the external waste water cylinder 2014; after the clean water in the cylinder 207 is drained, the top cover 2019 is manually opened, the top cover 2019 stops limiting the position of the fourth ring 2025, the first spring 2027 in a stretching state rebounds to drive the fifth ring 2026 to move upwards, the fifth ring 2026 drives the second ring 2028 to move upwards, the second ring 2028 drives the stopper 2029 to move upwards away from the first connecting plate 2010, then the second connecting plate 2015 is manually driven to move upwards, meanwhile, the second connecting plate 2015 is rotated, the second connecting plate 2015 drives the parts thereon to move, the circular grooves on the first groove 91 are aligned with the stopper 9, then the second connecting plate 2022015 is manually lifted upwards, the parts thereon are driven by the second connecting plate 2015 to move upwards, so that the old filter cartridge 2014 is taken out, then the new filter cartridge 2014 is inserted into the cylinder 207, at this time, the clean water in the cylinder 207 is removed, so that the problem that the buoyancy affects the alignment of the filter cartridge 2014 is avoided, the new first round tube 2011 and the first round ring 2012 are clamped outside the fifth pipeline 209, the new first connecting plate 2010 is sleeved below the limit block 2029, the first connecting plate 2010 is rotated to move the arc-shaped groove of the first groove 91 on the first connecting plate 2010 to the position below the limit block 2029, then the top cover 2019 is screwed back to the original position, the top cover 2019 drives the third round tube 2021 to be inserted into the gap between the new second round tube 2016 and the second round ring 2017, the second sealing ring 2018 plays a sealing role and prevents the problem that the filter element 2014 deforms when the third round tube 2021 is extruded, meanwhile, the top cover 2019 pushes the fourth round ring 2025 to move downwards, the fourth round ring 2025 drives the first round rod 2024 and the fifth round ring 2026 to move downwards and stretches the first spring 2027, the fifth round ring 2026 drives the second round rod 2028, the limit block 2029, the new first connecting plate 2010, the new first round tube, the new first round ring 20113 and the new first round ring 2013 to move downwards, therefore, the new first sealing ring 2013 is pressed on the fifth pipeline 209, the sealing effect between the new filter element 2014 and the fifth pipeline 209 is greatly improved, in addition, the first sealing ring 2013 is pressed on the fifth pipeline 209 through the downward movement of the first connecting plate 2010, the filter element 2014 does not need to be stressed in the process, the problem that the extrusion force is too small due to the fact that the first sealing ring 2013 is directly pushed by the filter element 2014 to press the fifth pipeline 209 is solved, and the problem of low sealing effect is solved; the upper portion of the cylinder 207 is further sealed by the third seal 2020 and the fourth seal 2023, which greatly improves the sealing property.

Example 2

On the basis of embodiment 1, as shown in fig. 1-2 and fig. 13-14, the disinfection mechanism comprises a first water tank 401, a heater 402, a ninth pipeline 403, a water pump 404, a filter cover 405 and a water discharging assembly; a first water tank 401 is fixedly connected to the upper side of the supporting plate 302, and an insulating layer is arranged on the outer side of the first water tank 401; a heater 402 is arranged at the bottom of the inner side of the first water tank 401; a ninth pipeline 403 is fixedly connected to the rear part of the lower frame 1; a water pump 404 is arranged at the right part of the inner side of the lower frame 1; the water pump 404 is communicated with the ninth pipeline 403; a filter cover 405 is fixedly connected to the lower part of the ninth pipeline 403; the upper part of the inner side of the upper frame 2 is connected with a water discharging component.

The water discharging component comprises a second water tank 406, a tenth pipeline 407 and a second electromagnetic valve 408; a second water tank 406 is fixedly connected to the upper part of the inner side of the upper frame 2; the second water tank 406 is fixedly connected with the ninth pipeline 403; the lower part of the front side of the second water tank 406 is communicated with two tenth pipelines 407; both the tenth pipes 407 penetrate through the upper frame 2; a second solenoid valve 408 is installed at the upper part of each of the two tenth pipes 407.

Purified clean water flows into the first water tank 401 from the fourth pipeline 206, the heater 402 boils the clean water to achieve the sterilization effect, heat loss is reduced through a heat insulation layer on the outer side of the first water tank 401 in the process, so that the energy-saving effect is achieved, the water pump 404 is started, hot water flows into the second water tank 406 through the ninth pipeline 403 to be temporarily stored, solid impurities generated by aging of the heater 402 are filtered through the filter cover 405 in the process, when water needs to be taken, the external container is manually placed below the tenth pipeline 407, then the corresponding control switch 3 is pressed, the corresponding second electromagnetic valve 408 is opened, then the hot water in the second water tank 406 flows into the external container through the tenth pipeline 407, and then the control switch 3 is manually released, so that the second electromagnetic valve 408 is closed.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by the present specification, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. An energy-saving water purifier with sterilization and disinfection functions comprises a lower frame (1), an upper frame (2), a control switch (3) and a water collector (4); the upper frame (2) is fixedly connected with the rear part of the upper side of the lower frame (1); the front part of the upper side of the lower frame (1) is fixedly connected with a water collector (4); the front part of the upper side of the upper frame (2) is provided with two control switches (3); the method is characterized in that: the device also comprises a first connecting plate (2010), a limiting block (2029), a sixth pipeline (309), a filtering mechanism, a drainage mechanism and a disinfection mechanism; the middle part of the inner side of the lower frame (1) is connected with a filtering mechanism for self-protecting multiple filtration of clear water; three first connecting plates (2010) are arranged at the lower part of the filtering mechanism; a plurality of limiting blocks (2029) are arranged at the lower part of the filtering mechanism, the limiting blocks (2029) are evenly divided into three groups, and each group of limiting blocks (2029) is respectively positioned above one adjacent first connecting plate (2010); the filter mechanism is subjected to cut-off type force application sealing through the matching of the limiting block (2029) and the first connecting plate (2010); the lower frame (1) is connected with a drainage mechanism which is positioned at the lower side of the filtering mechanism; three sixth pipelines (309) are arranged at the upper part of the drainage mechanism; the drainage mechanism is matched with a sixth pipeline (309) to drain the clean water in the filtering mechanism; a disinfection mechanism for sterilizing and disinfecting the clear water is connected between the inner sides of the lower frame (1) and the upper frame (2); the disinfection mechanism is connected with the filtering mechanism;

the filtering mechanism comprises a supporting frame (201), a first pipeline (202), a first electromagnetic valve (203), a second pipeline (204), a third pipeline (205), a fourth pipeline (206) and a purifying assembly; a support frame (201) is fixedly connected with the lower part of the inner front side of the lower frame (1); the middle part of the support frame (201) is connected with three purification components which are equidistantly distributed in the left and right direction; the lower part of the purification component positioned on the left side is communicated with a first pipeline (202); a first electromagnetic valve (203) is arranged at the left part of the first pipeline (202); the upper part of the right side of the purification component positioned on the left side is connected with a second pipeline (204); the second pipeline (204) is fixedly connected with the support frame (201); the lower part of the second pipeline (204) is connected with a purification component positioned in the middle part; the upper part of the right side of the purification component positioned in the middle is connected with a third pipeline (205); the third pipeline (205) is fixedly connected with the support frame (201); the lower part of the third pipeline (205) is connected with a purification component positioned at the right part; the upper part of the rear side of the purification component positioned at the right side is connected with a fourth pipeline (206);

the purification assembly positioned on the right comprises a cylinder (207), a bottom plate (208), a fifth pipeline (209), a first round pipe (2011), a first round ring (2012), a first sealing ring (2013), a filter element (2014), a second connecting plate (2015), a second round pipe (2016), a second round ring (2017), a second sealing ring (2018), a first sealing set and a second sealing set; a cylinder (207) is fixedly connected to the right part of the supporting frame (201); a bottom plate (208) is fixedly connected with the lower side of the cylinder (207); a fifth pipeline (209) penetrates through the middle part of the bottom plate (208); the fifth pipeline (209) is communicated with the third pipeline (205); a first sealing ring (2013) is received on the upper side of the fifth pipeline (209); a first ring (2012) is received on the upper side of the first sealing ring (2013); the first ring (2012) is in contact with the fifth pipe (209); a first round pipe (2011) is fixedly connected with the outer side of the first round ring (2012); the first round pipe (2011) is in contact with the fifth pipeline (209); the lower part of the outer side of the first circular tube (2011) is fixedly connected with the adjacent first connecting plate (2010); a filter element (2014) is fixedly connected to the upper side of the first connecting plate (2010) positioned on the right side; the filter element (2014) is fixedly connected with the first circular tube (2011); a second connecting plate (2015) is fixedly connected to the upper side of the filter element (2014); a second round pipe (2016) is fixedly connected to the inner side of the second connecting plate (2015); a second circular ring (2017) is fixedly connected to the middle of the inner side of the second circular pipe (2016); a second sealing ring (2018) is arranged at the upper part of the gap between the second circular ring (2017) and the second circular pipe (2016); the upper part of the cylinder (207) is connected with a first sealing set; the outer side of the cylinder (207) is connected with a second sealing set;

the first sealing set comprises a top cover (2019), a third sealing ring (2020), a third round pipe (2021), a third round ring (2022) and a fourth sealing ring (2023); the upper part of the outer side of the cylinder (207) is screwed with a top cover (2019); a third sealing ring (2020) is clamped at the top of the inner side of the top cover (2019); the third sealing ring (2020) is in contact with the cylinder (207); a third round pipe (2021) is fixedly connected to the middle position of the top of the inner side of the top cover (2019); the third round pipe (2021) is in contact with the second round pipe (2016); the third round pipe (2021) is in contact with the second round ring (2017); the lower side of the third round pipe (2021) is contacted with a second sealing ring (2018); a third ring (2022) is fixedly connected to the upper part of the inner side of the cylinder (207); a fourth sealing ring (2023) is clamped at the upper side of the third ring (2022); the third ring (2022) is in contact with the second connecting plate (2015); the fourth sealing ring (2023) is in contact with the second connecting plate (2015);

the second sealing set comprises a first round rod (2024), a fourth round ring (2025), a fifth round ring (2026), a first spring (2027) and a second round rod (2028); the right part of the supporting frame (201) is connected with four first round rods (2024) in a sliding way; a fourth circular ring (2025) is fixedly connected between the upper ends of the four first circular rods (2024) together; the upper side of the fourth ring (2025) is contacted with the top cover (2019); a fifth circular ring (2026) is fixedly connected between the lower ends of the four first circular rods (2024); a plurality of first springs (2027) are fixedly connected to the upper side of the fifth ring (2026), and the upper ends of the first springs (2027) are fixedly connected with the bottom plate (208); a plurality of second round bars (2028) are fixedly connected to the upper side of the fifth round ring (2026), the second round bars (2028) penetrate through the bottom plate (208), and the second round bars (2028) are connected with the bottom plate (208) in a sliding manner; the upper ends of the second round rods (2028) are fixedly connected with an adjacent limiting block (2029) respectively, and the lower side of the limiting block (2029) is contacted with the first connecting plate (2010);

a plurality of first grooves (91) are formed in the first connecting plate (2010), the first grooves (91) are arranged in an annular array mode, each first groove (91) is composed of an arc-shaped groove and a circular groove, the inner diameter of each circular groove is larger than the width of each arc-shaped groove, and the limiting blocks (2029) are arranged in the first grooves (91) in a sliding mode.

2. The energy-saving water purifier with sterilization and disinfection functions as claimed in claim 1, wherein: the drainage mechanism comprises a sliding door (301), a supporting plate (302), a limiting rod (303), a linkage block (304), a rope (305), a guide block (306), a linkage plate (307), a second spring (308), a seventh pipeline (3010), a storage box (3011) and an eighth pipeline (3012); the front side of the lower rack (1) is connected with two sliding doors (301) which are symmetrical up and down in a damping sliding mode, and the two sliding doors (301) are in contact; a support plate (302) is fixedly connected to the lower part of the inner side of the lower frame (1); two limiting rods (303) are fixedly connected to the front part of the lower side of the supporting plate (302); the two limiting rods (303) are jointly connected with a linkage block (304) in a sliding manner; the upper side of the linkage block (304) is contacted with the support plate (302); two ropes (305) are fixedly connected to the upper side of the linkage block (304); four guide blocks (306) are fixedly connected to the front part of the upper side of the support plate (302); each rope (305) is connected with two adjacent guide blocks (306) in a sliding way; the rear ends of the two ropes (305) penetrate through the supporting plate (302), and the rear ends of the two ropes (305) are fixedly connected with a linkage plate (307); two second springs (308) are fixedly connected to the linkage plate (307), and the upper ends of the second springs (308) are fixedly connected with the support plate (302); the linkage plate (307) is fixedly connected with three sixth pipelines (309); the lower parts of the first pipeline (202), the second pipeline (204) and the third pipeline (205) are communicated with a seventh pipeline (3010), and the seventh pipeline (3010) is fixedly connected with the support plate (302); the three seventh pipelines (3010) are respectively connected with the adjacent sixth pipeline (309) in a sliding way; a storage box (3011) is fixedly connected to the lower portion of the inner side of the lower rack (1), and the storage box (3011) is located below the supporting plate (302); an eighth pipeline (3012) is communicated with the front part of the right side of the storage box (3011); two second grooves (92) are formed in the upper portion of the sixth pipeline (309), and the upper end of the sixth pipeline (309) is closed.

3. The energy-saving water purifier with sterilization and disinfection functions as claimed in claim 2, wherein: the disinfection mechanism comprises a first water tank (401), a heater (402), a ninth pipeline (403), a water pump (404), a filter cover (405) and a water discharging assembly; a first water tank (401) is fixedly connected to the upper side of the supporting plate (302), and an insulating layer is arranged on the outer side of the first water tank (401); a heater (402) is arranged at the bottom of the inner side of the first water tank (401); a ninth pipeline (403) is fixedly connected to the rear part of the lower frame (1); a water pump (404) is arranged at the right part of the inner side of the lower frame (1); the water pump (404) is communicated with the ninth pipeline (403); a filter cover (405) is fixedly connected to the lower part of the ninth pipeline (403); the upper part of the inner side of the upper frame (2) is connected with a water discharging component.

4. The energy-saving water purifier with sterilization and disinfection functions as claimed in claim 3, wherein: the water discharging assembly comprises a second water tank (406), a tenth pipeline (407) and a second electromagnetic valve (408); a second water tank (406) is fixedly connected to the upper part of the inner side of the upper frame (2); the second water tank (406) is fixedly connected with the ninth pipeline (403); the lower part of the front side of the second water tank (406) is communicated with two tenth pipelines (407); the two tenth pipelines (407) penetrate through the upper rack (2); and a second electromagnetic valve (408) is arranged at the upper parts of the two tenth pipelines (407).