Intelligent household equipment
Technical Field
The invention belongs to the technical field of intelligent home furnishing, and particularly relates to intelligent home furnishing equipment.
Background
Along with the progress of science and technology, people pay more attention to safety of drinking water, in developed countries of Europe and America, the tap water in the home is direct drinking water and can be directly drunk, but most of domestic water sources are water sources which are supplied by water plants and are subjected to sterilization and disinfection at present, compromise water cannot be directly drunk and needs to be boiled at high temperature, the water sources are mostly collected underground and are greatly influenced by natural water sources, part of local water contains mineral substances or heavy metal ions which are harmful to human bodies, the impurities cannot be completely eliminated through tap water treatment and high temperature, and the human bodies are injured after long-term drinking, so that water purifiers are installed in many families, but cold water which can drink the water cannot provide hot water, a water dispenser is also needed to be equipped for use, the water purifiers are inconvenient, and meanwhile, the existing water purifiers in the market have the blocking effect of filter elements, the filtering time is long, enough pure water cannot be supplied instantly, waiting is often needed, and the efficiency is low; the filter element of the existing water purifier is more complicated to replace.
Disclosure of Invention
The invention provides intelligent household drinking equipment capable of efficiently purifying water, aiming at overcoming the defects of the prior art.
In order to achieve the purpose, the invention adopts the following technical scheme: an intelligent household device comprises a machine body, a water receiving platform arranged on the machine body, a water outlet device arranged on the upper part of the water receiving platform, a water storage device arranged on the machine body, a multi-stage water purifying mechanism arranged on the machine body, a display control panel arranged on the machine body and a water inlet mechanism arranged on the rear side of the machine body; the water purification mechanism comprises a plurality of mounting holes arranged on the side surface of the machine body, a purifier detachably mounted in the mounting holes, a supercharging mechanism arranged on the rear side of the purifier and non-return mechanisms arranged on the rear sides of the purifier; the supercharging mechanism comprises a primary water inlet through hole communicated with the water inlet mechanism, a buffer hole arranged in the machine body, a supercharging hole communicated with the buffer hole, a supercharging rotor rotatably connected to the supercharging hole, a plurality of supercharging grooves arranged on the supercharging rotor, a supercharging slide block slidably connected to the supercharging grooves, a supercharging track arranged on the inner wall of the supercharging hole, a supercharging gear fixedly connected to the supercharging rotor, a driving groove arranged on the machine body, a driving motor fixedly connected to the driving groove, an output shaft rotatably connected to the driving motor, an output gear rotatably connected to the output shaft, a special-shaped hole arranged at the bottom of the purifier and a flow baffle plate arranged at the bottom of the purifier of the machine body, wherein the driving gear is meshed with the supercharging gear; the pressurizing slide block slides in the pressurizing track; after the purified water is started, the tap water enters the buffer hole from the primary water inlet through hole, further, the driving motor rotates, the output shaft drives the output gear to rotate, under the meshing action of the gears, the pressurizing gear drives the pressurizing rotor to rotate, tap water enters the lower pressurizing groove from the buffer groove, during the rotation of the pressurizing rotor, the pressurizing slide block is forced to rotate along the pressurizing track by the side thrust from the pressurizing groove and moves forwards along the pressurizing groove, and generates extrusion force to tap water in the pressurizing tank, because the gap between the pressurizing hole and the pressurizing rotor is smaller, under the movement of the pressurizing slide block, the tap water in the pressurizing groove is gradually separated from the auxiliary groove and gradually moves forwards under the pressure of the pressurizing slide block, when the pressurizing groove rotates to the upper part, the pressurizing groove is communicated with the special-shaped holes, water in the pressurizing groove flows into the purifier through the special-shaped holes, and the plurality of pressurizing grooves work circularly; the water purifier is characterized in that the plurality of pressurizing grooves continuously convey tap water from the primary water inlet through holes to the water purifier in the rotating process, the water pressure in front of the pressurizing rotor is gradually increased under the sliding of the pressurizing slide block to form pressure purification, the time of the tap water passing through the purifier is reduced, the purification efficiency is obviously improved, the waiting time during water receiving is reduced, and the instant water use is realized; the pressurizing groove works in a circulating and alternating mode, compared with the traditional paddle type pressurizing mode, the rotating speed of the pressurizing rotor can be very low, the power consumption is low, the pressurizing rotor can completely push the water purifier for tap water entering the pressurizing groove, the pressurizing slide block can not drive the water flow to generate vortex flow, the water flow is not caused to flow back, no work is needed, the energy efficiency is high, the agitating effect of the paddle on the water flow is reduced, the noise is reduced, the using process is quite quiet, and the device is more suitable for household use; the rotating speed of the pressurizing rotor in the pressurizing hole is stable, the pressurizing slide block slides stably in the pressurizing track, water pressure is provided more stably, the water outlet of the water outlet mechanism is stable, and splashing caused by small and large water flow is avoided; the pressure boost slider is with the running water release in dysmorphism hole department, later get into behind the fender stream board, the pressure boost slider begins to move backward and prepares to wash by water the action, consequently, the pressure boost groove communicates with the water purifier when going out water, isolated with the dashpot, on the contrary, communicate with the dashpot when washing by water, isolated with the water purifier, natural pressure protective screen has been formed, the high pressure that comes from the water purifier is isolated mutually by pressure boost rotor and fender stream board, can not transmit to one-level inlet through hole, one-level inlet through hole can not receive the pressure recoil that comes from water purifier high pressure, prevent that the pipeline from breaking, cause the damage, simultaneously, the smooth stability of the running water of one-level inlet through hole has been guaranteed, the fault rate.
The purifier comprises a protective shell, a gland fixedly connected to the protective shell, a handle fixedly connected to the gland, a water inlet bin arranged in the protective shell, a backflow bin arranged in the protective shell, a purification bin communicated with the backflow bin, a purification filter element arranged in the purification bin, a backflow hole arranged at the rear side of the purification bin, a mounting thread arranged at the tail end of the backflow hole and a lead-out head rotatably connected to the backflow hole; the pressurized tap water reaches the water inlet bin through the special-shaped hole and further reaches the backflow bin, and further reaches the backflow hole through the filtering effect of the purifying filter element to complete the first filtering; the filter element can carry out targeted filtration on formulated impurities in water, so that harmful substances in the water are reduced, the flow rate of water flow at the lower part of the backflow bin is slow, the filtered harmful substances in the water can be temporarily accumulated at the bottom of the backflow bin, and the harmful substances cannot be diffused in the whole water purifier; the leading-out head is connected with the backflow hole at the bottom of the purifier through threads, the purifier can be conveniently replaced through the handle, and the installation is firm and convenient.
The check mechanism comprises a delivery pipe arranged on the delivery head, a starting hole arranged at the bottom of the mounting hole, a starting valve fixedly connected with the delivery pipe, a valve port arranged on the starting valve, a valve cover slidably connected with the delivery pipe, a valve bar arranged on the valve cover, a valve rod fixedly connected with the valve cover and slidably connected with the starting hole, a spring groove arranged on the rear side of the valve cover and a return spring arranged in the spring groove; when the purifier is installed, under the action of the threads, the bottom of the backflow hole gradually extrudes the valve rod, the valve rod drives the valve cover to move backwards, the return spring is compressed, the valve rod is drawn out of the valve opening, the starting valve is opened, the left side and the right side are communicated, and tap water purified by the first-stage purifier enters the second-stage purifier from the delivery pipe; when the purifier needs to be detached for replacement, the valve rod loses the extrusion of the bottom of the backflow hole, automatically pops up under the action of the reset spring, the valve cover moves forwards, the valve strip is overlapped with the valve port, water cannot pass through the valve, the starting valve is closed, and the water stops flowing; meanwhile, when the driving motor stops rotating, the output gear stops rotating, the supercharging rotor stops rotating, and the tail end of the supercharging groove communicated with the buffer hole is blocked by the flow blocking plate and cannot flow into the mounting hole; through the special construction of starting valve and pressure boost rotor, the installation of intelligence perception clarifier, the automatic water route of opening after the clarifier installation is accomplished, the clarifier is taken off the automatic shut-off water route, avoids causing the problem that the running water was revealed in a large number when changing the clarifier, and the hommization is higher.
The water storage tank is communicated with an outlet pipe of the last stage of water purification mechanism; a water level sensor is arranged in the water storage bin; the water storage tank is arranged, and when a user needs a large amount of water in a short time, the water storage tank can be called for the need from time to time; the water level sensor can sense the water quantity in the water outlet bin, the driving motor is automatically started to fill water when the water quantity is lower than a set value, and the water filling is stopped when the water level is higher than the set value.
The water inlet mechanism comprises a notch groove arranged on the rear side of the body and a joint fixedly arranged in the notch groove; the joint is communicated with the primary water inlet through hole; the connector is arranged in the notch groove, so that the situation that the connector is accidentally touched in the using process to cause water leakage is avoided, the safety of equipment is guaranteed, the connector is hidden, and the attractiveness is improved.
The water outlet device comprises a water outlet nozzle arranged at the upper part of the water receiving table, a water outlet pipe communicated with the water outlet nozzle and the water storage tank, a magnetic pump arranged on the machine body, a dispersion pipe connected with the water outlet pipe, a variable frequency heating pipe arranged on the outer side of the dispersion pipe and a projection lamp arranged on the water outlet nozzle; when receiving a water outlet instruction, the magnetic pump is started to pump water in the water storage tank, the water flows out of the water outlet nozzle through the water outlet pipe, and meanwhile, the projection lamp is turned on; the projection lamp can be automatically turned on when water flows out, so that people can conveniently see the water amount in the cup on the water-saving table when receiving water, particularly at night, the water in the cup is prevented from overflowing, and the waste of water sources is avoided; when a heating instruction is received, the variable-frequency heating pipe is started to quickly heat water in the dispersion pipe; the dispersion pipe shunts the water in the outlet pipe, makes the velocity of flow in the shunt pipe slow, and the heating becomes fast, is showing and has shortened heating time, realizes that the instant heating is drunk promptly.
The Internet of things chip is integrated in the display control panel, and the using condition of the filter element can be sent to a smart phone end of a user; the intelligent networking can master the water using condition in real time and control at will.
In summary, the invention has the following advantages: by arranging the supercharging mechanism, the invention greatly improves the efficiency of water purification and filtration, reduces the waiting time and realizes instant drinking water; meanwhile, the non-return mechanism is arranged, so that the installation is convenient, and the problem of water overflow when the filter element is replaced is avoided; the instant heating mechanism is arranged, so that water can be quickly heated without waiting.
Drawings
FIG. 1 is a schematic structural diagram of the present invention.
Fig. 2 is a front view of the present invention.
Fig. 3 is a cross-sectional view taken along a-a of fig. 2.
Fig. 4 is a cross-sectional view taken along line B-B of fig. 2.
Fig. 5 is an enlarged view of a portion a in fig. 3.
Fig. 6 is a top view of the present invention.
Fig. 7 is a cross-sectional view taken along line C-C of fig. 6.
Fig. 8 is a side view of the present invention.
Fig. 9 is a cross-sectional view taken along line D-D of fig. 8.
Fig. 10 is a perspective view of the check mechanism of the present invention.
Detailed Description
In order to make the technical solutions of the present invention better understood, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention.
As shown in fig. 1-10, an intelligent household device comprises a body 1, a water receiving platform 11, a water outlet device 2, a water storage tank 3, a multi-stage water purification mechanism 4, a display control panel 5, and a water inlet mechanism 6; the water receiving platform 11 is arranged on the machine body 1; the water outlet device 2 is arranged at the upper part of the water receiving platform 11; the water storage tank 3 is arranged on the machine body 1; the multi-stage water purification mechanism 4 is arranged on the machine body 1; the display control panel 5 is arranged at the front part of the machine body 1; the water inlet mechanism 6 is arranged at the rear side of the machine body 1; the multi-stage water purification mechanism 4 comprises a mounting hole 41, a purifier 7, a supercharging mechanism 8 and a non-return mechanism 9; three mounting holes 41 are arranged on the side surface of the machine body 1; the purifier 7 is detachably mounted in the mounting hole 41; the supercharging mechanism 8 is arranged at the rear side of the purifier 7; the non-return mechanism 9 is arranged at the rear side of the machine body 1; the supercharging mechanism 8 comprises a primary water inlet through hole 81, a buffer hole 82, a supercharging hole 83, a supercharging rotor 84, a supercharging groove 85, a supercharging slide block 86, a supercharging track 87, a supercharging gear 88, a driving groove 89, a driving motor 810, an output shaft 811, an output gear 812, a special-shaped hole 813 and a flow blocking plate 814; the primary water inlet through hole 81 is communicated with the water inlet mechanism 6; the buffer hole 82 is arranged inside the machine body 1; the pressurizing hole 83 is communicated with the front of the buffer hole 82; the pressurizing rotor 84 is rotatably connected to the pressurizing hole 83; ten supercharging grooves 85 are formed in the outer wall of the supercharging rotor 84; the pressurizing slider 86 is slidably connected to the pressurizing groove 85; the pressurizing rail 87 is arranged on the inner wall of the pressurizing hole 83; the booster gear 88 is fixedly connected to the booster rotor 84; the driving groove 89 is arranged in the machine body 1; the driving motor 810 is fixedly connected to the driving groove 89; the output shaft 811 is rotatably connected to the driving motor 810; the output gear 812 is rotatably connected to the output shaft 811; the special-shaped hole 813 is arranged at the bottom of the purifier 7; the flow baffle 814 is arranged at the bottom of the purifier 7 of the machine body 1; the driving gear is meshed with the booster gear 88; the booster slide 86 slides within the booster track 87.
The purifier 7 comprises a protective shell 71, a gland 72, a handle 73, a water inlet bin 74, a backflow bin 75, a purification bin 76, a purification filter element 77, a backflow hole 78, mounting threads 79 and a lead-out head 710; the gland 72 is fixedly connected to the protective shell 71; the handle 73 is fixedly connected to the gland 72; the water inlet bin 74 is arranged inside the protective shell 71; the backflow bin 75 is arranged on the protective shell 71; the purification bin 76 is communicated with the return bin 75; the purification filter element 77 is arranged in the purification bin 76; the return hole 78 is arranged at the rear side of the purifying bin 76; the mounting thread 79 is arranged at the tail end of the backflow hole 78; the lead-out head 710 is rotatably connected to the return hole 78.
The check mechanism 9 comprises a delivery pipe 91, a starting hole 92, a starting valve 93, a valve port 94, a valve cover 95, a valve strip 96, a valve rod 97, a spring groove 98 and a return spring 99; the delivery pipe 91 is arranged on the delivery head 710; the starting hole 92 is arranged at the bottom of the mounting hole 41; the starting valve 93 is fixedly connected to the delivery pipe 91; the valve port 94 is arranged on the starting valve 93; the valve cover 95 is slidably connected to the delivery pipe 91; the driving valve strip 96 is arranged on the valve cover 95; the valve rod 97 is fixedly connected to the valve cover 95 and is slidably connected to the starting hole 92; the spring groove 98 is arranged on the rear side of the valve cover 95; the return spring 99 is disposed in the spring groove 98.
The water storage tank 3 is communicated with an outlet pipe 91 of the last-stage multi-stage water purification mechanism 4; a water temperature sensor is arranged in the water storage bin;
the water inlet mechanism 6 comprises a notch groove 61 and a joint 62; the notch groove 61 is arranged at the rear side of the machine body 1; the joint 62 is fixedly mounted in the notch groove 61; the joint 62 is communicated with the primary water inlet through hole 81.
The water outlet device 2 comprises a water outlet nozzle 21, a water outlet pipe 22, a magnetic pump 23, a dispersion pipe 24, a variable frequency heating pipe 25 and a projection lamp 26; the water outlet nozzle 21 is arranged at the upper part of the water receiving platform 11; the water outlet pipe 22 is communicated with the water outlet nozzle 21 and the water storage tank 3; the magnetic pump 23 is arranged in the machine body 1; the dispersion pipe 24 is connected with the water outlet pipe 22; the variable-frequency heating pipe 25 is arranged outside the dispersion pipe 24; the projection lamp 26 is arranged at the upper part of the water outlet nozzle 21; the magnetic pump is directly purchased and the structure is not repeated.
The Internet of things chip is integrated in the display control panel 5, and the using condition of the filter element can be sent to the smart phone end of a user. .
The specific working process is as follows:
in the installation process of the purifier 7, under the action of the screw threads, the bottom of the backflow hole 78 gradually extrudes the valve rod 97, the valve rod 97 drives the valve cover 95 to move backwards, the return spring 99 is compressed, the valve strip 96 is cut out from the valve port 94, the starting valve 93 is opened, the left side and the right side are communicated, and tap water purified by the first-stage purifier 7 enters the second-stage purifier 7 from the delivery pipe 91; when the purifier 7 needs to be detached for replacement, the valve rod 97 loses the extrusion of the bottom of the return hole 78, and automatically pops up under the action of the return spring 99, the valve cover 95 moves forwards, the valve strip 96 is overlapped with the valve port 94, water cannot pass through, the starting valve 93 is closed, and the water stops flowing; meanwhile, when the driving motor 810 stops rotating, the output gear 812 stops rotating, and further the pressurizing gear 88 stops rotating, the pressurizing rotor 84 stops rotating, and the end of the pressurizing groove 85 communicating with the buffer hole 82 is blocked by the flow blocking plate 814 and cannot flow into the mounting hole 41.
After the purified water is started, tap water enters the buffer hole 82 from the primary water inlet through hole 81, further, the driving motor 810 rotates, the output shaft 811 drives the output gear 812 to rotate, the booster gear 88 drives the booster rotor 84 to rotate under the meshing action of the gears, the tap water enters the lower booster groove 85 from the buffer groove, during the rotation of the booster rotor 84, the side thrust from the booster groove 85 forces the booster slide block 86 to rotate along the booster rail 87, the booster slide block 86 moves forward along the booster groove 85 and generates a pressing force on the tap water in the booster groove 85, due to the small gap between the booster hole 83 and the booster rotor 84, under the movement of the booster slide block 86, the tap water in the booster groove 85 is gradually separated from the auxiliary groove and gradually moves forward under the pressure of the booster slide block 86, when the booster groove 85 rotates to the upper side, the booster groove 85 is communicated with the special-shaped hole 813, the water in the booster groove 85 flows into the purifier 7 through the special-shaped hole 813, the plurality of pressurizing tanks 85 are cyclically operated.
The pressurized tap water reaches the water inlet bin 74 through the special-shaped hole 813, further reaches the return bin 75, further reaches the return hole 78 through the filtering effect of the purifying filter element 77, and the first filtering is completed.
When receiving a water outlet instruction, the magnetic pump 23 is started to pump water in the water storage tank 3, and the water flows out of the water outlet nozzle 21 through the water outlet pipe 22, and meanwhile, the projection lamp 26 is turned on; the projection lamp 26 can be automatically turned on when water flows out, so that people can conveniently see the water amount in the cup on the water-saving table when receiving water, particularly at night, the water in the cup is prevented from overflowing, and the waste of water sources is avoided; when receiving a heating instruction, the variable-frequency heating pipe 25 is started to quickly heat the water in the dispersion pipe 24; the dispersion pipe 24 divides the water in the water outlet pipe 22, so that the flow speed of the water flow in the dispersion pipe is reduced, the heating is accelerated, the heating time is obviously shortened, and the instant drinking is realized.
While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.
Furthermore, it should be understood that although the present description is described in terms of embodiments, not every embodiment includes only a single embodiment, and such description is for clarity only, and those skilled in the art should take the description as a whole, and the embodiments of the present invention may be appropriately combined to form other embodiments of the automatic pin tumbler arraying apparatus, which can be understood by those skilled in the art.