CN215667577U - Energy-saving drinking water filtering device - Google Patents

Abstract

The utility model relates to an energy-saving drinking water filter equipment especially relates to drinking water filter equipment field, it includes the drinking water tank, be provided with the baffle in the drinking water tank, the baffle separates the drinking water tank inner chamber for filtering sump and heated warehouses, it is located the heated warehouses top to filter the sump, it is provided with filter mechanism in the filtered sump, be provided with heating tank in the heated warehouses, aqueduct and energy storage heating mechanism, aqueduct one end runs through the baffle and filters the sump intercommunication, the aqueduct other end and heating tank intercommunication, energy storage heating mechanism heats heating tank, the drinking water tank is provided with solar panel outward, solar panel is to energy storage heating mechanism energy supply. This application has reduced the energy resource consumption of heating drinking water in-process, has improved drinking water filter equipment's energy-conserving effect.

Description

Energy-saving drinking water filtering device

Technical Field

The application relates to the field of drinking water filtering devices, in particular to an energy-saving drinking water filtering device.

Background

Some rural families can be used for drinking after directly boiling tap water, and direct boiling can remove most microorganisms, but some mineral pollutants that exist in the tap water can form incrustation scale after boiling, and long-term drinking water containing incrustation scale can cause certain influence to human health, and the running water containing incrustation scale has certain peculiar smell, is not suitable for direct drinking.

The application number is 201420541898.9's chinese utility model patent discloses a water dispenser filters heating device, including the heating water tank box with set up in inside filter equipment and the heater of box, the bottom half is equipped with the water inlet that links to each other with the inlet tube, is equipped with the solenoid valve on the tubular metal resonator, is equipped with level sensor in the box, and filter equipment includes drum type main part, blade and cassette, is equipped with the delivery port on the lateral wall of drum type main part, and drum type main part inner wall upper end is equipped with temperature sensor, and drum type main part bottom is sealed, and is a plurality of blade longitudinal distribution in drum type main part outer wall, the cassette set up respectively in the last lower extreme of drum type main part, the heater is located in the drum type main part inner chamber, and fix on the box inner wall, solenoid valve, level sensor, heater and temperature sensor all are connected with a controller. When the water heater is used, drinking water is injected into the box body through the water inlet pipe, then after passing through the lower end filter disc, moves upwards along the outer wall of the cylindrical main body through a channel between the blades, then enters into the inner cavity of the cylindrical main body from the top end of the cylindrical main body through the round hole of the upper end filter disc, is heated by the water heater, and the heated drinking water can be discharged from the water outlet.

In view of the above-mentioned related technologies, the inventors believe that heating drinking water requires a large amount of energy consumption, which is a problem of high energy consumption.

SUMMERY OF THE UTILITY MODEL

In order to reduce the energy consumption in the process of heating the drinking water, the application provides an energy-saving drinking water filtering device.

The application provides an energy-saving drinking water filter equipment adopts following technical scheme:

the energy-saving drinking water filtering device comprises a drinking water tank, wherein a partition plate is arranged in the drinking water tank, the partition plate divides an inner cavity of the drinking water tank into a filtering water bin and a heating bin, the filtering water bin is positioned above the heating bin, a filtering mechanism is arranged in the filtering water bin, a heating water tank, a water guide pipe and an energy storage heating mechanism are arranged in the heating bin, one end of the water guide pipe penetrates through the partition plate and is communicated with the filtering water bin, the other end of the water guide pipe is communicated with the heating water tank, and the energy storage heating mechanism heats the heating water tank; and a solar panel is arranged outside the drinking water tank and supplies energy to the energy storage heating mechanism.

By adopting the technical scheme, when the tap water enters the filtering water bin, the filtering mechanism filters the tap water, and the filtered tap water enters the heating water tank in the heating bin through the water guide pipe; the solar panel supplies energy to the energy storage heating mechanism, so that the energy storage heating mechanism heats tap water in the heating water tank to boiling. Come to boil the running water and filter through energy storage heating mechanism and filtering mechanism for need not external power supply during the heating running water, reduced the waste of the energy, detached the microorganism and the ore type pollutant of the overwhelming majority in the running water simultaneously, make the impurity of also having detached the running water when guaranteeing energy-conservation.

Optionally, the energy storage heating mechanism includes a storage battery and a heating rod, the storage battery is disposed in the heating chamber, the heating rod is disposed in the heating tank, and the storage battery is electrically connected to the heating rod.

Through adopting above-mentioned technical scheme for the battery can be stored the energy of solar panel conversion, has improved solar panel's energy conversion rate, and then makes the heating rod heat in real time, has reduced the influence of external weather.

Optionally, the top of the heating water tank is communicated with an air outlet pipe, and one end of the air outlet pipe, which is far away from the heating water tank, penetrates out of the side wall of the drinking water tank.

Through adopting above-mentioned technical scheme for the inside vapor of heating water tank can freely volatilize, has guaranteed that the pressure in the heated warehouses is stable, can survey vapor through the outlet duct simultaneously, judges through how much of vapor whether the running water boils.

Optionally, a check valve is arranged on the water conduit.

Through adopting above-mentioned technical scheme for during vapor in the heating water tank is difficult to flow back to the filtration water sump through the aqueduct, and then reduced the too high possibility of filtration water sump temperature, reduced the influence of vapor to the ultrafiltration membrane filter core.

Optionally, the filtering mechanism includes filter tube and milipore filter core, the filter tube water inlet with it connects to filter the sump water inlet, be provided with the active carbon granule in the filter tube inner chamber, a plurality of through-flow holes have been seted up on the filter tube pipe wall, the milipore filter core cover is established outside the filter tube.

By adopting the technical scheme, most of microorganisms and mineral pollutants in the tap water can be filtered, so that the quality of the tap water is purer and the tap water is healthier to drink.

Optionally, a universal water pipe joint is arranged on the water inlet of the filtering water bin.

By adopting the technical scheme, the drinking water box can be suitable for water pipes of different specifications, and the application range is enlarged.

Optionally, a heat insulation layer is arranged outside the heating water tank.

By adopting the technical scheme, the loss of tap water heat in the heating water tank is reduced, the heat radiation of the heat generated by the tap water to the storage battery is reduced, and the service life of the storage battery is prevented from being influenced by high temperature.

Optionally, the side wall of the heating bin is provided with a plurality of ventilation openings.

Through adopting above-mentioned technical scheme, can cool down the battery, guarantee that the battery is in good operational environment, increase the life of battery.

In summary, the present application includes at least one of the following beneficial technical effects:

tap water is boiled and filtered through the energy storage heating mechanism and the filtering mechanism, so that an external power supply is not needed when the tap water is heated, the waste of energy is reduced, most of microorganisms and mineral pollutants in the tap water are removed, and impurities in the tap water are also removed while the energy is saved;

the check valve arranged on the water guide pipe ensures that the water vapor in the heating water tank is difficult to flow back to the filtering water bin through the water guide pipe, thereby reducing the possibility of overhigh temperature of the filtering water bin and reducing the influence of the water vapor on the ultrafiltration membrane filter element;

the setting is worn out the outlet duct outside the heating storehouse for the inside vapor of heating water tank can freely volatilize, has guaranteed that the pressure in the heating water tank is stable, can survey vapor through the outlet duct simultaneously, judges through what of vapor whether the running water boils.

Drawings

FIG. 1 is a schematic view of the overall structure of an energy-saving drinking water filtering device in the embodiment of the present application.

Fig. 2 is a sectional view of the energy saving type drinking water filtering device of fig. 1.

Reference numerals: 1. a drinking water tank; 2. a partition plate; 3. a water filtering bin; 31. a filtering mechanism; 311. a filter tube; 3111. activated carbon particles; 3112. a through-flow aperture; 312. an ultrafiltration membrane cartridge; 4. a heating chamber; 41. heating the water tank; 411. an air outlet pipe; 42. a water conduit; 421. a check valve; 43. an energy storage heating mechanism; 431. a storage battery; 432. a heating rod; 44. a vent; 5. a solar panel; 6. universal water pipe joints; 7. and a water stop valve.

Detailed Description

The present application is described in further detail below with reference to figures 1-2.

The embodiment of the application discloses an energy-saving drinking water filter equipment.

Referring to fig. 1 and 2, the energy-saving drinking water filtering device includes a drinking water tank 1, a solar panel 5, a filtering mechanism 31, a water guide pipe 42, a heating water tank 41 and an energy storage heating mechanism 43. A partition plate 2 is welded in the drinking water tank 1, the drinking water tank 1 is divided into a filtering water bin 3 and a heating bin 4 by the partition plate 2, the filtering water bin 3 is positioned above the heating bin 4, a plurality of solar panels 5 which are arranged in order are adhered on the outer wall of the filtering water bin 3, a filtering mechanism 31 is arranged in the filtering water bin 3, and a universal water pipe joint 6 is in threaded connection with a water inlet of the filtering water bin 3; the water guide pipe 42, the heating water tank 41 and the energy storage heating mechanism 43 are arranged in the heating bin 4, one end of the water guide pipe 42 is communicated with the heating water tank 41, the other end of the water guide pipe 42 penetrates through the partition board 2 to be communicated with the filtering water bin 3, and the energy storage heating mechanism 43 heats the heating water tank 41 and is electrically connected with the solar panel 5.

Referring to fig. 2, the filtering mechanism 31 includes a filtering pipe 311 and an ultrafiltration membrane filter element 312, a water inlet is formed at the top of the filtering pipe 311, the top of the filtering pipe 311 is bonded with the side wall of the water inlet of the filtering water bin 3, so that tap water completely flows into the filtering pipe 311 after passing through the water inlet of the filtering water bin 3, activated carbon particles 3111 are placed in the inner cavity of the filtering pipe 311, and a plurality of through holes 3112 are formed in the pipe wall of the filtering pipe 311; the ultrafiltration membrane filter element 312 is sleeved outside the filter pipe 311, and the side wall of the water inlet of the ultrafiltration membrane filter element 312 is bonded with the inner wall of the drinking water tank 1, when in use, tap water enters the ultrafiltration membrane filter element 312 through the through hole 3112 after being filtered by the filter pipe 311, and then enters the heating water tank 41 through the filtering water bin 3 after being filtered.

Referring to fig. 2, the energy storage heating mechanism 43 includes a storage battery 431 and a heating rod 432, the storage battery 431 and the heating water tank 41 at the bottom of the heating chamber 4 are spaced apart, the heating rod 432 is welded on the heating water tank 41, the heating end of the heating rod 432 extends into the heating water tank 41, and the storage battery 431 and the heating rod 432 are electrically connected. Furthermore, in order to allow the storage battery 431 to dissipate heat in time, a plurality of ventilation openings 44 are formed on the side wall of the heating chamber 4.

Referring to fig. 2, a water outlet pipe is welded at the bottom of the side wall of the heating water tank 41, the water outlet end of the water outlet pipe penetrates out of the side wall of the heating bin 4, and a water stop valve 7 is connected to the water outlet pipe in a butt welding mode. In order to discharge the vapor generated by heating the tap water from the heating water tank 41 to the outside of the drinking water tank 1 to ensure the stability of the pressure intensity in the heating water tank 41, an air outlet pipe 411 is welded at the top of the heating water tank 41, the air outlet pipe 411 is communicated with the inner cavity of the heating water tank 41, and one end of the air outlet pipe 411, which is far away from the heating water tank 41, penetrates out of the side wall of the heating bin 4. In order to prevent the influence of the water vapor flowing back from the heating water tank 41 to the filtration water sump 3 through the water conduit 42 on the ultrafiltration membrane filter element 312, a check valve 421 is butt-welded to the water conduit 42. Further, in order to reduce the heat loss of the tap water in the heating water tank 41, a heat insulation cotton heat insulation layer is adhered to the outer wall of the heating water tank 41, and is not shown in the figure.

The implementation principle of the energy-saving drinking water filtering device in the embodiment of the application is as follows: when the water heater is used, one end of the universal water pipe joint 6 is communicated with a tap water pipe, the other end of the universal water pipe joint 6 is in threaded connection with a water inlet of the filtering water bin 3, tap water enters the filtering pipe 311 through the water inlet of the filtering water bin 3, the tap water is fully contacted with the activated carbon particles 3111, the activated carbon particles 3111 filter silt, iron rust and the like in the tap water, the tap water after primary filtering flows out through the through hole 3112 in the pipe wall of the filtering pipe 311, then enters the ultrafiltration membrane filter element 312 to filter part of microorganisms and mineral pollutants in the tap water, the filtered tap water flows out from the ultrafiltration membrane filter element 312 to enter the filtering water bin 3, and then enters the heating water tank 41 through the water guide pipe 42 communicated with the filtering water bin 3; meanwhile, the electric energy converted by the solar panel 5 is stored in the storage battery 431, the storage battery 431 supplies power to the heating rod 432 to enable the heating rod 432 to generate heat, the heating rod 432 generates heat to heat tap water in the heating water tank 41 to boiling, most of microorganisms in the tap water are killed at the moment, the boiled tap water generates water vapor, the air outlet pipe 411 communicated with the heating water tank 41 discharges the water vapor generated by the tap water to the outside of the drinking water tank 1, and when a large amount of water vapor is emitted from the air outlet pipe 411, the heating of the tap water is stopped, and the filtering and sterilizing are completed.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. Energy-saving drinking water filter equipment, including drinking water tank (1), its characterized in that: a partition plate (2) is arranged in the drinking water tank (1), the partition plate (2) divides the inner cavity of the drinking water tank (1) into a filtering water bin (3) and a heating bin (4), the filtering water bin (3) is positioned above the heating bin (4), a filtering mechanism (31) is arranged in the filtering water bin (3), a heating water tank (41), a water guide pipe (42) and an energy storage heating mechanism (43) are arranged in the heating bin (4), one end of the water guide pipe (42) penetrates through the partition plate (2) to be communicated with the filtering water bin (3), the other end of the water guide pipe (42) is communicated with the heating water tank (41), and the energy storage heating mechanism (43) heats the heating water tank (41); a solar panel (5) is arranged outside the drinking water tank (1), and the solar panel (5) supplies energy to the energy storage heating mechanism (43).

2. The energy saving drinking water filtering device according to claim 1, wherein: the energy storage heating mechanism (43) comprises a storage battery (431) and a heating rod (432), the storage battery (431) is arranged in the heating bin (4), the heating rod (432) is arranged in the heating water tank (41), and the storage battery (431) and the heating rod (432) are electrically connected.

3. The energy saving drinking water filtering device according to claim 1, wherein: the top of the heating water tank (41) is communicated with an air outlet pipe (411), and one end, far away from the heating water tank (41), of the air outlet pipe (411) penetrates out of the side wall of the drinking water tank (1).

4. The energy saving drinking water filtering device according to claim 1, wherein: the water guide pipe (42) is provided with a check valve (421).

5. The energy saving drinking water filtering device according to claim 1, wherein: filtering mechanism (31) include filter tube (311) and milipore filter core (312), filter tube (311) water inlet with it connects to filter sump (3) water inlet, be provided with activated carbon granule (3111) in filter tube (311) inner chamber, a plurality of through-flow holes (3112) have been seted up on filter tube (311) pipe wall, milipore filter core (312) cover is established outside filter tube (311).

6. The energy saving drinking water filtering device according to claim 1, wherein: and a universal water pipe joint (6) is arranged on a water inlet of the filtering water bin (3).

7. The energy saving drinking water filtering device according to claim 3, wherein: a heat insulation layer is arranged outside the heating water tank (41).

8. The energy saving drinking water filtering device according to claim 1, wherein: and a plurality of ventilation openings (44) are formed in the side wall of the heating bin (4).

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