CN215667378U - Energy-saving heating structure of water purifier - Google Patents

Abstract

The utility model discloses an energy-saving heating structure of a water purifier, which comprises a PP cotton filter vat, a granular activated carbon filter vat, an RO reverse osmosis membrane filter vat, a heating cylinder and a water storage and outlet device, wherein one end of a waste water pipe is connected with the lower surface of an RO reverse osmosis membrane filter vat body, the inner surface of a heating switch is connected with the outer surface of a third connecting water pipe, one end of an overheat protector is connected with the outer surface of the heating cylinder body, and one end of a pure water inlet pipe is connected with the upper surface of the heating cylinder body. According to the energy-saving heating structure of the water purifier, raw water enters the PP cotton filter barrel through the raw water inlet pipe, visible matters such as rust, silt and the like are filtered, the raw water enters the granular activated carbon filter barrel through the first connecting water pipe, abnormal color and odor are filtered, the raw water enters the RO reverse osmosis membrane filter barrel through the second connecting water pipe, heavy metals and bacteria are filtered, then the pure water is heated by the quick heating pipe, the overheating protector can detect the temperature of the water, and when the temperature of the water exceeds forty ℃, the heating switch is turned off to stop heating, so that the energy-saving heating structure is more energy-saving and environment-friendly, and electric energy is not wasted.

Description

Energy-saving heating structure of water purifier

Technical Field

The utility model relates to a heating structure, in particular to an energy-saving heating structure of a water purifier.

Background

The water purifier is also called water purifier and water quality purifier, and is water treatment equipment for deeply filtering and purifying water according to the use requirement of water. The water purifier is generally used as a household small purifier, the technical core of the water purifier is a filtering membrane in a filter element device, and the water purifier mainly adopts three technologies of an ultrafiltration membrane, an RO reverse osmosis membrane and a nanofiltration membrane at present.

The existing heating structure of the water purifier is usually continuously heated, electric energy is wasted when water is not used, energy is not saved enough, and the environment is protected.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an energy-saving heating structure of a water purifier, which aims to solve the problems in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme:

an energy-saving heating structure of a water purifier comprises a PP cotton filter vat, a granular activated carbon filter vat, an RO reverse osmosis membrane filter vat, a heating cylinder and a water storage and discharge device, wherein the PP cotton filter vat comprises a PP cotton filter vat body, the granular activated carbon filter vat comprises a granular activated carbon filter vat body, a first connecting water pipe and a second connecting water pipe, one end of the first connecting water pipe is connected with the lower surface of the PP cotton filter vat body, the other end of the first connecting water pipe is connected with the upper surface of the granular activated carbon filter vat body, the RO reverse osmosis membrane filter vat comprises an RO reverse osmosis membrane filter vat body, a waste water pipe and a third connecting water pipe, one end of the second connecting water pipe is connected with the lower surface of the granular activated carbon filter vat body, the other end of the second connecting water pipe is connected with the upper surface of the RO reverse osmosis membrane filter vat body, one end of the waste water pipe is connected with the lower surface of the RO reverse osmosis membrane filter vat body, the utility model discloses a waste water treatment device, including a heating cylinder body, a heating switch, a heating cylinder, a water storage water outlet device, a waste water pipe, a heating cylinder, a water storage water outlet device, a water inlet device, a heating cylinder body, a heating cylinder, a water inlet pipe, a waste pipe, a heating cylinder, a water inlet pipe, a heating cylinder, a water inlet pipe, a heating cylinder, a water inlet pipe, a heating cylinder, a water inlet pipe, a water inlet pipe, a water.

Preferably, the cotton lauter tub of PP still includes raw water inlet tube, first outlet pipe and the cotton filter bed of PP, raw water inlet tube one end and the cotton lauter tub body upper surface of PP are connected, first outlet pipe upper surface and the inside upper surface connection of the cotton lauter tub body of PP, the cotton filter bed upper surface of PP and the inside upper surface connection of the cotton lauter tub body of PP, the effect of the cotton lauter tub of PP is the visible impurity such as filtration aquatic iron rust silt.

Preferably, the granule active carbon filter vat still includes second outlet pipe and granule active carbon filtering layer, second outlet pipe upper surface and the inside upper surface connection of granule active carbon filter vat body, granule active carbon filtering layer upper surface and the inside upper surface connection of granule active carbon filter vat body, the effect of granule active carbon filter vat is the heterochrosis peculiar smell of filtration aquatic.

Preferably, the RO reverse osmosis membrane lauter tub still includes third outlet pipe and RO reverse osmosis membrane lauter layer, third outlet pipe upper surface and the inside upper surface connection of RO reverse osmosis membrane lauter tub body, RO reverse osmosis membrane lauter layer upper surface and the inside upper surface connection of RO reverse osmosis membrane lauter tub body, the effect of RO reverse osmosis membrane lauter tub is bacterium and the heavy metal in the filtration aquatic.

Preferably, the cartridge heater still includes fast hot heating pipe, heater and plug, cartridge heater body lower surface is equipped with the through-hole, fast hot heating pipe is connected with the through-hole, the heater upper surface is connected with fast hot heating pipe lower surface, the plug passes through electric wire connection with the heater, overheat protector and heating switch electric connection, the effect of cartridge heater is to thirty degrees to forty degrees pure water heating after the filtration, and overheat protector control temperature is in time cut off the power supply, helps energy-conservation.

Preferably, water storage effluent device still includes pressure bucket, pure water outlet pipe, hyperfine active carbon filter vat and bleeder line, the pressure bucket includes the connector, the pure water oral siphon other end and connector upper surface connection, pure water outlet pipe both ends respectively with connector side surface and hyperfine active carbon filter vat lower surface connection, bleeder line lower surface and hyperfine active carbon filter vat upper surface connection, the effect of pressure bucket is to store the pure water so that take at any time.

Compared with the prior art, the utility model has the beneficial effects that:

raw water passes through the raw water inlet tube and gets into the cotton lauter tun of PP, filter visible matters such as rust silt, the first connecting water pipe of rethread gets into the active carbon lauter tun of granule, filter the heterochrosis peculiar smell, the rethread second connecting water pipe gets into RO reverse osmosis membrane lauter tun, filter heavy metal and bacterium, later the rapid-heating pipe heats the pure water, overheat protector can detect the temperature of water, when the temperature of water surpasss forty degrees and close heating switch stop heating promptly, it is more energy-concerving and environment-protective, do not waste the electric energy.

Drawings

Fig. 1 is an isometric view of an energy efficient heating structure for a water purifier.

Fig. 2 is a side view of an energy-saving heating structure of a water purifier.

Fig. 3 is a sectional view a-a in fig. 2 showing an energy-saving heating structure of a water purifier.

Fig. 4 is an enlarged view of B in fig. 3 of an energy-saving heating structure of a water purifier.

In the figure: 100. a PP cotton filter barrel; 110. a raw water inlet pipe; 120. a first water outlet pipe; 130. a PP cotton filter layer; 200. a granular activated carbon filter vat; 210. a first connecting water pipe; 220. a second water outlet pipe; 230. a granular activated carbon filter layer; 240. a second connecting water pipe; 300. an RO reverse osmosis membrane lauter tub; 310. a third water outlet pipe; 320. a RO reverse osmosis membrane filtration layer; 330. a waste pipe; 340. a third connecting water pipe; 400. a heating cylinder; 410. a quick heating pipe; 420. a heating switch; 430. a heater; 440. a plug; 450. an overheat protector; 500. a water storage and outlet device; 510. a pure water inlet pipe; 520. a pressure barrel; 530. a pure water outlet pipe; 540. hyperfine activated carbon lauter tun; 550. a water discharge pipe.

Detailed Description

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, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 4, in an embodiment of the present invention, an energy-saving heating structure of a water purifier includes a PP cotton filter barrel 100, a granular activated carbon filter barrel 200, an RO reverse osmosis membrane filter barrel 300, a heating barrel 400, and a water storage and discharge device 500, the PP cotton filter barrel 100 includes a PP cotton filter barrel body, the granular activated carbon filter barrel 200 includes a granular activated carbon filter barrel body, a first connection water pipe 210, and a second connection water pipe 240, one end of the first connection water pipe 210 is connected to a lower surface of the PP cotton filter barrel body, the other end of the first connection water pipe 210 is connected to an upper surface of the granular activated carbon filter barrel body, the RO reverse osmosis membrane filter barrel 300 includes an RO reverse osmosis membrane filter barrel body, a waste water pipe 330, and a third connection water pipe 340, one end of the second connection water pipe 240 is connected to the lower surface of the granular activated carbon filter barrel body, the other end of the second connection water pipe 240 is connected to the upper surface of the RO filter barrel body, one end of the waste water pipe 330 is connected to the lower surface of the RO reverse osmosis membrane filter barrel body, one end of a third connecting water pipe 340 is connected with the outer surface of the waste water pipe 330, the heating cylinder 400 comprises a heating cylinder body, a heating switch 420 and an overheat protector 450, the other end of the third connecting water pipe 340 is connected with the outer surface of the heating cylinder body, the inner surface of the heating switch 420 is connected with the outer surface of the third connecting water pipe 340, one end of the overheat protector 450 is connected with the outer surface of the heating cylinder body, the water storage and outlet device 500 comprises a pure water inlet pipe 510, and one end of the pure water inlet pipe 510 is connected with the upper surface of the heating cylinder body.

Wherein, the cotton lauter tub of PP 100 still includes raw water inlet tube 110, first outlet pipe 120 and the cotton filter bed 130 of PP, raw water inlet tube 110 one end and the cotton lauter tub body upper surface connection of PP, first outlet pipe 120 upper surface and the inside upper surface connection of the cotton lauter tub body of PP, the cotton filter bed 130 upper surface of PP and the inside upper surface connection of the cotton lauter tub body of PP, the cotton lauter tub 100 of PP's effect is the visible impurity such as filtration aquatic rust silt.

Wherein, granule active carbon filter vat 200 still includes second outlet pipe 220 and granule active carbon filter layer 230, and second outlet pipe 220 upper surface and the inside upper surface connection of granule active carbon filter vat body, granule active carbon filter layer 230 upper surface and the inside upper surface connection of granule active carbon filter vat body, the effect of granule active carbon filter vat 200 is the heterochrosis peculiar smell of filtration aquatic.

Wherein, RO reverse osmosis membrane lauter 300 still includes third outlet pipe 310 and RO reverse osmosis membrane lauter 320, and third outlet pipe 310 upper surface and the inside upper surface connection of RO reverse osmosis membrane lauter body, RO reverse osmosis membrane lauter 320 upper surface and the inside upper surface connection of RO reverse osmosis membrane lauter body, and the effect of RO reverse osmosis membrane lauter 300 is bacterium and the heavy metal in the filtration aquatic.

Wherein, the heating cylinder 400 still includes fast hot heating pipe 410, heater 430 and plug 440, heating cylinder body lower surface is equipped with the through-hole, fast hot heating pipe 410 is connected with the through-hole, heater 430 upper surface is connected with fast hot heating pipe 410 lower surface, plug 440 passes through electric wire connection with heater 430, overheat protector 450 and heating switch 420 electric connection, the effect of heating cylinder 400 is to thirty degrees to forty degrees pure water heating after the filtration, overheat protector 450 monitors the timely outage of temperature, help energy-conservation.

Wherein, water storage effluent arrangement 500 still includes pressure tank 520, pure water outlet pipe 530, hyperfine activated carbon filter vat 540 and discharge tube 550, and pressure tank 520 includes the connector, and pure water inlet pipe 510 other end and connector upper surface are connected, and pure water outlet pipe 530 both ends are connected with connector lateral surface and hyperfine activated carbon filter vat 540 lower surface respectively, discharge tube 550 lower surface and hyperfine activated carbon filter vat 540 upper surface are connected, and the effect of pressure tank 520 is to store the pure water so that take at any time.

The working principle of the utility model is as follows:

raw water passes through raw water inlet pipe 110 and gets into PP cotton lauter tub 100, filter visible matters such as rust silt, rethread first connecting water pipe 210 gets into granular activated carbon lauter tub 200, filter the heterochrosis peculiar smell, rethread second connecting water pipe 240 gets into RO reverse osmosis membrane lauter tub 300, filter heavy metal and bacterium, later the quick-heating pipe 410 heats the pure water, overheat protector 450 can detect the temperature of water, it stops the heating to close heating switch 420 promptly to exceed forty degrees when the water temperature, energy-concerving and environment-protective more, do not waste the electric energy.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the utility model can be made, and equivalents and modifications of some features of the utility model can be made without departing from the spirit and scope of the utility model.

Claims (6)

1. The utility model provides an energy-conserving heating structure of water purifier, includes cotton lauter tub of PP (100), granule active carbon lauter tub (200), RO reverse osmosis membrane lauter tub (300), cartridge heater (400) and water storage effluent device (500), its characterized in that: the PP cotton filter vat (100) comprises a PP cotton filter vat body, the granular activated carbon filter vat (200) comprises a granular activated carbon filter vat body, a first connecting water pipe (210) and a second connecting water pipe (240), one end of the first connecting water pipe (210) is connected with the lower surface of the PP cotton filter vat body, the other end of the first connecting water pipe (210) is connected with the upper surface of the granular activated carbon filter vat body, the RO reverse osmosis membrane filter vat (300) comprises an RO reverse osmosis membrane filter vat body, a wastewater pipe (330) and a third connecting water pipe (340), one end of the second connecting water pipe (240) is connected with the lower surface of the granular activated carbon filter vat body, the other end of the second connecting water pipe (240) is connected with the upper surface of the RO reverse osmosis membrane filter vat body, one end of the wastewater pipe (330) is connected with the lower surface of the RO reverse osmosis membrane filter vat body, one end of the third connecting water pipe (340) is connected with the outer surface of the wastewater pipe (330), the heating cylinder (400) comprises a heating cylinder body, a heating switch (420) and an overheat protector (450), the third end of the connecting water pipe (340) is connected with the outer surface of the heating cylinder body, the inner surface of the heating switch (420) is connected with the outer surface of the third connecting water pipe (340), one end of the overheat protector (450) is connected with the outer surface of the heating cylinder body, the water storage water outlet device (500) comprises a pure water inlet pipe (510), and one end of the pure water inlet pipe (510) is connected with the upper surface of the heating cylinder body.

2. The energy-saving heating structure of the water purifier according to claim 1, characterized in that: the PP cotton filter vat (100) further comprises a raw water inlet pipe (110), a first water outlet pipe (120) and a PP cotton filter layer (130), one end of the raw water inlet pipe (110) is connected with the upper surface of the PP cotton filter vat body, the upper surface of the first water outlet pipe (120) is connected with the upper surface inside the PP cotton filter vat body, and the upper surface of the PP cotton filter layer (130) is connected with the upper surface inside the PP cotton filter vat body.

3. The energy-saving heating structure of the water purifier according to claim 1, characterized in that: the granular activated carbon filter vat (200) further comprises a second water outlet pipe (220) and a granular activated carbon filter layer (230), the upper surface of the second water outlet pipe (220) is connected with the inner upper surface of the granular activated carbon filter vat body, and the upper surface of the granular activated carbon filter layer (230) is connected with the inner upper surface of the granular activated carbon filter vat body.

4. The energy-saving heating structure of the water purifier according to claim 1, characterized in that: RO reverse osmosis membrane lauter (300) still includes third outlet pipe (310) and RO reverse osmosis membrane lauter (320), third outlet pipe (310) upper surface and the inside upper surface connection of RO reverse osmosis membrane lauter body, RO reverse osmosis membrane lauter (320) upper surface and the inside upper surface connection of RO reverse osmosis membrane lauter body.

5. The energy-saving heating structure of the water purifier according to claim 1, characterized in that: the heating cylinder (400) further comprises a quick heating pipe (410), a heater (430) and a plug (440), a through hole is formed in the lower surface of the heating cylinder body, the quick heating pipe (410) is connected with the through hole, the upper surface of the heater (430) is connected with the lower surface of the quick heating pipe (410), the plug (440) is connected with the heater (430) through an electric wire, and the overheat protector (450) is electrically connected with the heating switch (420).

6. The energy-saving heating structure of the water purifier according to claim 1, characterized in that: the water storage and outlet device (500) further comprises a pressure barrel (520), a pure water outlet pipe (530), a hyperfine activated carbon filter barrel (540) and a water drain pipe (550), the pressure barrel (520) comprises a connector, the other end of the pure water inlet pipe (510) is connected with the upper surface of the connector, the two ends of the pure water outlet pipe (530) are respectively connected with one side surface of the connector and the lower surface of the hyperfine activated carbon filter barrel (540), and the lower surface of the water drain pipe (550) is connected with the upper surface of the hyperfine activated carbon filter barrel (540).

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