CN112110560A - Efficient energy-saving heating commercial water purifying equipment and use method thereof - Google Patents

Abstract

The invention discloses a high-efficiency energy-saving heating commercial water purifying device and a using method thereof, relates to the technical field of commercial water purifying devices, and aims to solve the problem that the existing commercial water purifying device is long in heating time and large in resource consumption. The front end of rack is provided with maintenance door mechanism, the upper end of maintenance door mechanism is provided with instrument display mechanism, the lower extreme of rack is provided with the universal wheel, and universal wheel and rack fixed connection, the side surface of rack is provided with the water inlet, the below of water inlet is provided with the delivery port, the below of delivery port is provided with the waste water mouth, the inside of rack is provided with the cotton filter core mechanism of PP, one side of the cotton filter core mechanism of PP is provided with active carbon filter core mechanism, the top of active carbon filter core mechanism is provided with booster mechanism, the top of booster mechanism is provided with reverse osmosis RO membrane mechanism, the rear end of active carbon filter core mechanism is provided with the pressure bucket, the top of water inlet is provided with the heat dissipation tripe.

Description

Efficient energy-saving heating commercial water purifying equipment and use method thereof

Technical Field

The invention relates to the technical field of commercial water purification equipment, in particular to high-efficiency energy-saving heating commercial water purification equipment and a use method thereof.

Background

The water purifying equipment refers to equipment for producing purified water, mostly adopts a reverse osmosis process, wherein reverse osmosis is to desalt and desalt salt-containing water by adopting a physical method without phase change at room temperature, the water purifying equipment is simply the equipment for producing purified water, and the purified water is widely used by people: drinking, chemical engineering, medical treatment, breeding, planting, food, beverage and the like in life, the following will be introduced for your simplicity: the components of the water purifying equipment and the process of producing purified water, the water purifying equipment has no international unified classification method, and is mainly classified according to purposes, functions, principles, processes, volume, water yield and habits, and the drinking water quality processor is divided into three types according to the evaluation requirements of the sanitary safety and function evaluation standard of the drinking water quality processor in China 'sanitary Standard for Drinking Water': a general water quality processor, a mineralizer and a reverse osmosis treatment device.

The existing commercial water purifying equipment is long in heating time and large in resource consumption, and therefore the commercial water purifying equipment capable of efficiently heating in an energy-saving mode and the using method of the commercial water purifying equipment are provided.

Disclosure of Invention

The invention aims to provide a commercial water purifying device with high efficiency and energy-saving heating and a using method thereof, and aims to solve the problem that the existing commercial water purifying device in the background art has long heating time and large resource consumption.

In order to achieve the purpose, the invention provides the following technical scheme: a high-efficiency energy-saving heating commercial water purifying device comprises a cabinet, wherein the front end of the cabinet is provided with a maintenance door mechanism, the upper end of the maintenance door mechanism is provided with an instrument display mechanism, the lower end of the cabinet is provided with universal wheels, the universal wheels are fixedly connected with the cabinet, a water inlet is arranged on the side surface of the cabinet, a water outlet is arranged below the water inlet, a waste water outlet is arranged below the water outlet, the water inlet, the water outlet and the waste water port are all fixedly connected with the machine cabinet, a PP cotton filter element mechanism is arranged in the machine cabinet, an active carbon filter element mechanism is arranged on one side of the PP cotton filter element mechanism, a supercharging mechanism is arranged above the active carbon filter element mechanism, the top of booster mechanism is provided with reverse osmosis RO membrane mechanism, the rear end of active carbon filter core mechanism is provided with the pressure vessel, the top of water inlet is provided with the heat dissipation tripe.

Preferably, the inside of pressure vessel sets up the heating jar, and the heating jar is detachable with the pressure vessel and is connected, the outside of heating jar is provided with encircles the water pipe, and encircles the water pipe around the heating jar, the one end of encircleing the water pipe sets up down the mouth of a river, and down the mouth of a river and encircle water pipe structure as an organic whole, delivery port and pressure vessel fixed connection.

Preferably, the lower end face of the heating tank is provided with four ceramic heat conducting fins which are fixedly connected with the heating tank.

Preferably, the outside of pressure vessel is provided with the heat preservation pad, one side of heat preservation pad is provided with the sliding plate, and sliding plate and heat preservation pad fixed connection, the outer wall of pressure vessel is provided with the connecting plate, and the heat preservation pad passes through sliding plate and connecting plate sliding connection, the lower extreme of pressure vessel is provided with the supporting seat, and supporting seat and rack fixed connection.

Preferably, one side of supporting seat is provided with fan mechanism, fan mechanism's both sides all are provided with the cardboard, and fan mechanism passes through cardboard and the detachable connection of supporting seat, the surface of cardboard is provided with the slipmat, the rack lower surface is provided with the ventilation groove.

Preferably, the heating tank is internally provided with an electric heating rod mechanism, and the electric heating rod mechanism is fixedly connected with the heating tank.

Preferably, the upper end of rack is provided with the cabinet top, and cabinet top and rack fixed connection, all be provided with lighting mechanism around the cabinet top, and lighting mechanism and cabinet top fixed connection.

Preferably, one side of the activated carbon filter element mechanism is provided with a compressed carbon filter element mechanism, the outer walls of one ends of the activated carbon filter element mechanism, the compressed carbon filter element mechanism and the PP cotton filter element mechanism are all provided with threads, the activated carbon filter element mechanism, the compressed carbon filter element mechanism and the PP cotton filter element mechanism are all in threaded connection with a fixed frame through threads, a first connecting pipe is arranged between the water inlet and the PP cotton filter element mechanism, a second connecting pipe is arranged among the activated carbon filter element mechanism, the compressed carbon filter element mechanism and the PP cotton filter element mechanism, a third connecting pipe is arranged between the compressed carbon filter element mechanism and the pressurization mechanism, a fourth connecting pipe is arranged between the pressurization mechanism and the reverse osmosis RO membrane mechanism, a fifth connecting pipe is arranged between the reverse osmosis RO membrane mechanism and the pressure barrel, a sixth connecting pipe is arranged between the reverse osmosis RO membrane mechanism and the wastewater outlet, the outside of reverse osmosis RO membrane mechanism is provided with fixed buckle, and reverse osmosis RO membrane mechanism passes through fixed buckle and the detachable connection of rack.

Preferably, the use method of the commercial water purifying device with high-efficiency and energy-saving heating comprises the following steps:

the method comprises the following steps: the active carbon filter element mechanism, the compressed carbon filter element mechanism and the PP cotton filter element mechanism are arranged at the lower end of the fixed frame and are in threaded connection with the fixed frame;

step two: pressing the reverse osmosis RO membrane mechanism into the fixed pinch plates for fixing, and then connecting the first connecting pipe, the second connecting pipe, the third connecting pipe, the fourth connecting pipe, the fifth connecting pipe and the sixth connecting pipe with corresponding mechanisms;

step three: inserting the heat insulation pad between the connecting plates, and inserting the fan mechanism between the clamping plates;

step four: the water inlet is externally connected with a water inlet mechanism, the water outlet is externally connected with a water outlet tap, the external water inlet mechanism is opened to start water purification, and then the electric heating rod mechanism is electrified;

step five: the fan mechanism is started, and can be closed when not used for a long time, so that long-time operation is avoided;

step six: and the four illuminating mechanisms irradiate the periphery of the cabinet when the illuminating mechanisms are turned on, and the cabinet can be inspected and maintained under a dim condition.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the surrounding water pipe is arranged outside the heating tank, the ceramic heat conducting fin is arranged on the lower end face of the heating tank, the surrounding water pipe surrounds the heating tank to form a vortex shape, then water flows into the pressure barrel again, compared with the water directly flowing into the pressure barrel, the flowing distance of the water around the heating tank is increased, the inflow amount of the water is reduced, and the distance is increased, so that the water heating speed is increased, the heating time is shortened, and meanwhile, the heat of the heating tank can be more quickly transferred to the bottom of the pressure barrel through the ceramic heat conducting fin, so that the water at the bottom can be heated by the heat, long-time heating is not needed, the resource consumption is reduced, and the effects of high efficiency and energy saving are achieved.

2. Through setting up fan mechanism in pressure tank below, slowly blow to pressure tank through fan mechanism, because slowly blow, so can not make pressure tank rapid cooling, the heat that can make the pressure tank outside give off up blows, thereby make the water pipe temperature rise, preheat before making the water extraction in the water pipe, thereby realize energy-efficient effect, when the overheated needs of pressure tank cool down, can accelerate fan mechanism slew velocity, make the heat follow the tripe effluvium that dispels the heat fast, the security improves.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the internal structure of the cabinet of the present invention;

FIG. 3 is a schematic view of the internal structure of the pressure barrel of the present invention;

FIG. 4 is a schematic view of the construction of the pressure barrel and the insulating mat of the present invention;

FIG. 5 is an enlarged view of part A of the present invention;

in the figure: 1. a cabinet; 2. a maintenance door mechanism; 3. a universal wheel; 4. a water inlet; 5. a water outlet; 6. a waste water port; 7. an instrument display mechanism; 8. a heat dissipation louver; 9. a cabinet top; 10. an illumination mechanism; 11. a fixed mount; 12. a PP cotton filter element mechanism; 13. an activated carbon filter element mechanism; 14. a carbon filter element compressing mechanism; 15. a first connecting pipe; 16. a second connecting pipe; 17. a pressurization mechanism; 18. a third connecting pipe; 19. a fourth connecting pipe; 20. a Reverse Osmosis (RO) membrane mechanism; 21. fixing the buckle plate; 22. a fifth connecting pipe; 23. a sixth connecting pipe; 24. a pressure barrel; 25. a supporting seat; 26. a heat-insulating pad; 27. an electrical heating rod mechanism; 28. a heating tank; 29. a water outlet; 30. surrounding the water pipe; 31. a ceramic heat conducting sheet; 32. a connecting plate; 33. a sliding plate; 34. clamping a plate; 35. a fan mechanism; 36. a non-slip mat; 37. a thread; 38. and (4) ventilating slots.

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.

Referring to fig. 1-5, an embodiment of the present invention is shown: a high-efficiency energy-saving heating commercial water purifying device comprises a cabinet 1, a maintenance door mechanism 2 is arranged at the front end of the cabinet 1, an instrument display mechanism 7 is arranged at the upper end of the maintenance door mechanism 2, universal wheels 3 are arranged at the lower end of the cabinet 1, the universal wheels 3 are fixedly connected with the cabinet 1, a water inlet 4 is arranged on the side surface of the cabinet 1, a water outlet 5 is arranged below the water inlet 4, a waste water outlet 6 is arranged below the water outlet 5, and water inlet 4, delivery port 5 and waste water mouth 6 all with rack 1 fixed connection, the inside of rack 1 is provided with the cotton filter core mechanism 12 of PP, and one side of the cotton filter core mechanism 12 of PP is provided with activated carbon filter core mechanism 13, and the top of activated carbon filter core mechanism 13 is provided with booster mechanism 17, and booster mechanism 17's top is provided with reverse osmosis RO membrane mechanism 20, and activated carbon filter core mechanism 13's rear end is provided with pressure tank 24, and the top of water inlet 4 is provided with heat dissipation tripe 8.

Further, the inside of pressure vessel 24 sets up heating tank 28, and heating tank 28 is detachable with pressure vessel 24 and is connected, the outside of heating tank 28 is provided with around water pipe 30, and around water pipe 30 around heating tank 28, the one end of around water pipe 30 sets up down mouth of a river 29, and down mouth of a river 29 and around water pipe 30 structure as an organic whole, delivery port 5 and pressure vessel 24 fixed connection, around water pipe 30 around heating tank 28, form a swirl shape, then in water flows into pressure vessel 24 again, for direct inflow pressure vessel 24, the flow distance of water around heating tank 28 has been increased, the volume that the water flowed in has been reduced simultaneously, in addition the increase of distance, thereby the speed of water heating has been improved, the time of heating is reduced, reduce resource consumption, play energy-efficient effect.

Further, the lower terminal surface of heating jar 28 is provided with ceramic conducting strip 31, and ceramic conducting strip 31 and 28 fixed connection of heating jar, and ceramic conducting strip 31 is provided with four, can be faster with the bottom of heating jar 28 heat transfer to pressure vessel 24 through ceramic conducting strip 31 to ensure that the bottom gets water and can obtain the heat heating, just need not heat for a long time, still play the heat preservation effect, reduce resource consumption, play energy-efficient effect.

Further, the outside of pressure vessel 24 is provided with heat preservation pad 26, one side of heat preservation pad 26 is provided with sliding plate 33, and sliding plate 33 and heat preservation pad 26 fixed connection, the outer wall of pressure vessel 24 is provided with connecting plate 32, and heat preservation pad 26 passes through sliding plate 33 and connecting plate 32 sliding connection, the lower extreme of pressure vessel 24 is provided with supporting seat 25, and supporting seat 25 and rack 1 fixed connection, through the heat preservation effect that heat preservation pad 26 improved pressure vessel 24, also prevent that fan mechanism 35 from blowing away a large amount of pressure vessel 24 heats simultaneously.

Further, one side of supporting seat 25 is provided with fan mechanism 35, fan mechanism 35's both sides all are provided with cardboard 34, and fan mechanism 35 passes through cardboard 34 and 25 detachable connections of supporting seat, cardboard 34's surface is provided with slipmat 36, 1 lower surface of rack is provided with ventilation groove 38, fan mechanism 35 slowly blows to pressure tank 24, because it is slow to blow, so can not make pressure tank 24 rapid cooling, the heat that can make 24 outside giveouts of pressure tank up blows, thereby make the water pipe temperature rise, preheat before making the water in the water pipe, thereby realize energy-efficient effect, also can increase wind-force simultaneously, the effect of rapid cooling is played pressure tank 24.

Further, the inside of heating jar 28 is provided with electric heating rod mechanism 27, and electric heating rod mechanism 27 and heating jar 28 fixed connection, and water gets into heating jar 28 inside and contacts with electric heating rod mechanism 27, and the impurity of production can be stayed inside heating jar 28, reduces the pollution of water.

Further, the upper end of rack 1 is provided with cabinet top 9, and cabinet top 9 and 1 fixed connection of rack, all is provided with lighting mechanism 10 around cabinet top 9, and lighting mechanism 10 and 9 fixed connection of cabinet top shine all around rack 1 through lighting mechanism 10 to can observe and maintain under the dim condition, need not carry the flashlight at any time, improve the convenience.

Further, a compressed carbon filter element mechanism 14 is arranged on one side of the activated carbon filter element mechanism 13, threads 37 are arranged on the outer walls of one ends of the activated carbon filter element mechanism 13, the compressed carbon filter element mechanism 14 and the PP cotton filter element mechanism 12, the activated carbon filter element mechanism 13, the compressed carbon filter element mechanism 14 and the PP cotton filter element mechanism 12 are all in threaded connection with the fixed frame 11 through the threads 37, a first connecting pipe 15 is arranged between the water inlet 4 and the PP cotton filter element mechanism 12, a second connecting pipe 16 is arranged among the activated carbon filter element mechanism 13, the compressed carbon filter element mechanism 14 and the PP cotton filter element mechanism 12, a third connecting pipe 18 is arranged between the compressed carbon filter element mechanism 14 and the pressurizing mechanism 17, a fourth connecting pipe 19 is arranged between the pressurizing mechanism 17 and the reverse osmosis RO membrane mechanism 20, a fifth connecting pipe 22 is arranged between the RO membrane mechanism 20 and the pressure barrel 24, and a sixth connecting pipe 23 is arranged between the RO membrane mechanism 20, the outside of reverse osmosis RO membrane mechanism 20 is provided with fixed buckle 21, and reverse osmosis RO membrane mechanism 20 is connected with rack 1 is detachable through fixed buckle 21.

Further, the use method of the commercial water purifying equipment with high-efficiency energy-saving heating comprises the following steps:

the method comprises the following steps: the active carbon filter element mechanism 13, the compressed carbon filter element mechanism 14 and the PP cotton filter element mechanism 12 are arranged at the lower end of the fixed frame 11 and are in threaded connection with the fixed frame 11;

step two: the reverse osmosis RO membrane mechanism 20 is pressed into the space between the fixed pinch plates 21 for fixing, and then the first connecting pipe 15, the second connecting pipe 16, the third connecting pipe 18, the fourth connecting pipe 19, the fifth connecting pipe 22 and the sixth connecting pipe 23 are connected with corresponding mechanisms;

step three: the heat insulation pad 26 is inserted between the connecting plates 32, and the fan mechanism 35 is inserted between the clamping plates 34;

step four: the water inlet 4 is externally connected with a water inlet mechanism, the water outlet 5 is externally connected with a water outlet tap, the external water inlet mechanism is opened to start water purification, and then the electric heating rod mechanism 27 is electrified;

step five: the fan mechanism 35 is started, and the fan mechanism 35 can be closed when the fan mechanism is not used for a long time, so that long-time operation is avoided;

step six: the lighting mechanisms 10 are turned on, and the four lighting mechanisms 10 irradiate the periphery of the cabinet 1, so that the inspection and maintenance can be carried out in a dim condition.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes 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.

Claims (9)

1. The utility model provides a commercial water purification unit of energy-efficient heating, includes rack (1), its characterized in that: the front end of rack (1) is provided with maintenance door mechanism (2), the upper end of maintenance door mechanism (2) is provided with instrument display mechanism (7), the lower extreme of rack (1) is provided with universal wheel (3), and universal wheel (3) and rack (1) fixed connection, the side surface of rack (1) is provided with water inlet (4), the below of water inlet (4) is provided with delivery port (5), the below of delivery port (5) is provided with waste water mouth (6), and water inlet (4), delivery port (5) and waste water mouth (6) all with rack (1) fixed connection, the inside of rack (1) is provided with the cotton filter core mechanism of PP (12), one side of the cotton filter core mechanism of PP (12) is provided with activated carbon filter core mechanism (13), the top of activated carbon filter core mechanism (13) is provided with booster mechanism (17), the top of booster mechanism (17) is provided with reverse osmosis RO membrane mechanism (20), the rear end of active carbon filter core mechanism (13) is provided with pressure tank (24), the top of water inlet (4) is provided with heat dissipation tripe (8).

2. A commercial water purification apparatus with high efficiency and energy saving heating as claimed in claim 1, wherein: the inside of pressure vessel (24) sets up heating tank (28), and heating tank (28) and pressure vessel (24) are detachable connection, the outside of heating tank (28) is provided with encircles water pipe (30), and encircles water pipe (30) around heating tank (28), the one end that encircles water pipe (30) sets up down mouth of a river (29), and down mouth of a river (29) and encircle water pipe (30) structure as an organic whole, delivery port (5) and pressure vessel (24) fixed connection.

3. A commercial water purification apparatus with high efficiency and energy saving heating as claimed in claim 2, wherein: the heating tank is characterized in that ceramic heat conducting fins (31) are arranged on the lower end face of the heating tank (28), the ceramic heat conducting fins (31) are fixedly connected with the heating tank (28), and four ceramic heat conducting fins (31) are arranged.

4. A commercial water purification apparatus with high efficiency and energy saving heating as claimed in claim 1, wherein: the heat insulation device is characterized in that a heat insulation pad (26) is arranged outside the pressure barrel (24), a sliding plate (33) is arranged on one side of the heat insulation pad (26), the sliding plate (33) is fixedly connected with the heat insulation pad (26), a connecting plate (32) is arranged on the outer wall of the pressure barrel (24), the heat insulation pad (26) is slidably connected with the connecting plate (32) through the sliding plate (33), a supporting seat (25) is arranged at the lower end of the pressure barrel (24), and the supporting seat (25) is fixedly connected with the cabinet (1).

5. An energy-efficient heating commercial water purification unit as claimed in claim 4, wherein: one side of supporting seat (25) is provided with fan mechanism (35), the both sides of fan mechanism (35) all are provided with cardboard (34), and fan mechanism (35) pass through cardboard (34) and be connected with supporting seat (25) are detachable, the surface of cardboard (34) is provided with slipmat (36), rack (1) lower surface is provided with ventilation groove (38).

6. A commercial water purification apparatus with high efficiency and energy saving heating as claimed in claim 2, wherein: the heating tank (28) is internally provided with an electric heating rod mechanism (27), and the electric heating rod mechanism (27) is fixedly connected with the heating tank (28).

7. A commercial water purification apparatus with high efficiency and energy saving heating as claimed in claim 1, wherein: the upper end of rack (1) is provided with roof (9), and roof (9) and rack (1) fixed connection, all be provided with lighting mechanism (10) around roof (9), and lighting mechanism (10) and roof (9) fixed connection.

8. A commercial water purification apparatus with high efficiency and energy saving heating as claimed in claim 1, wherein: one side of the activated carbon filter element mechanism (13) is provided with a compressed carbon filter element mechanism (14), the outer walls of one ends of the activated carbon filter element mechanism (13), the compressed carbon filter element mechanism (14) and the PP cotton filter element mechanism (12) are respectively provided with a thread (37), the activated carbon filter element mechanism (13), the compressed carbon filter element mechanism (14) and the PP cotton filter element mechanism (12) are respectively in threaded connection with the fixing frame (11) through the threads (37), a first connecting pipe (15) is arranged between the water inlet (4) and the PP cotton filter element mechanism (12), a second connecting pipe (16) is arranged between the activated carbon filter element mechanism (13), the compressed carbon filter element mechanism (14) and the PP cotton filter element mechanism (12), a third connecting pipe (18) is arranged between the compressed carbon filter element mechanism (14) and the supercharging mechanism (17), and a fourth connecting pipe (19) is arranged between the supercharging mechanism (17) and the RO membrane mechanism (20), be provided with fifth connecting pipe (22) between reverse osmosis RO membrane mechanism (20) and pressure bucket (24), be provided with sixth connecting pipe (23) between reverse osmosis RO membrane mechanism (20) and waste water mouth (6), the outside of reverse osmosis RO membrane mechanism (20) is provided with fixed buckle (21), and reverse osmosis RO membrane mechanism (20) through fixed buckle (21) with rack (1) detachable connection.

9. The method of using a commercial water purification unit with high efficiency and energy saving heating as claimed in any one of claims 1 to 7, characterized in that the method comprises the following steps:

the method comprises the following steps: the active carbon filter element mechanism (13), the compressed carbon filter element mechanism (14) and the PP cotton filter element mechanism (12) are arranged at the lower end of the fixed frame (11) and are in threaded connection with the fixed frame (11);

step two: the reverse osmosis RO membrane mechanism (20) is pressed into the space between the fixed buckle plates (21) for fixing, and then the first connecting pipe (15), the second connecting pipe (16), the third connecting pipe (18), the fourth connecting pipe (19), the fifth connecting pipe (22) and the sixth connecting pipe (23) are connected with corresponding mechanisms;

step three: inserting the heat insulation pad (26) between the connecting plates (32), and inserting the fan mechanism (35) between the clamping plates (34);

step four: the water inlet (4) is externally connected with a water inlet mechanism, the water outlet (5) is externally connected with a water outlet tap, the external water inlet mechanism is opened to start water purification, and then the electric heating rod mechanism (27) is electrified;

step five: the fan mechanism (35) is started, and the fan mechanism (35) can be closed when the fan mechanism is not used for a long time, so that long-time operation is avoided;

step six: the lighting mechanisms (10) are turned on, the four lighting mechanisms (10) irradiate the periphery of the cabinet (1), and the cabinet can be inspected and maintained under the dim condition.

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